JP2004226921A - Image forming device and copying device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To operate image forming process equipment under the conditions suitable for operating environment even it is replaced by facilitating management of use life of the image forming process equipment. <P>SOLUTION: This image forming device is provided with means 650, 132 for storing equipment energizing information of the image forming process equipment and a control means 131 for forming an image on paper by controlling the equipment based on the equipment energizing information, the image forming process equipment is provided with a nonvolatile memory 98 for storing equipment information Tp including an equipment ID and a use result value D, an image forming device main body is provided with a nonvolatile memory 133b for storing management information Tm on the main body side including a use result value d and an allocated life value e to the equipment and management means 131, 630 for updating the respective result values of the memories 98, 133b according to image formation, notifying requirement of replacement of the equipment when the result value d of the management information Tm reaches the life value e and for writing the equipment energizing information corresponding to the equipment information Tp of the equipment after replacement in the storage means 650, 132. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus, and is used for, for example, a facsimile, a laser printer, and a copying machine.
[0002]
[Prior art]
[Patent Document 1] Registered Patent No. 2704139 discloses an image forming apparatus capable of recording an image by mounting a process unit, a developer cartridge, and the like. This type of image forming apparatus simplifies replacement of consumables and other consumables used for image formation, reduces the machine downtime due to the life of the consumables, reduces the time required for component replacement, and simplifies component replacement work. Serviceability has been improved.
[0003]
Japanese Patent Application Laid-Open No. 2001-255787 discloses a technique in which an operating environment at an installation destination of an image forming apparatus is determined based on information obtained from a used product mounted on an image forming apparatus main body. It is disclosed to operate the device according to the operating environment.
[0004]
As disclosed in the above-mentioned Patent Literature 1, a cartridge in which a part for accommodating a used article is formed into a cartridge has a configuration in which an electrophotographic process part, which is a consumable, is replaced by a cartridge, and is provided in this cartridge. In order to complete the image forming process conditions suitable for the characteristics of the photoconductor, an information source indicating the characteristics of the photoconductor is provided in a part of the cartridge. Then, the image forming apparatus senses this information source and sets an appropriate image forming condition. However, in such an image forming apparatus, there is a problem that the adjustment value corresponding to the operating environment (for example, temperature, humidity, atmospheric pressure, power supply voltage, voltage, voltage stability, etc.) where the apparatus main body is installed is not set. there were.
[0005]
The above-mentioned Patent Document 1 determines an operating environment at a planned installation location of the apparatus based on information obtained from a used product mounted on an image forming apparatus main body, and operates the apparatus according to the determined operating environment. However, in the case of new parts, there was a problem that the operating environment could not be updated.
[0006]
Japanese Patent Application Laid-Open No. 2000-200187 discloses a contract with a maintenance service center (maintenance company) for maintaining an image forming apparatus in a state suitable for image formation at all times, and providing a communication device and a service for the image forming apparatus. Using the communication with the management server of the center, the management server collects the status information of the image forming apparatus, grasps the necessity of the failure, the replenishment of the consumables, and the necessity of replacement. A management system in which an administrator contacts a user of an image forming apparatus and dispatches a service person to maintain the image forming apparatus in an optimal state is disclosed. The management system disclosed in this publication also downloads version upgrade software from the management server to the image forming apparatus by communication.
[0007]
Japanese Patent Application Laid-Open No. 2001-117425 discloses an image forming apparatus that reads and writes individual characteristics and usage amounts in a memory of a process cartridge, and sets an energizing condition according to memory information.
[0008]
Japanese Patent Application Laid-Open No. 2001-242752 discloses that a non-volatile memory is provided in a component unit, a recycle history is written, and when the component unit is used in an image forming apparatus, an image forming condition is set in accordance with the recycle history. A recycling method and an image forming apparatus for performing the same are disclosed.
[0009]
[Patent Document 6] Japanese Patent Application Laid-Open No. 2002-055571 discloses that when an IC of a motor drive circuit or an element of a sensor input circuit of an optional sheet feeder fails and a control board is replaced, a serial number of an EEPROM on the control board or a total supply number is determined. An image forming apparatus is disclosed in which apparatus information such as the number of sheets is read into the image forming apparatus main body side and saved, and when the control board is replaced, the saved apparatus information is written therein.
[0010]
[Problems to be solved by the invention]
In the warranty, maintenance, leasing, or rental of the image forming apparatus, a guaranteed value (the number of prints) is set for the entire apparatus, or a guaranteed value or a lifetime value (the number of prints) is set for each replacement part. In any case, if a part breaks down before it reaches the guaranteed value or the service life value, the part is replaced free of charge. If the image forming apparatus or the component is collected for recycling when the total of the actual use values of the failed component and the replaced component reaches the guaranteed value or the service life value, a component having a component life shorter than the designed component life ( (Replaced parts) occur.
[0011]
For example, if a component breaks down before its life cycle is used, the user can rent the component for the remaining number of times and replace it there, so that the user can use the component as much as the paid amount. After renting out the part to the user, the service side can collect the part and then rent out the part to another user who has failed until the end of the life of the part itself. However, if the remaining service life (required service life) of the collected parts is not known, the used parts may be used for replacement, the service life may actually expire within the warranty period, and the user may be further troubled. .
[0012]
SUMMARY OF THE INVENTION It is an object of the present invention to facilitate management of the service life of an image forming process device, and to enable an image forming apparatus to always operate under conditions suitable for an operating environment even after replacement.
[0013]
[Means for Solving the Problems]
(1) An image forming process device group for forming an image on a sheet, means (650, 132) for storing device energizing information corresponding to device information of the image forming process device, and an image forming instruction. An image forming apparatus comprising: a control unit configured to control an operation of the image forming process device group based on the device urging information to form an image on a sheet;
A component non-volatile memory (98) for storing device information (Tp) including a device ID and usage record information (D), which is provided in the imaging process device;
A main body non-volatile memory (133b) which is provided in the main body of the image forming apparatus and stores main body side management information (Tm) including a use result value (d) and an assigned lifetime value (e) addressed to an image forming process device;
According to the image formation, the use result values (D, d) of the component nonvolatile memory (98) and the main body non-volatile memory (133b) are updated (85 in FIG. 7), and the use result values (dm) of the main body side management information (Tm) are updated. ) Reaches the assigned life value (e), the replacement of the imaging process device is notified, and the device activation information corresponding to the device information (Tp) of the replaced imaging process device is stored in the storage unit (650, 650). 132), a management means (131, 630) for writing into (132);
An image forming apparatus comprising:
[0014]
In addition, in order to facilitate understanding, in the parentheses, reference numerals of corresponding elements or corresponding items of the embodiment shown in the drawings and described later are added for reference as examples. The same applies to the following.
[0015]
Here, the component non-volatile memory (98) and the main body non-volatile memory (133b) can read and write data, such as a contact-type non-volatile memory, a non-contact-type non-volatile memory, or a volatile memory having a power supply. Means a memory element or a memory device that can hold data without power supply.
[0016]
According to this, each time the image forming process device is used, the number of times of use is recorded in the image forming process device itself. Therefore, even when the device is used in another image forming apparatus, the used amount up to that time is recognized. Things become possible. It is possible to independently recognize and control the assigned life value (e) set in the image forming apparatus main body and the life of the image forming process device. If the imaging process device fails before it is used up to its life, the assigned lifetime value (e) after the replacement is calculated based on the life value (A) set in the imaging process device from the use of the main body nonvolatile memory (133b). By updating the value (d) to the difference value (c) obtained by subtracting the value (d), it becomes possible to provide a replacement product that can operate only the remaining portion. When the imaging process device replaced with the defective one has been replaced by less than the originally usable number of times when the assigned lifetime value (e) has been consumed, the actual number of times the image forming process device has been used can be easily confirmed. be able to. Its reuse is facilitated.
[0017]
Further, by storing the device energizing information addressed to the device information corresponding to the operating environment of the image forming apparatus in the storage means (650, 132), the image forming apparatus is always in the image forming apparatus even when the image forming process device is replaced. Operation can be performed under conditions suitable for the operating environment, and replacement of the imaging process equipment is facilitated.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
(2) The management means (131, 630) informs the necessity of replacement of the imaging process device when the use result value (D) of the device information (Tp) reaches the set life value (A) of the imaging process device. And writing the drive condition data corresponding to the device information (Tp) of the replaced image forming process device into the storage means (650, 132); the image forming apparatus according to (1).
[0019]
According to this, when the assigned life value (e) registered in the image forming apparatus main body is exhausted, the notification that the image forming process device needs to be replaced is notified. When the image forming process device is replaced, device urging information appropriate for the replaced image forming process device is stored in the storage means (650, 132), and the image forming apparatus is always suitable even when the image forming process device is replaced. It operates under various conditions. Replacement of the imaging process equipment is facilitated.
[0020]
(2a) The management means (131, 630) updates the status information in the device information (Tp) of the component non-volatile memory (98) to information indicating "life"; the image forming apparatus according to (2). . According to this, it is possible to easily recognize that the previous imaging process equipment removed by replacement is "life-span", that is, it has been used up.
[0021]
(2b) The management means (131, 630) updates the assigned life value (e) of the main body side management information (Tm) to the set life value (A) of the replaced image forming process device; The image forming apparatus according to (2a). According to this, when the assigned life value (e) registered in the image forming apparatus main body is exhausted, the remaining life is set in the image forming apparatus main body by replacing the corresponding image forming process equipment with a new one. A new image forming process device having the life value (A) is provided, and the assigned life value (e) registered in the image forming apparatus main body becomes the same life value (A). Subsequent management of the image forming process device in the image forming apparatus is facilitated.
[0022]
(3) The management means (131, 630) notifies the necessity of replacement of the imaging process device when the imaging process device has failed, and the drive condition corresponding to the device information (Tp) of the replaced imaging process device. The image forming apparatus according to any one of (1) to (2b), wherein data is written into the storage unit (650, 132).
[0023]
According to this, when the imaging process device fails, it is notified that the imaging process device needs to be replaced. When the image forming process device is replaced, device urging information appropriate for the replaced image forming process device is stored in the storage means (650, 132), and the image forming apparatus is always suitable even when the image forming process device is replaced. It operates under various conditions. Replacement of the imaging process equipment is facilitated.
[0024]
(3a) The management means (131, 630) updates the status information in the device information (Tp) of the component non-volatile memory (98) to information indicating "failure"; the image forming apparatus of (3). According to this, it is possible to easily recognize that the previous imaging process device removed by replacement is "failed", that is, unusable.
[0025]
(3b) The management means (131, 630) calculates the assigned lifetime value (e) of the main body side management information (Tm) from the allocated lifetime value (e) immediately before replacement with the actual usage value of the main body side management information (Tm) ( The image forming apparatus according to (3) or (3a), wherein d) is updated to a difference value (c = ed) obtained by subtracting d).
[0026]
According to this, if a failure occurs before the imaging process device is used up to the end of its life, the replacement of the imaging process device by the remaining number of times with respect to the assigned lifetime value (e) registered in the image forming apparatus main body. It becomes possible to use it. It is conceivable that the replaced imaging process device is replaced below the originally usable number (A), but the actual number of times the imaging process device has been used is recorded in the imaging process device. Therefore, management for subsequent reuse is easy.
[0027]
(4) The image forming apparatus further includes communication means (606) having a function of communicating with the management server (500), and the management means (131, 630) exchanges the image formed by the image forming apparatus via the communication means. The device activation information associated with the device information (Tp) of the process device is obtained from the management server and written in the storage unit (650, 132); any of the above (1) to (3b) An image forming apparatus according to claim 1.
[0028]
According to this, in the management server (500), device urging information corresponding to device information corresponding to the operating environment of the image forming device is stored, and the device addressed to the device information notified by the image forming device is stored. By reading the urging information and transmitting it to the image forming apparatus, the apparatus urging information corresponding to the operating environment and the apparatus information is automatically set in the image forming apparatus. For example, even a plurality of image forming apparatuses having the same specifications are shipped to a plurality of regions having different operating environments (temperature, humidity, atmospheric pressure, power supply voltage, voltage, voltage stability, etc.), and each user communicates with a management center in the region. When a maintenance contract is concluded, the management server of the management center in each region stores device activation information corresponding to device information (imaging process device) in the database according to the operating environment of the region. The device energizing information corresponding to the operating environment of each region is automatically set to each image forming apparatus shipped to each region. Even if the image forming process device is replaced, the image forming apparatus can always be made operable under conditions suitable for the operating environment, and replacement of the image forming process device is facilitated.
[0029]
(5) The device information includes characteristic information (charging characteristics, photoconductor characteristics, development characteristics, transfer characteristics, fixing characteristics) representing characteristics of the image forming process device; The image forming apparatus according to the above (4), wherein the urging parameter is transmitted to the management unit.
[0030]
According to this, the optimal device urging parameter corresponding to the image forming process device can be automatically set in the image forming apparatus, and replacement of the image forming process device is facilitated.
[0031]
(6) The image forming apparatus (100, 200) according to any one of the above (1) to (5a);
A document scanner (300, 400) for reading an image of a document and generating image data;
Image processing means for converting image data generated by the original scanner and document information provided by communication from the outside (PC, FCU) into image data for image formation adapted to the image forming apparatus and providing the image data to the image forming apparatus (630, IPP);
(FIGS. 1 and 3).
[0032]
According to this, the effects described in the above (1) to (5) can be similarly obtained in the management of the image forming process equipment of the copying apparatus.
[0033]
(7) The image forming process equipment sends data to a receiving coil (91) for inducing a voltage in accordance with AC magnetism, a rectifying and smoothing circuit (93) for rectifying and storing the induced voltage, and a component non-volatile memory (98). An information transmitter / receiver (95, 99) for reading / writing and transmitting / receiving data to / from a communication unit of the image forming apparatus main body; the image forming apparatus main body is disposed at a position to be magnetically coupled to the power receiving coil (91); A power supply coil (77a) for generating alternating magnetism and communication means (70 to 78) for transmitting and receiving data to and from the information transmitting and receiving devices (95, 99); image forming according to the above (1) to (6) Device or copier.
[0034]
According to this, even if the power source battery is not built in the information transmitter / receiver (95, 99), power is supplied to the information transmitter / receiver (95, 99) without passing through a mechanical electric connection line, and the data is transmitted. A transmission / reception operation can be performed. The image forming apparatus main body may apply an AC voltage to the power supply coil (77a) only when management information of the image forming process device is required. When this AC voltage is not applied, there is no power consumption in the information transmitting and receiving devices (95, 99), so that the power saving effect is high.
[0035]
(8) The information transmitter / receiver (95, 99) and the communication means (70-78) are wireless transceivers; the image forming apparatus or the copying apparatus according to (7). According to this, a connector is not required not only for power supply but also for transmission of a device information signal, and a detachable structure of the image forming process device with respect to the image forming apparatus main body can be easily configured.
[0036]
(9) The information transmitter / receiver (95, 99) and the communication means (70 to 78) each include a light emitter and a light receiver (99, 78) for wirelessly exchanging signals between them. Or the image forming apparatus or the copying apparatus according to (8). According to this, a connector is not required not only for power supply but also for transmission of a device information signal, and a detachable structure of the image forming process device with respect to the image forming apparatus main body can be easily configured.
[0037]
Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the drawings.
[0038]
【Example】
FIG. 1 shows an appearance of a multifunction full-color digital copying machine according to an embodiment of the present invention. This full-color copying machine generally includes an automatic document feeder (ADF) 400, an operation board 610, a color scanner 300, a color printer 100, and a paper feed table 200. The LAN (Local Area Network) to which the personal computer PC is connected is connected to the system controller 630 (FIG. 3) in the machine. The system controller 630 (FIG. 3) of this copying machine can be connected to a communication network (Internet), and can exchange data by communicating with the management server 500 of the management center via the communication network. In addition, the facsimile controller FCU (FIG. 3) in the machine can perform facsimile communication via the exchange PBX and the public communication network PN.
[0039]
FIG. 2 shows an outline of the mechanism of the copying machine shown in FIG. In the printer 100 of the copier, there is an intermediate transfer belt 10 which is an endless belt at the center. The intermediate transfer belt 10 is, for example, a multi-layer belt in which an elastic layer is provided on a base layer made of a less stretchable fluororesin or a highly stretchable rubber material and a less stretchable material such as canvas. The elastic layer is formed by coating a surface of, for example, a fluorine-based rubber or acrylonitrile-butadiene copolymer rubber with, for example, a fluorine-based resin to form a coat layer having good smoothness.
[0040]
The intermediate transfer belt 10 is wound around three support rollers 14 to 16 and is driven to rotate clockwise. To the left of the second support roller 15, there is an intermediate transfer body cleaning device 17 for removing residual toner remaining on the intermediate transfer belt 10 after image transfer.
[0041]
Black (K), yellow (Y), magenta (M), and cyan (C) are applied to the intermediate transfer belt 10 between the first support roller 14 and the second support roller 15 along the moving direction. There is an image forming apparatus 20 including each color image forming unit (image forming process device). Each color image forming unit is individually unitized for exchange, and is detachably attached to the printer main body. Each of the color image forming units includes a photosensitive drum 40 and an image forming-related device 18 including a charger for charging the photosensitive drum, a developing device for developing a latent image, a cleaning device, and other peripheral devices.
[0042]
Above the image forming device 20, there is a laser exposure device 21 that irradiates each photosensitive drum of each color image forming unit with laser light for image formation. This is also an image forming process device, and is unitized for replacement.
[0043]
Below the intermediate transfer belt 10 which is an image forming process device and is unitized for replacement, there is a secondary transfer device 22 which is an image forming process device and unitized for replacement. The secondary transfer device 22 is arranged so that a secondary transfer belt 24 as an endless belt is stretched between two rollers 23 to push up the intermediate transfer belt 10 and press the intermediate transfer belt 10 against the third support roller 16. is there. The secondary transfer belt 24 transfers the image on the intermediate transfer belt 10 onto paper. A fixing device 25 for fixing a transfer image on a sheet is provided beside the secondary transfer device 22, and the sheet onto which the toner image has been transferred is sent thereto.
[0044]
The fixing device 25 is also an image forming process device and is unitized for replacement. The fixing device 25 is a device in which a heating and pressure roller 27 is pressed against a fixing belt 26 which is an endless belt. Below the secondary transfer device 22 and the fixing device 25, there is a sheet reversing device 28 that reverses and feeds the sheet immediately after forming the image on the front surface so as to record the image on the back surface. The sheet reversing device 28 is also an image forming process device, and is unitized for replacement.
[0045]
When the start switch is pressed, if there is an original in the automatic document feeder (ADF) 400, the original is transported onto the contact glass 32, and if there is no original in the ADF, a manually placed original is placed on the contact glass 32. Immediately for reading, the scanner 300 is driven, and the first carriage 33 and the second carriage 34 are read and scanned. Then, light is emitted from the light source on the first carriage 33 to the contact glass, and the reflected light from the document surface is reflected by the first mirror on the first carriage 33 and directed to the second carriage 34. And is imaged on the CCD 36 as a reading sensor through the imaging lens 35. K, Y, M, and C color recording data are generated based on the image signals obtained by the CCD 36.
[0046]
Further, when the start switch is pressed, the rotation drive of the intermediate transfer belt 10 is started, the preparation for image formation of each image forming unit of the image forming apparatus 20 is started, and the image forming of each color image forming unit is started. The sequence is started, and an exposure laser modulated on the basis of each color recording data is projected on each color image forming unit, and each color image forming process overlaps and transfers each color toner image as a single image onto the intermediate transfer belt 10. Is done. When the leading edge of the toner image enters the secondary transfer device 22, the sheet is fed to the secondary transfer device 22 at a timing such that the leading edge enters the secondary transfer device 22 at the same time. The upper toner image is transferred to the paper. The sheet on which the toner image has been transferred is sent to the fixing device 25, where the toner image is fixed on the sheet.
[0047]
The above-mentioned paper is selectively rotated and driven by one of the paper feed rollers 42 of the paper feed table 200, fed out from one of the paper feed cassettes 44 provided in the paper bank 43 in multiple stages, and separated by a separation roller 45. Separated into the paper feed path 46, conveyed by the conveyance roller 47, guided to the paper feed path 48 in the printer 100, stopped against the registration roller 49, and then transferred to the secondary transfer device 22 at the above-described timing. What is sent out. Paper can also be fed by inserting paper into the manual feed tray 51. When the user is inserting paper into the manual feed tray 51, the printer 100 rotates the paper feed roller 50 to separate one sheet on the manual feed tray 51, pulls it into the manual feed path 53, Stop at 49.
[0048]
The sheet discharged after receiving the fixing process in the fixing device 25 is guided to the discharge roller 56 by the switching claw 55 and stacked on the discharge tray 57. Alternatively, the sheet is guided to the sheet reversing device 28 by the switching claw 55, reversed and guided again to the transfer position, the image is also recorded on the back surface, and then discharged onto the discharge tray 57 by the discharge roller 56.
[0049]
On the other hand, residual toner remaining on the intermediate transfer belt 10 after image transfer is removed by the intermediate transfer body cleaning device 17 to prepare for image formation again.
[0050]
Generally, the registration roller 49 is often used with being grounded, but it is also possible to apply a bias voltage to remove paper dust from the paper. For example, a bias is applied using a conductive rubber roller. A conductive NBR rubber having a diameter of 18 mm and a surface of 1 mm thickness is used. Electric resistance is 10 by volume resistance of rubber material. ⁹ It is about Ωcm. The paper surface after passing through the resist roller 49 to which the bias is thus applied is slightly negatively charged. Therefore, in the transfer from the intermediate transfer belt 10 to the sheet, the transfer condition may be changed and the transfer condition may be changed as compared with the case where no voltage is applied to the registration roller 49.
[0051]
A voltage of about -800 V is applied to the intermediate transfer belt 10 on the side where toner is transferred (front side), and a voltage of about +200 V is applied on the back side of the paper. In general, in the intermediate transfer method, paper dust hardly moves to the photoconductor, so that it is not necessary to consider to avoid paper dust transfer, and the ground may be used. Although a DC bias is applied as an applied voltage, this may be an AC voltage having a DC offset component to more uniformly charge the sheet.
[0052]
FIG. 3 shows a system configuration of the copying machine shown in FIG. 1 for image reading, image processing, image storage, and image formation. The reading unit 11 of the color document scanner 300 that optically reads a document performs scanning of the document with a document illumination light source, and forms a document image on a CCD 36 of an SBU (sensor board unit). The original image, that is, reflected light of light irradiation on the original is photoelectrically converted by the CCD 36 to generate R, G, B image signals, converted to RGB image data on the SBU, corrected for shading, and output I / F (interface). At 12, the image data is sent to an image data processor IPP (Image Processing Processor; hereinafter simply referred to as IPP) via an image data bus.
[0053]
The IPP performs separation generation (determination of whether an image is a character area or a photograph area: image area separation), background removal, scanner gamma conversion, filter, color correction, scaling, image processing, printer gamma conversion, and gradation processing. IPP is a programmable arithmetic processing unit that performs image processing. The image data transferred from the scanner 300 to the IPP is corrected for signal deterioration (signal deterioration of the scanner system) due to quantization into an optical system and a digital signal by the IPP, and is written into the frame memory 601.
[0054]
The system controller 630 has functions of a plurality of applications such as a scanner application, a facsimile application, a printer application, and a copy application, and controls the entire system. The operation panel control device 631 is a device that decodes an input on the operation board 610 and displays the settings of the present system and the contents of the status. The image data bus / control command bus is a bus through which image data and control commands are transferred in a time-division manner.
[0055]
The CPU 605 of the system controller 630 controls the system controller 630. The control program of the system controller 630 is written in the ROM 604. The RAM 603 is a working memory used by the CPU 605. The NVRAM 602 is a non-volatile memory, and stores information of the entire system.
[0056]
The external device communication control 606 controls communication with external devices (for example, copiers, image scanners, personal computers, printers, and facsimiles of the same type) that request image reading, image storage, or image printing, and the management server 500 of the management center. And controls the physical I / F for connecting to the network. When the external device communication control 606 connected to the network receives the data from the network, it sends only the contents of the communication data to the system I / F 607 from an electrical signal. The system I / F 607 logically converts the received data according to a prescribed protocol and sends the data to the CPU 605. The CPU 605 performs processing by determining the logically converted received data. Further, when the CPU 605 transmits data to the network, the transmission data is transmitted to the system I / F 607 and the external device communication control 606 in the reverse order of the reception, and transmitted as an electric signal on the network.
[0057]
The system I / F 607 controls transfer of original reading data, facsimile reception data, document data (printing instruction) of a personal computer, and image data (printing instruction) of document data of a personal computer, which are processed in the system by an instruction of the CPU 605. Image data) and transfer. The work memory 600 is a work memory for image development (conversion from document data to image data) used in the printer. The frame memory 601 is a working memory that temporarily stores image data of a read image or a write image that is printed immediately while power is being supplied.
[0058]
The HDDC 650 is used as an application database for storing system application programs and device energizing information of the image forming process device of the printer 100, and an image database for storing image data of read images and write images, that is, image data and document data. Hard disk HDD and its controller. The image data and the document data are coded or dot images. The FIFO buffer memory 609 performs a data transfer rate conversion when writing an input image to the frame memory 601. That is, the data is temporarily stored to absorb the difference between the data sending / receiving timings of the transfer source and the transfer destination, the difference in the data amount of the transfer unit, the transfer speed difference, and the like, and the data is received at the transfer timing and speed of the transfer source. Data is sent out at the transfer timing and speed of the transfer destination. Similarly, the FIFO buffer memory 608 performs speed conversion when transferring the image data of the frame memory 601 as an output image.
[0059]
The memory controller 610 controls input / output of images between the frame memory 601 and the HDDC 650 and the bus without the control of the CPU 605. Further, in accordance with the command received by the input device 614 of the operation board 301, the image stored in the HDDC is edited, processed, or synthesized using the frame memory 601. The memory controller 610 reads image information from the HDD of the HDDC 650 to the work memory 600 or the frame memory 601, and changes the print direction of the image on the transfer paper, rotates the image, and edits the combination of the image mainly by an image data address change operation. And density conversion by addition, subtraction, multiplication, and division of set values for image data, image trimming and synthesis by logical product operation or logical sum operation between image data, and writing of the image information processed in this way to the HDD, thereby forming various images. Processing and editing can be performed. The image reading magnification is performed by the image reading unit 624, and the printing magnification is performed by the image writing unit 623.
[0060]
The CPU 617 controls input / output of the operation board 610. That is, it controls input reading and display output of the operation board 610. The control program of the operation board 610 is written in the ROM 616. The RAM 618 is a working memory used by the CPU 617. An input device 614 operates the input keys and the input panel of the operation board 610 to allow a user to input system settings. The display device 615 is provided on the operation board 610, and displays the setting contents and status of the system to the user, and includes a display lamp and a display panel. The basic magnification adjustment values for the main scan and the sub-scan are measured by a magnification measurement based on a sample image in a system adjustment process, and set by the operation panel control device 611. Further, the user or a maintenance person checks whether or not the image lacking and the margin are generated from the printed image, and the magnification adjustment value for suppressing them is set on the operation board. 610.
[0061]
Each of the color image forming units (K, Y, M, and C) of the image forming device 20 of the printer 100 shown in FIG. 2, a laser exposure device 21, a registration roller 49, an intermediate transfer belt 10, a secondary transfer belt 24, and a fixing device The device 25 and the sheet reversing device 28 are detachably unitized and attached to the printer body as image forming process devices. Each unit incorporates the transmission / reception circuits 81 to 84,.
[0062]
Referring to FIG. 3 again, a reader / writer module 70 for receiving the device information transmitted by these transmission / reception circuits 81 to 84,... Is connected to the I / O 70. The I / O 70 is connected to a process controller 131 in the printer 100 that controls an image forming sequence of an image forming process device. The process controller 131 activates or sets the operation of the imaging process device based on the control program written in the RAM 132 and the activation parameter and timing data of the imaging process device, and controls the operation sequence.
[0063]
In the management memory 98, which is a non-volatile memory, of the management chip 95 of each of the transmission / reception circuits 81, 82, 83,..., Device information of an imaging process device unit equipped with the same is stored. The device information includes device ID (model code + individual code, individual code = lot number + product number), status information, use actual value D and set life value A, which are common to all units, as well as characteristic information for each unit. including. The unit of the secondary transfer belt 24 requires high-precision control such as a cause of a positional shift in forming a color image. As basic data for performing this control, characteristic information indicating characteristics such as a belt thickness and a resistance value is divided into specific sections and written in the management memory 98 addressed to the sections. The characteristic information of each color image forming unit in which the photosensitive drum and the process equipment around the photosensitive drum constitute one unit includes a photosensitive member characteristic, a charging roller characteristic, and a developing characteristic. The characteristic information of the unit of the registration roller 49 includes characteristic identification information of a ground type or a bias type, and in the case of a bias type, characteristics (roller resistance, surface resistance, etc.) serving as an index for determining a bias voltage. The characteristic information of the unit of the intermediate transfer belt 10 includes the transfer characteristics of each color transfer roller or transfer blade. The characteristic information of the unit of the fixing device 25 includes fixing characteristics (fixing temperature / power supply voltage / ambient temperature).
[0064]
FIG. 4 shows an outline of a unit management data transmission system from the transmitting / receiving circuits 81 to 84,... Incorporated in the image forming process unit to the system controller 630 shown in FIG. One transmission / reception circuit 81 includes a micro wireless management chip 95, and a power receiving coil 91, a rectifying / smoothing circuit 93, and a constant voltage circuit 94 for supplying an operating voltage thereto. The power receiving coil 91 is provided on the end surface of the unit case, and is wound around the magnetic core so that the magnetic coupling with the power supply coil 77a on the printer main body side is dense. A rectifying and smoothing circuit 93 is connected to the power receiving coil 91.
[0065]
A power supply coil 77a is provided in the printer body at a position where the power receiving coil 91 is opposed when the image forming process unit equipped with the transmission / reception circuit 81 is mounted, and the image forming process unit is attached to the printer body. When mounted, it faces the power feeding coil 77a at such a short distance that the power receiving coil 91 contacts. The other units are also provided with transmission / reception circuits 82, 83, 84,... Having the same specifications as the transmission / reception circuit 81, and when these units are mounted on the printer main body, the respective power receiving coils of the respective transmission / reception circuits are provided. Are provided in the printer main body, and the power supply coils 77b, 77c, 77d,.
[0066]
The power feeding coils 77a to 77D,... Are connected to the first to Nth input / output ports of the selection connection circuit 76. When the system controller 630 instructs the process controller 131 to read the status, the process controller 131 closes the open / close switch circuit 73. Then, the selection connection circuit 76 is switched from the input / output port 0 to the voltage output to the first port, and when the data transfer to the transmission / reception circuit 81 of the unit coupled to the first port is completed, the voltage output to the second port is established. Then, when the data transfer at the second port is finished, the voltage output is switched to the third port. In this case, the voltage output is switched to the Npd port for data transfer, and then the open / close switch circuit 73 is opened.
[0067]
While the open / close switch circuit 73 is closed, the AC voltage generator 74 generates an AC voltage, whereby an AC current flows through the first feeding coil 77a, and an AC magnetic field is generated. The alternating magnetic field induces an alternating current in the power receiving coil 91 of the transmission / reception circuit 81 to charge the smoothing capacitor of the rectifying / smoothing circuit 93. After the charging voltage of the smoothing capacitor reaches a predetermined value, the constant voltage circuit 94 starts applying a voltage to the management chip 95.
[0068]
The transmitting / receiving circuits 81, 82, 83,... Have a transmitting / receiving end 99 in which a light emitting diode for transmitting a communication signal and a phototransistor for receiving are paired, and are arranged side by side with the power receiving coil 91. A similar transmitting / receiving end 78a is provided in the printer main body, and is arranged side by side with the power transmission coil 77a. The transmitting / receiving end 99 of the process unit and the transmitting / receiving end 78a of the printer main body constitute two pairs of photocouplers for transmission and reception. That is, optical communication in wireless communication is performed.
[0069]
The process controller 131 transmits a read command or a write command to the management chip 95. The management chip 95 reads data in the management memory 98, which is a nonvolatile memory therein, in response to the read command and sends the data to the process controller 131. In addition, the management chip 95 reads data sent from the process controller 131 in response to the write command. Update and write to the management memory 98.
[0070]
When the process controller 131 finishes reading and writing the management data to the first port (the unit communicatively coupled to the first port), the process controller 131 sets the selection connection circuit 76 to the voltage output from the first port to the second port and the data transfer connection. The data is transmitted to and received from the transmission / reception circuit 82 by switching.
[0071]
The process controller 131 performs data transfer (read / write of the management memory 98) to such a process unit up to the last Npd No. I / O port set for data read / write of the selective connection circuit 76, and ends the process. Then, the switch 73 is returned to the open state.
[0072]
A management table Tp is stored in the management memory 98 of the management chip 95 of each of the transmission / reception circuits 81, 82, 83,... In this embodiment, the data of the management table Tp is the device ID (model code + individual code, individual code = lot number + product number), status information, actual use value D, set life value A, and characteristic information. Device information.
[0073]
The status information indicates one of a new product, a used product, a failure, and a service life. The usage result value D represents the number of times of use = the number of printed sheets.) And the set life value A are design life values corresponding to the usage environment.
[0074]
Each port No. of the selection connection circuit 76 is stored in the nonvolatile memory 133b of the color printer 100. There is a registration table Tm in which usage management data of each process unit connected to 1 to Npd is written. Each port No. in the registration table Tm. In this embodiment, the data addressed to 1 to Npd are the device ID of the unit connected thereto, status information indicating any of “in use”, “failure” and “life”, and the actual use value d (the number of uses = the number of prints). And the assigned lifetime value e.
[0075]
When a new printer 100 is provided to the user, in principle, the status information in the management table Tp of each process unit is a new product, the actual use value D = 0, the set life value A = the designed life value at the time of shipment. The status information addressed to each port in the registration table Tm is “in use”, the actual use value d = 0, the assigned lifetime value e = the set lifetime value A. However, the set life value A is defined for each process unit and differs for each process unit. However, the set life value A in the management table Tp of the process unit coupled to the i-th port and the set life value A in the registration table Tm are different. The assigned lifetime value e registered to the i-th port is the same.
[0076]
5 and 6 show an outline of the control operation of (the CPU 605 of) the system controller 630. First, referring to FIG. 5, when an operating voltage is applied to itself, the controller 630 clears the output port, initializes the RAM 603, and the like (2), and waits for the LCD touch panel of the operation board 610. Is displayed, and the red lamp of the print key is turned on (steps 1 and 2).
[0077]
Hereinafter, the word “step” is omitted in parentheses, and step No. Write only numbers.
[0078]
Next, the controller 630 reads the state of each part of the apparatus and performs abnormality detection (3). In the following, abnormalities and items requiring maintenance are collectively referred to as abnormalities.
Since it is possible to replace the image forming process device unit while the power is off, in order to confirm whether or not the unit has been replaced, the unit status reading (3) executes “reading unit information” (3a) shown in FIG. However, the contents will be described later with reference to FIG.
[0079]
When the status of each part is read (3), if there is an abnormality or maintenance is required in the apparatus (sheet replenishment required, unit replacement, paper feed cassette switching, etc.), it is checked whether there is registration (notification registration) to perform maintenance request notification. (20), and when there is no such information, the display of an abnormality or the like or the contents of maintenance is set and displayed (21).
[0080]
When the abnormality is repaired and the user exits the preparation loop, the display of the abnormality is reset (6). When the notification is registered, referring to FIG. 6, it is checked whether the abnormality or the like is an abnormality registered in the maintenance request item table allocated to one area of the NVRAM 602 (22). If so, the notification information to the management server 500 is edited (24) and transmitted to the management server 500 of the management center (25). Then, a display such as an abnormality is set (21).
[0081]
When there is no abnormality or the like, the number of copies: 1, automatic density, automatic paper selection, and the same magnification are set as initial conditions of the copy processing in the standard mode (7). Then, "Can be copied" is displayed on the liquid crystal touch panel, the green lamp is turned on in place of the red lamp display of the start key, and copying and print ready are set (8). Then, it is checked whether there is image data to be output in the image memory area of the HDD (9). If there is no image data, input of the print command and the operation board 610 from the host PC and transmission from the management server 500 are waited. (10-13). Here, if there is a copy input, it is read and a process corresponding to the input (setting of copy conditions) is performed (13).
[0082]
When the press of the start key is detected in "read operation board" (11), the controller 630 proceeds to "copy output processing" (14) (12-14). The outline of the "copy output process" (14) is the same as that of a general copy process. Upon completion of the original copy, the controller 630 checks steps 9 to 13. Upon receiving the print command from the host PC, the controller 630 proceeds to “P output processing” (printer output processing) (15) (10-15). The outline of the "P output process" (15) is the same as that of a general printer output process. When the printout is completed, the controller 630 checks steps 9 to 13.
[0083]
When receiving another print command while performing the above-mentioned "copy output process" (14) or "P output process" (15), the controller 630 sends the print command and print document data to the hard disk. Store in HDD. If the copy start key is pressed during the "P output process" (15), the ADF 400 and the scanner 300 are driven to store the original image data in the image memory area of the hard disk HDD. . When the current "copy output processing" (14) or "P output processing" (15) is completed, the stored data of the hard disk HDD is read out in order from the one with the quickest write, and the "copy output processing" is performed. (14) Or print out sequentially in "P output processing" (15) (9-16-14 / 15).
[0084]
While the "copy output process" (14) or the "P output process" (15) is being executed, and when the process controller 131 has finished and stands by, the process controller 131 reads the status (17), Upon recognizing this, the controller 630 is notified of this, and in response, the controller 630 checks whether "1" (notification registered) is included in the "notify the service center" section of the maintenance communication table. (20).
[0085]
Referring to FIG. 6, if there is "1" (notification registered), it is checked whether the abnormality recognized this time is registered (designated) in the maintenance request item table (22). If an abnormality or the like is registered in the maintenance request item table, it is checked whether or not the abnormality has already been notified to the management server 500 (23). Target machine) ID (line number), administrator ID (E-mail address or line number), and data indicating the abnormality etc. are edited into a transmission information frame (24), and the management service of the management center is edited. Communicates with the server 500 and transmits the transmission information frame to the management server 500; That is, a maintenance request notification is performed. After that, the controller 630 recognizes the reply from the management server 500 by "reading each part status" (17 in FIG. 5).
[0086]
FIG. 7 shows an outline of "reading unit information" (3a) executed in "reading of state of each part" (3). Here, the system controller 630 instructs the process controller 131 to read the device information (3a1). In response to this instruction, the process controller 131 reads out the state of each part (32) shown in FIGS. 9 to 12 and transmits / receives the signals from the transmission / reception circuits 81, 82, 83,. The management table Tp of each management memory 98 is read, the data of the management table Tp and the data of the registration table Tm are checked to check whether or not the unit needs to be replaced, and the information of the management table Tp and the registration table Tm is updated as necessary. Then, management information is generated and transferred to the system controller 630 (3a1).
[0087]
When receiving the management information, the system controller 630 generates a transmission information frame for transferring the information if the information indicates that the unit is faulty, has a life, or has been replaced (immediately after the replacement), and transmits the information to the Internet. It is transmitted to the management server 500 via (3a2).
[0088]
The management server 500 stores, in the model code of the device ID of the image forming process device unit, device urging parameters (motor rotation speed, charging roller applied voltage, developing bias voltage, color-specific primary transfer voltage, 2 (The next transfer voltage, the registration roller bias voltage, the fixing target temperature, and other image forming parameters), and an energizing information extraction table in which the set life value A is stored in association with each other, and addressed to a copier ID (line number). Has a management database.
[0089]
The above-mentioned energization information extraction table is created by roughly dividing the operating environment (for example, temperature, humidity, atmospheric pressure, power supply voltage, voltage, voltage stability, etc.) of the copying machine. The device energizing parameter value and the set life value A) for the characteristics of (1) partially differ depending on the operating environment. For example, the fixing target temperature is different between a cold region and a warm region, and the motor rotation speed and the energizing voltage are set to be higher in an unstable power region where the commercial power voltage tends to be low. In addition, the set life value A is set to be short for an operating environment in which the environment is presumed to be bad and the life degradation is presumed to be fast. Then, an activation information extraction table addressed to the operating environment of the region where the management server 500 is located is stored in the database of the management server 500.
[0090]
The management server 500 updates the management database addressed to the copier ID (line number) that has sent the transmission information frame based on the received information, and takes action when the received information indicates a failure or a life. The management center processing procedure report information or the countermeasure notification information for the user is transmitted to the system controller 630 (3a3). If the received information is "replaced" indicating that the unit has been replaced, the device activation parameter and the set life value A addressed to the model code of the unit are read from the activation information extraction table, The data is transmitted to the system controller 630 (3a3).
[0091]
The system controller 630 displays the received treatment method report information or countermeasure notification information on the operation board 610 (3a4), writes the device energizing parameters into the HDD, and sets the set life value A via the process controller 131 of the corresponding unit. An update is written to the management table Tp (3a5). The device activation parameters written in the HDD are also written in the RAM 132 (3a6).
[0092]
In the image formation of the copy or printout, the process controller 131 attaches the image forming process device according to the device urging parameter and the image forming control program read from the HDD and written into the RAM 132 in “initialization” (2). Since the energizing image forming sequence proceeds, when the device energizing parameters of the HDD and the RAM 132 are updated in accordance with the unit exchange as described above, the energizing of the image forming process device is performed in accordance with the updating.
[0093]
FIG. 8 shows an outline of the control operation of the process controller 131. When the operating voltage is applied to itself, the controller 131 clears the output port, initializes the RAM 132, etc. (31), and performs "reading of the state of each part" in the printer (32). Here, when copy conditions and print conditions are given from the system controller 630, they are saved in the RAM 132, and the mechanisms or circuits in the printer are set to the given conditions. If there is an abnormality or maintenance (an abnormality or the like) in the printer, it is notified to the system controller 630 and displayed on the operation board 610 (34, 44). When there is no abnormality or the like, or when the abnormality or the like disappears, the ready is notified to the system controller 630 and the display of the abnormality or the like is erased (35, 36), and a print command (copy start / print start) is issued from the system controller 630. When the process arrives, the process controller 131 executes control of the copy process or the print process of the designated condition (37, 38), and stores "1" indicating that the use result value of the process unit needs to be updated in the register FRe (on the RAM). (1 area) (39), and "reading of each part status" in the printer (40) is performed.
[0094]
In the "reading of each part status" (32) and (40) in the printer, data management of the management table Tp and the registration table Tm is performed. The contents will be described later with reference to FIG.
[0095]
When the "reading of each part status" (40) is completed, the use actual value of the process unit has been updated (53, 87 in FIG. 9), and the data of the register FRe is initialized to "0" (53). 41). If each unit is normal (ready), that is, if there is no abnormality or the like, in "reading of each unit state" (32), the system waits for a print command from the system controller 630. If there is a change such as opening and closing of the front cover, a process corresponding to the change is performed.
[0096]
9 to 12 show an update process of the management table Tp and the registration table Tm, which is executed when the process proceeds to “reading of each part status” (32) or (40). Proceeding to this update processing, the process computer 131 sets the device ID, status information, usage result value D, and setting of the management table Tp of the management memory 98 of the transmission / reception circuit 81 of the process unit coupled to the first port of the selection connection circuit 76. The life value A is read (51, 52). Then, when it is necessary to update the use result value of the process unit, that is, immediately after the execution of the printing (38), the read use result value D is converted into the number of times of printing (the number of times of image formation) in printing (38). ) Is updated to the updated value in the management table Tp, and the actual use value d addressed to the first port in the registration table Tm is also updated to the value to which the number of times of printing is added (53, 87).
[0097]
Next, the process controller 131 checks the device ID in the management table Tp with the ID addressed to the first port in the registration table Tm, and if the model codes in the ID do not match, the system controller determines that the “illegal part” Notification information to 630 is generated (55, 86), and reading / writing of the management table Tp is switched to the second port of the selective connection circuit 76 (63, 64 in FIG. 10), and similarly connected to the second port. It reads the management table Tp of the process unit and updates the actual use values D and d (52 to 54).
[0098]
Next, FIG. 10 is also referred to. If the model code of the device ID matches, the status information addressed to the first port in the registration table Tm is referred to (56) because the legitimate process unit is equipped (56), and the status is "in use". Indicates the use result management (57-66 in FIG. 10).
[0099]
That is, if the status information of the management table Tp of the process unit of the first port is “new” or “in use”, which means that it can be used, and it is not faulty, that is, if there is no abnormality, the management table Tp When the use result value D of the process unit is equal to or longer than the set life value A of the process unit, the notification information to the system controller 630 that "part replacement is required" is generated, and the status information of the management table Tp is updated to "life". (57-60). Further, when the use result value d addressed to the first port of the registration table Tm is equal to or longer than the allocated life value e, the notification information to the system controller 630 that "part replacement is required" is generated, and the second information in the registration table Tm is generated. The status information addressed to one port is updated to "life" (61, 62). If the use result value D <the set life value A and the use result value d <the assigned life value e, it is not necessary to replace the process unit of the first port, so the data in the management table Tp and the registration table Tm are not updated. Then, the management table Tp of the next process unit of the second port is read without generating the notification information (57, 58, 59, 61, 63, 64, 52).
[0100]
However, when the process unit of the first port is determined to have failed, the process controller 131 generates abnormality notification information to the system controller, and sets the status information of the management table Tp and the registration table Tm addressed to the first port to “ (58, 66). If the read status information of the management table Tp is “failure”, similarly, abnormality notification information to the system controller 630 is generated, and the status information addressed to the first port of the management table Tp and the registration table Tm is similarly determined. The information is updated to indicate "failure" (57, 65, 66).
[0101]
The generated notification information to the system controller 630 is transmitted from the process controller 131 to the system controller 630 when the reading of the management table Tp and the updating of the actual usage value of each process unit connected to the first port to the Nth port are completed. And is notified to the operation board 610 (63, 85). With this notification, the process unit that has been notified needs to be replaced, and the printer 100 does not proceed to the image forming process until the replacement is completed. Mode).
[0102]
When the user or serviceman opens the front cover of the printer 100, replaces the corresponding process unit and closes the front cover, the process controller 131 and the system controller 630 respond to the switching from the cover open to the closed state. Perform status reading.
[0103]
At this time, if the status information of the registration table Tm addressed to the port from which the management table Tp has been read is “failure”, it can be considered that the opening and closing of the front cover this time was replacement of the process unit having the failure. . In this case, the process controller 131 updates the management table Tp and the registration table Tm (56, 67 to 77) corresponding to the replacement of the process unit after the registration of the "failure" shown in FIG. However, when it is "life", it can be considered that the opening and closing of the front cover this time is replacement of the process unit having the life. In this case, the process controller 131 updates the management table Tp and the registration table Tm (56, 78 to 84) corresponding to the replacement of the process unit after the registration of the "life" shown in FIG.
[0104]
Please refer to FIG. If the status information of the registration table Tm addressed to the port from which the management table Tp has been read is "failure", the process controller 131 reports "failure" if the ID (model code + individual code) matches. Nevertheless, since the replacement of the process unit has not been performed, notification information to the system controller 630 indicating that the component needs to be replaced is generated (67, 77). If the IDs do not match (the model codes match but the individual codes do not match), the process units have been replaced, and the status information of the replaced process units (the read management table Tp) can be used. Is "new" or "in use", the system controller 630 is provided with the management table Tp of the replaced process unit together with the data update request. The system controller 630 transmits the information provided by the process controller 131 to the management server 500 through the same communication processing as “read unit information” (3a) shown in FIG. 7, and the management server 500 stores the information in the management table Tp. A drive energizing parameter corresponding to the model code of the device ID and the actual use value D and a set life value A corresponding to the model code are transmitted to the system controller 630. The system controller 630 writes the device activation parameter to the HDD, updates the set life value A to the management table Tp of the corresponding unit via the process controller 131, and writes the device activation parameter written to the HDD to the RAM 132. Write. In this process, the process controller 131 updates the set life value A received by the system controller 630 from the server 500 into the management table Tp of the replaced process unit (68a to 68c in FIG. 11).
[0105]
If the use result value D of the management table Tp is less than the set life value A, the status information of the registration table Tm and the status information of the management table Tp are both updated to "in use" (67 to 70). If the use result value D is greater than or equal to the set life value A, the process unit has been replaced with an unusable process unit. "(69, 76).
[0106]
As described above, the flow (67 to 70) in which the status information of the tables Tp and Tm are both updated to "in use" assuming that the replacement has been performed for the appropriate process unit, The unit was replaced immediately after the unit was replaced. Here, as the printer 100, the expiration date for the process unit after the replacement is set as the assigned lifetime value e.
[0107]
In this embodiment, when “automatic” is set, from the assigned life e that should be compensated (e = design life value A if there is no failure history in the past), the previous use performance value d of the failed unit is changed. A guaranteed remaining value setting mode in which the remaining value is set to the assigned life value e, where the subtracted difference value c = ed (c = Ad if there is no failure history in the past), and the setting life of the replaced process unit One of the unit life setting modes in which the value A is set to the assigned life value e is selected. When “manual” is set, the value input by the operator is set to the assigned life value e. ing.
[0108]
That is, in the registration table Tm of the nonvolatile memory 133b, the setting designation register FAs and the assignment value designation register FPes are assigned to the first to Nth ports of the selection connection circuit 76, respectively. If the data in the selection register FAs is “1” that specifies “automatic”, the data in the allocation value specification register FPes is “1” that specifies “set life”, and the allocated life value e is set to the set life. The usage value d is updated to the value A and the base value d is initialized to the base value 0 (71, 73, 75). If the data of the allocation value specification register FPes is "0" specifying "guaranteed residual value", the allocated life value is obtained. e is updated to a difference value c = ed obtained by subtracting the actual use value d from the assigned lifetime value e at the time of unit failure, and the actual use value d is initialized to the base value 0 (71, 73, 74). .
[0109]
If the data of the setting designation register FAs is “0” that designates “manual”, the process controller 131 issues a display request for an input reminding screen for prompting the operator to enter the number of times of use assigned to the replaced process unit. The system controller 630 notifies the system controller 630, and the system controller 630 transfers the notification to the operation board 610. The operation board 610 displays an assigned life value input screen on the liquid crystal touch panel of the display device 615. When the operator inputs a numerical value in the assigned life value input field on the screen and touches the enter key, the input value is notified to the process controller 131 via the system controller 630, and the process controller 131 sets the assigned life value e to the input value. And the use result value d is initialized to the base value 0 (71, 72a, 72b).
[0110]
The data setting in the setting specifying register FAs and the assignment value specifying register FPes will be described later with reference to FIG.
[0111]
With reference to FIG. 12, updating (56, 78 to 84) of the management table Tp and the registration table Tm for coping with the replacement of the process unit after the "life" is registered in the registration table Tm will be described. If the status information addressed to the port from which the management table Tp is read in the registration table Tm is “life”, the process controller 131 proceeds from step 56 in FIG. 10 to step 78 in FIG. If the code matches, the process unit has not been replaced despite the fact that "life" has been reported, so that information is sent to the system controller 630 indicating that component replacement is required (78, 84). . If the IDs do not match (the model codes match but the individual codes do not match), the process units have been replaced, and the status information of the replaced process units (the read management table Tp) can be used. Is "new" or "in use", the system controller 630 is provided with the management table Tp of the replaced process unit together with the data update request. The system controller 630 transmits the given information to the management server 500, and the management server 500 sets the device activation code corresponding to the device ID and the usage result value D of the device ID in the management table Tp and the setting of the device code correspondence. The life value A is transmitted to the system controller 630. The system controller 630 writes the device activation parameter to the HDD, updates the set life value A to the management table Tp of the corresponding unit via the process controller 131, and writes the device activation parameter written to the HDD to the RAM 132. Write. In this process, the process controller 131 updates the set life value A received by the system controller 630 from the server 500 into the management table Tp of the replaced process unit (79a to 79c in FIG. 12).
[0112]
If the use result value D of the management table Tp is less than the set life value A, the status information of the registration table Tm and the status information of the management table Tp are both updated to "in use" (78 to 82). Then, the assigned life value e is updated to the set life value A, and the use result value d is initialized to the base value 0 (83).
[0113]
If the use result value D is equal to or longer than the set life value A, the process unit has been replaced with an unusable process unit. Therefore, notification information to the system controller 630 that a component replacement is required is generated, and the status information of the management table Tp is changed to “ Life "(81).
[0114]
FIG. 10 is referred to again. As described above, the selection connection circuit 76 reads the process table management table Tp of one process unit, and compares the read information with the information on the registration table Tm addressed to the process unit. When all the process units connected to the first to Npd-th input / output ports have been completed, the process controller 131 transmits the notification information generated during the process to the system controller 630 (63, 85), and The controller 630 displays the information on the operation board 610. In response to this display, the user or serviceman performs a corresponding action such as replacement of the process unit, thereby switching the front cover of the printer 100 from open to closed (state change). The unit 131 reads the status of each unit, and executes the above-described “process unit use management” again.
[0115]
Normally, the assigned life value e registered in the printer 100 is the same as the set life value A for which the life of the process unit is taken as a unit. The difference occurs when the process unit is taken out of the printer 100 before the end of the life of the unit A and is used again in the same or another printer.
[0116]
As described above, if an abnormality such as a unit failure occurs in the unit before the end of its life after use, and it is determined that the unit is unusable, the operation board 610 displays an abnormality or the like and stops the machine. I do. Thereafter, when the unit is replaced, the process controller 131 calculates the remaining number of uses (guaranteed remaining value c = Ad) from the set life value A and the number of times d used so far. If the setting (FPes = “1”) that uses this is set separately in advance, this is newly assigned to the printer 100 and the assigned life value e (= c = A−d) for each unit. ). If there is no use history in the replaced unit, the process controller 131 determines that the guaranteed life has been completed and stops the printer if this unit is used this number of times e. In this way, a unit having a remaining life different from the design life of the unit is generated.
[0117]
When the unit having the remaining life is replaced with a new unit in the printer 100, the process controller 131 sets the set life value A of the new unit to the assigned life value e set in the printer.
[0118]
In actual use, if the unit breaks down before the life cycle A is used, the user is paid out by lending the unit (process unit) to the user for the remaining number c = Ad, and replacing it there. The unit can be used as much as the amount of money. Also, the service renting out the unit to the user, after collecting the unit, can check the remaining life value A-D from the actual use value D and the set life value A until the life of the unit reaches A. In addition, it becomes possible to lend the unit to a user who has separately failed. Further, after the user replaces the lent unit with a new unit after using the lent unit, newly purchased parts can be used up to the set life value A.
[0119]
FIG. 13 shows the "read operation board" (11) of FIG. 5, which is executed when a key other than the start key is operated by the system controller 630 using the operation board 610. PRP of the contents of "key reading process" (13). If the initial setting key of the operation board 610 is pressed while waiting for input, the first page of the setting menu (initial setting menu No. 0) is displayed on the liquid crystal touch panel of the operation board 610 (91, 92). . Then, an operator input to the operation board 610 is read (93). The setting menu No. In "0", there is a processing designation of "selection setting of the number of use of parts", and when the operator touches it, the "automatic / manual" designation key and the set value at the time of failure are selected on the liquid crystal touch panel of the operation board 610. "Part life / short life" key and enter key are displayed. When the operator touches the “Auto / Manual” designation key “Auto” or “Manual” and touches the “Part life / short life” key “Part life” or “Short life” and then touches the enter key The input information is provided from the operation board 630 to the system controller 630, and the system controller 630 writes the information into the setting designation register FAs and the assignment value designation register FPes ("1", "0"). And register it in the registration table Tm of the nonvolatile memory 133b via the process controller 131 (94 to 102).
[0120]
In addition, setting menu No. 0, there is a processing designation of "management, registration information output", and when the operator touches it, the system controller 630 causes the liquid crystal touch panel of the operation board 610 to display the scroll-type management table Tp and the registration table Tm. Is displayed, and a request is made to the process controller 131 for the management table Tp and the registration table Tm. In response, the process controller 131 reads the management table Tp of each process unit connected to the first to Npd input / output ports via the selection connection circuit 76, and reads the operation table 610 via the system controller 630. And the registration table Tm in the nonvolatile memory 133b is transferred to the operation board 610. The operation board 610 displays the data of these tables on the table display screen (103, 104). When the operator touches “print” on the task bar on the display screen, the system controller 630 instructs the process controller 131 to perform printing when the process controller 131 has notified that the process controller 131 is ready (printable). The information is converted into image data for printing and transmitted. As a result, a print of the display information is obtained (105 to 107).
[0121]
Further, in the setting menu, there is a process designation of “register in the management center”, and when the operator touches the designation, the system controller 630 causes the liquid crystal touch panel of the operation board 610 to display the administrator of the copier and the management center. A screen for setting communication between the copier and the administrator and the server 500 of the management center is displayed based on the maintenance contract. When registering a notification in the server 500, first enter "1" in the "notify the service center" section. Then, the line number and IP address of the PBX of the management server 500 of the management center that provides the maintenance service and the telephone number (telephone call number) for the voice conversation of the management center are entered in the column of "management center". input. Next, the administrator of the copier inputs the personal computer or facsimile line number and IP address) and the telephone number (telephone call number) for voice conversation in the "administrator" field. Further, the line number and IP address of the PBX 45 of the copier and the telephone number (telephone call number) for voice conversation at that location are entered in the "target machine" field. When "inquiry" is selected, the inquiry information from the management server 500 is sent to the E-Mail name (line number) addressed to the PC connected to the copying machine, or the display on the operation board of the copying machine. (Liquid crystal panel) or printout by a copier is selected and designated by inputting an ID (line number) addressed to each output means. The input data is written in the NVRAM 602 to the setting menu. The memory area in which these data groups are written is hereinafter referred to as a maintenance communication table. When the operator touches the “Registration” key on the screen, the system controller 630 sends the maintenance communication table to the line number of the management center (the management server 500) via the external device communication control 606. Then, the maintenance request item is transmitted (33-36). The management server 500 writes each of the received tables and lists into a maintenance registration memory (database) in the management server 500 to the copy machine of the transmission source.
[0122]
When the operator touches the “close” button on the display screen of the operation board 610, the system controller 630 sets the initial setting menu No. The input screen of 0 is closed (108).
[0123]
【The invention's effect】
Each time an image forming process device is used, the number of times of use is recorded in the image forming process device itself. Therefore, even when the device is used in another image forming apparatus, it is possible to recognize the used amount up to that time. . It is possible to independently recognize and control the assigned life value (e) set in the image forming apparatus main body and the life of the image forming process device. If the imaging process device fails before it is used up to its life, the assigned lifetime value (e) after the replacement is calculated based on the life value (A) set in the imaging process device from the use of the main body nonvolatile memory (133b). By updating the value (d) to the difference value (c) obtained by subtracting the value (d), it becomes possible to provide a replacement product that can operate only the remaining portion. When the imaging process device replaced with the defective one has been replaced by less than the originally usable number of times when the assigned lifetime value (e) has been consumed, the actual number of times the image forming process device has been used can be easily confirmed. be able to. Its reuse is facilitated.
[0124]
Further, by storing the device energizing information addressed to the device information corresponding to the operating environment of the image forming apparatus in the storage means (650, 132), the image forming apparatus is always in the image forming apparatus even when the image forming process device is replaced. Operation can be performed under conditions suitable for the operating environment, and replacement of the imaging process equipment is facilitated.
[Brief description of the drawings]
FIG. 1 is a front view showing the appearance of a color copying machine having a composite function according to a first embodiment of the present invention.
FIG. 2 is a longitudinal sectional view showing an outline of a mechanism of the copying machine shown in FIG.
FIG. 3 is a block diagram showing an outline of an image processing system of the copying machine shown in FIG. 1;
4 is a block diagram showing an outline of a unit information transmission path from the transmission / reception circuits 81, 82, 83,... Provided in the process unit to the system controller 630 shown in FIG.
FIG. 5 is a flowchart showing a part of an outline of system control by a system controller 630 shown in FIG. 3;
6 is a flowchart showing the rest of the outline of system control of the system controller 630 shown in FIG.
FIG. 7 is a flowchart showing an outline of “reading unit information” (3a) executed in “reading each unit state” (3) shown in FIG. 5;
8 is a flowchart showing an outline of management and control of a process unit by the process controller 131 shown in FIG.
FIG. 9 is a flowchart showing a part of “use management of process unit” executed in “reading of each part state” (32) and (40) shown in FIG. 6;
FIG. 10 is a flowchart showing another part of “use management of process unit” executed in “read status of each unit” (32) and (40) shown in FIG. 6;
FIG. 11 is a flowchart showing another part of “use management of process unit” executed in “reading of each unit state” (32) and (40) shown in FIG. 6;
FIG. 12 is a flowchart showing a remaining part of “use management of process unit” executed in “reading of state of each part” (32) and (40) shown in FIG. 6;
FIG. 13 is a flowchart showing a part of an initial setting process executed by the system controller 630 shown in FIG. 3 in “other key reading process” (13) in FIG. 4;
[Explanation of symbols]
10: Intermediate transfer belt 14-16: Support roller
17: Intermediate transfer body cleaning device
18: Imaging equipment 20: Imaging equipment
21: Laser exposure device 22: Secondary transfer device
23: roller 24: secondary transfer belt
25: Fixing device 26: Fixing belt
27: Pressure roller 28: Sheet reversing device
32: Contact glass
33: first carriage 34: second carriage
35: imaging lens 36: CCD
40: photosensitive drum 42: paper feed roller
43: Paper bank 44: Paper cassette
45: separation roller 46: paper feed path
47: transport roller 48: paper feed path
49: Registration roller 50: Paper feed roller
51: manual feed tray 55: switching claw
56: Discharge roller 57: Discharge tray
77a, 77b, 77c, ...: feeding coil
91: Receiving coil

Claims (6)

An image forming process device group for forming an image on a sheet, means for storing device energizing information corresponding to device information of the image forming process device, and an operation of the image forming process device group corresponding to an image forming instruction. A control unit for forming an image on a sheet by controlling based on the device urging information,
A component nonvolatile memory for storing device information including a device ID and usage record information, which is provided in the imaging process device;
A main body non-volatile memory for storing main body side management information including a use result value and an allocated life value addressed to an image forming process device, which is provided in the main body of the image forming apparatus; and
Update each use result value of the component non-volatile memory and the main body non-volatile memory according to the image formation, notify the necessity of replacement of the imaging process device when the use result value of the main body side management information reaches the assigned life value, and Management means for writing device biasing information corresponding to device information of the imaging process device into the storage means;
An image forming apparatus comprising: The management means notifies the necessity of replacement of the imaging process device when the use result value of the device information reaches the set life value of the imaging process device, and the driving condition data corresponding to the device information of the replaced imaging process device. The image forming apparatus according to claim 1, wherein: When the imaging process device fails, the management unit notifies the user of the need to replace the imaging process device, and writes drive condition data corresponding to device information of the replaced imaging process device into the storage unit; 3. The image forming apparatus according to 1 or 2. The image forming apparatus further includes a communication unit having a function of communicating with the management server; and the management unit, via the communication unit, activates the device associated with the device information of the replaced image forming process device. The image forming apparatus according to claim 1, wherein information is obtained from the management server and written into the storage unit. 5. The image forming apparatus according to claim 4, wherein the device information includes characteristic information indicating characteristics of an image forming process device; and the management server transmits a device activation parameter corresponding to the characteristic information to the management unit. . An image forming apparatus according to claim 1;
A document scanner which reads an image of a document and generates image data; and
Image processing means for converting the image data generated by the document scanner and the document information provided by communication from the outside into image data for image formation adapted to the image forming apparatus and providing the image data to the image forming apparatus;
A copying apparatus comprising:

Images