JP6759748B2 - Image forming device - Google Patents

Description

The present invention relates to an image forming apparatus.

Conventionally, in an image forming apparatus, there are consumables such as a photoconductor drum unit (hereinafter referred to as a drum unit) and a toner bottle, and it is necessary to replace the drum unit and the toner bottle according to the degree of wear.

For example, with regard to the drum unit, since the durability of the photoconductor drum differs between that for color printing and that for monochrome printing, the mileage of the drum unit is determined by the 1-chip CPU (Central Processing Unit) (hereinafter, IC chip) mounted on the drum unit. It is stored in the storage unit of). By the way, the IC chip has a predetermined function such as a storage unit and a communication unit.

Then, for example, after the image forming process, the main body of the image forming apparatus writes the mileage updated by the image forming process into the storage unit of the IC chip of the drum unit, and travels stored in the storage unit at a predetermined cycle. The distance can be read out, and the optimum replacement time of the drum unit can be displayed on the display unit based on the mileage.

On the other hand, in the image forming apparatus for color printing, there are drum units corresponding to four colors of yellow (Y), magenta (M), cyan (C), and black (K), and the main body of the image forming apparatus is UART ( Universal Asynchronous Receiver Transmitter) Using mutual communication such as communication, the mileage corresponding to the image formation process is overwritten and saved in the storage unit of the IC chip of the drum unit. Further, as the communication line, a bus type connection by one communication line is often used.

In the bus type connection, since communication is performed with a plurality of IC chips by one communication line, it is necessary to make it possible to identify which color drum unit IC chip of YMCK the main body of the image forming apparatus is. There is. Therefore, an ID number (fixed value) for identification is written in advance on the IC chip, and the main body of the image forming apparatus transmits the mileage to be updated together with the ID number on the communication line. Then, the IC chip captures the mileage that matches its own ID number and overwrites and saves the data in the storage unit.

Then, by using such an identification method based on the ID number, it is possible to reliably retain the history information of the drum set and eliminate the occurrence of image failure due to accidentally continuing the drum set that has reached the end of its life. Further, there is a printing apparatus capable of accurately managing the life of the drum set even when a new drum set used for the printing process is installed for the first time after manufacturing (see Patent Document 1).

Japanese Unexamined Patent Publication No. 2013-072902

However, when a fixed value ID number for identification (corresponding to the color of YMCK) is set in advance on the IC chip, for example, during maintenance, the drum unit is placed in a place different from the original mounting place (toner bottle of a different color). ), The erroneous mounting cannot be detected from the main body of the image forming apparatus. Then, the main body of the image forming apparatus identifies the color of the toner to be used based on the set ID number, so that the mileage of the image forming process with respect to the original color can be determined by the drum unit mounted on the toner bottles of different colors. It writes in the storage part of the IC chip.

For example, it is assumed that the yellow (Y) ID number is set to "0" and a drum unit having such an ID number is mistakenly attached to the position of the magenta (M) toner bottle.

For example, when the image forming process for yellow (Y) is performed, the main body of the image forming apparatus sets the mileage of the image forming process for yellow (Y) not to the drum unit mounted at the position of the yellow (Y) toner bottle. Actually, the image is written in the storage unit of the IC chip of the drum unit (mismounted at the position of the toner bottle of the magenta (M)) having the ID number "0" which is not involved in the image forming process.

For this reason, the mileage of the image forming process for yellow (Y), which is not actually involved in the drum unit having the ID number "0" incorrectly installed at the position of the toner bottle of magenta (M), is overwritten and saved. Therefore, there is a problem that the original mileage of the drum unit cannot be accurately maintained, and the replacement time of the drum unit cannot be accurately grasped.

An object of the present invention is to provide an image forming apparatus capable of accurately grasping a replacement time of a drum unit.

In order to achieve the above object, the image forming apparatus of the invention according to claim 1 is
In an image forming apparatus including a plurality of drum units, a mounting unit for detachably mounting the plurality of drum units, and a control unit for managing the replacement timing of the drum units.
Each of the plurality of drum units identifies itself as a photoconductor drum, a communication unit that communicates with the control unit via a communication line, and an input unit that takes in information for identifying the mounting unit from the mounting unit. It comprises an identification code and an IC chip having a storage unit for storing cumulative data regarding the use of the photoconductor drum.
The mounting unit includes an information providing unit that provides the information at the input unit of the IC chip of the mounted drum unit.
Before SL IC chip, when the drum unit to the mounting portion is attached, rewrites the identification code stored in the storage unit, the identification code based on the information retrieved by the input unit,
The control unit transmits data regarding the use of the photoconductor drum associated with the identification code to the IC chip.
The IC chip that stores the identification code transmitted from the control unit is characterized in that the cumulative data in the storage unit is rewritten based on the data relating to the use of the photoconductor drum .

The invention according to claim 2 is the image forming apparatus according to claim 1.
The IC chip is characterized in that the storage unit has a conversion table for converting the information into an identification code corresponding to the information, and the identification code corresponding to the information is acquired from the conversion table and rewritten.

The invention according to claim 3 is the image forming apparatus according to claim 1 or 2.
The information providing unit is characterized in that a voltage or current having a different value for each mounting unit is supplied to the IC chip of the drum unit mounted as the information.

The invention according to claim 4 is the image forming apparatus according to claim 1 or 2.
The information providing unit is characterized in that a resistance value different for each mounting unit is supplied to the IC chip of the drum unit mounted as the information.

The invention according to claim 5 is the image forming apparatus according to claim 1 or 2.
The information providing unit is characterized in that a bit pattern different for each mounting unit is supplied to the IC chip of the drum unit mounted as the information.

The invention according to claim 6 is the image forming apparatus according to any one of claims 1 to 5.
The IC chip is characterized in that it stores a usage limit value corresponding to the mounted portion and rewrites the usage limit value based on the information captured by the input unit.

The invention according to claim 7 is the image forming apparatus according to any one of claims 1 to 6.
The IC chip is characterized in that it stores the history of the information taken in by the input unit as the cumulative data and additionally stores the last acquired information.

The invention according to claim 8 is the image forming apparatus according to any one of claims 1 to 7.
The IC chip stores a value indicating the life of the drum unit in the storage unit.
The control unit is characterized in that the notification unit notifies the exchange time based on the value of the cumulative data.

The invention according to claim 9 is the image forming apparatus according to any one of claims 1 to 8.
The control unit is characterized in that the cumulative data is updated when a predetermined number of images have been formed.

The invention according to claim 10 is the image forming apparatus according to any one of claims 1 to 9.
The IC chip is characterized in that the identification code of the storage unit is rewritten with an identification code corresponding to the information captured by the input unit when power is supplied from the main body side.

According to the present invention, it is possible to accurately grasp the replacement time of the drum unit.

It is a figure which shows the schematic structure of the image forming apparatus of an embodiment to which this invention is applied. It is a block diagram which shows the main functional composition of an image forming apparatus. It is explanatory drawing which shows an example which enlarged the neighborhood of a mounting part and a drum unit. It is explanatory drawing which shows the connection relationship between a control part and a drum unit. It is a flowchart which shows an example of the operation of a control part. It is a flowchart which shows an example of the operation of an IC chip. It is explanatory drawing which shows an example of the conversion table which shows the relationship between the information of a mounting part and an identification code.

(Embodiment)
[1. Description of configuration]
Hereinafter, a specific aspect of the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the illustrated examples.
FIG. 1 is a diagram showing a schematic configuration of an image forming apparatus 100 according to an embodiment to which the present invention is applied. Further, FIG. 2 is a block diagram showing a main functional configuration of the image forming apparatus.

As shown in FIG. 1, the image forming apparatus 100 of the present embodiment is an image data acquired by reading a color image formed on a document, or an external information device (for example, a personal computer) via a network. An image is formed by superimposing colors on the paper (recording medium) M based on the image data input from.
Further, the image forming apparatus 100 runs the photoconductor drums 43Y, 43M, 43C, and 43K corresponding to the four colors of yellow (Y), magenta (M), cyan (C), and black (K) on the intermediate transfer belt 47a. It is a tandem type image forming apparatus that is arranged in series in the direction and sequentially transfers each color toner image to the transferred object in one procedure.

Specifically, as shown in FIG. 2, the image forming apparatus 100 of the present embodiment includes an image reading unit 1, an operation display unit 2, an image processing unit 3, an image forming unit 4, and a conveying unit 5. , The fixing device 6 and the control unit 7 and the like are provided.
Further, the control unit 7 is connected to the image reading unit 1, the operation display unit 2, the image processing unit 3, the image forming unit 4, the transport unit 5, and the fixing device 6 via the bus 8.

The image reading unit 1 includes an automatic document feeding device 11 called an ADF (Auto Document Feeder), a document image scanning device (scanner) 12, and the like.

The automatic document feeding device 11 conveys the document placed on the document tray by the conveying mechanism and sends it out to the document image scanning device 12. The automatic document feeding device 11 can continuously read images (including both sides) of a large number of documents placed on a document tray at once.

The document image scanning device 12 optically scans the document conveyed on the contact glass from the automatic document feeding device 11 or the document placed on the contact glass, and the reflected light from the document is a CCD (Charge Coupled Device). ) An image is formed on the light receiving surface of the sensor 12a, and the original image is read. The image (analog image signal) read by the image reading unit 1 is subjected to predetermined image processing by the image processing unit 3.
Here, the image is not limited to image data such as figures and photographs, but also includes text data such as characters and symbols.

The operation display unit 2 is composed of a liquid crystal display (LCD: Liquid Crystal Display) or the like with a touch panel, and functions as a display unit 21 and an operation unit 22.
The display unit 21 displays various operation screens, an image status display, an operation status of each function, and the like according to a display control signal input from the control unit 7.
The operation unit 22 includes various operation keys such as a numeric keypad and a start key, receives various input operations by the user, and outputs an operation signal to the control unit 7.

The image processing unit 3 includes a circuit that performs analog-to-digital (A / D) conversion processing, a circuit that performs digital image processing, and the like.
The image processing unit 3 generates digital image data (RGB signal) by performing A / D conversion processing on the analog image signal from the image reading unit 1. In addition, the image processing unit 3 performs color conversion processing, gradation reproduction processing (screen processing, etc.), correction processing according to initial settings or user settings (shading correction, etc.), compression processing, and the like on the digital image data. .. The image forming unit 4 is controlled based on the digital image data (YMCK signal) subjected to these processes.

The image forming unit 4 includes exposure devices 41Y, 41M, 41C, 41K, developing devices 42Y, 42M, 42C, 42K, and an image carrier provided corresponding to different color components Y, M, C, and K. Photoconductor drums 43Y, 43M, 43C, 43K, charging devices 44Y, 44M, 44C, 44K, cleaning devices 45Y, 45M, 45C, 45K, primary transfer rollers 46Y, 46M, 46C, 46K, and intermediate transfer unit 47. Etc. are provided.

In the unit for the Y component of the image forming unit 4, the charging device 44Y charges the photoconductor drum 43Y. The exposure apparatus 41Y is composed of, for example, a semiconductor laser, and irradiates the photoconductor drum 43Y with a laser beam corresponding to the Y component. As a result, an electrostatic latent image of the Y component is formed (imaged) on the surface of the photoconductor drum 43Y. The developing device 42Y contains a Y-component developer (for example, a two-component developer composed of a toner having a small particle size and a magnetic material), and adheres the Y-component toner to the surface of the photoconductor drum 43Y. To develop an electrostatic latent image (formation of a toner image).
Similarly, in the units for the M component, the C component, and the K component, toner images of each color are formed on the surfaces of the corresponding photoconductor drums 43M, 43C, and 43K.

The cleaning devices 45Y, 45M, 45C, 45K remain on the surfaces of the photoconductor drums 43Y, 43M, 43C, 43K by a blade or the like which is an abutting member that abuts on the surfaces of the photoconductor drums 43Y, 43M, 43C, 43K. Removes the adhered toner and foreign matter.

The intermediate transfer unit 47 is configured such that an endless intermediate transfer belt 47a serving as a transfer body is stretched on a plurality of support rollers 47b.
When the intermediate transfer belt 47a is pressed against the photoconductor drums 43Y, 43M, 43C, 43K by the primary transfer rollers 46Y, 46M, 46C, 46K, the toner images of each color are sequentially superimposed on the intermediate transfer belt 47a and the primary transfer is performed. .. Then, the intermediate transfer belt 47a that has been primarily transferred is pressed against the paper M by the secondary transfer roller 48, so that the toner image is secondarily transferred to the paper M.

The transport unit 5 includes a paper feed device 51, a transport mechanism 52, a paper discharge device 53, and the like.
The paper feed device 51 includes three paper feed tray units 51a to 51c. In these paper feed tray units 51a to 51c, standard paper and special paper identified based on the basis weight and size of the paper M are stored for each preset type. The paper M housed in the paper feed tray units 51a to 51c is fed one by one from the uppermost portion, and is conveyed to the image forming unit 4 by a conveying mechanism 52 provided with a plurality of conveying rollers such as a resist roller 52a. At this time, the resist portion on which the resist roller 52a is arranged corrects the inclination of the fed paper M and adjusts the transfer timing.

Then, in the image forming unit 4, the toner image of the intermediate transfer belt 47a is collectively secondarily transferred to the image forming surface of the paper M, and the fixing step is performed in the fixing device 6. The image-formed paper M is discharged to the paper discharge tray 53b outside the machine by the paper discharge device 53 provided with the paper discharge roller 53a.

The fixing device 6 includes a fixing roller 61a, a pressure roller 61b, and the like. The fixing device 6 performs a fixing process for fixing the toner image transferred to the paper M. Further, the fixing roller 61a and the pressure roller 61b form a nip portion that sandwiches and conveys the paper M.

The fixing roller 61a is arranged on the image forming surface side of the paper M, and the fixing roller 61a rotates with the driving of a driving means such as a motor (not shown).
Further, the fixing roller 61a has a structure in which an elastic layer made of silicone rubber or the like is formed on the outer peripheral surface of a columnar core metal made of iron or the like, and a halogen heater or the like is fixed as the fixing heater 61c. A heater 61c is built in, and the paper M is brought into contact with the image forming surface of the paper M on which the toner image is transferred to heat the paper M at a predetermined fixing temperature. That is, the fixing roller 61a contacts the image forming surface of the paper M while rotating to heat the paper M.
The predetermined fixing temperature is a temperature at which the amount of heat required to melt the toner can be supplied when the paper M passes through the nip portion, and varies depending on the paper type of the paper M on which the image is formed.

The pressurizing roller 61b is arranged so as to face the fixing roller 61a, and is pressed against the fixing roller 61a with a predetermined pressing force. That is, the pressurizing roller 61b functions together with the fixing roller 61a as a pressurizing portion that sandwiches and pressurizes the paper M.

Further, the pressure roller 61b has a structure in which an elastic layer made of silicone rubber or the like is formed on the outer peripheral surface of a cylindrical core metal made of iron or the like. Further, by making the surface of the pressure roller 61b relatively hard with respect to the surface of the fixing roller 61a, the pressure roller 61b is pressed against the fixing roller 61a and becomes an elastic layer on the surface of the fixing roller 61a. A nip portion shaped to bite into is formed.

The control unit 7 has a CPU 71 (Central Processing Unit), a RAM 72 (Random Access Memory), and a ROM 73 (Read Only Memory), and controls each unit of the image forming apparatus 1 in an integrated manner according to various control programs. For example, the control unit 7 causes the image processing unit 3 to perform predetermined image processing on the image data. Further, the control unit 7 conveys the paper to the conveying unit 5, and causes the image forming unit 4 to form an image on the paper as a recording medium based on the image data.

The CPU 71 reads and executes a control program stored in the ROM 73 or the like, and performs various arithmetic processes.

The RAM 72 provides the CPU 71 with a working memory space and stores temporary data.

The ROM 73 stores various control programs, setting data, and the like executed by the CPU 71. Instead of the ROM 73, a rewritable non-volatile memory such as an EEPROM (Electrically Erasable Programmable Read Only Memory) or a flash memory may be used.

[2. Explanation of the vicinity of the mounting part and drum unit]
FIG. 3 is an explanatory view showing an enlarged example in the vicinity of the mounting portion 9 and the drum unit 10 in the image forming portion 4. As shown in FIG. 3, the mounting portion 9 is attached to at least a driving means 91 such as a motor for rotating the photoconductor drum 101 provided in the drum unit 10 and an IC chip 102 provided in the drum unit 10. It has an information providing unit 92 that provides information.

On the other hand, the drum unit 10 mounted on such a mounting portion 9 has at least a photoconductor drum 101 and an IC chip 102. Further, the IC chip 102 has a control function for the entire IC chip 102, and has a communication unit 103 that communicates via one communication line, an input unit 104 that takes in an external signal from the information providing unit 92, and cumulative data. And a storage unit 105 that stores the identification code.

The drive output of the drive means 91 is transmitted to the rotation shaft of the photoconductor drum 101, and the information of the mounting portion of the information providing unit 92 is applied to the input unit 104. Further, the control signal of the control unit 7 that controls the entire image forming apparatus 100 is applied to the driving means 91 and the information providing unit 92, respectively, and the communication signal from the control unit 7 is transmitted via one communication line CM31. They are interconnected with the communication unit 103 of the IC chip 102.

Further, the mounting unit 9 supplies the power supply voltage PW31 to the IC chip 102 of the drum unit 10. That is, the IC chip 102 is activated by supplying the power supply voltage PW31 from the mounting unit 9 to operate.

Further, FIG. 4 is an explanatory diagram showing a connection relationship between the control unit 7 and the four drum units 10. The drum unit 10 in the image forming apparatus 100 shown in FIG. 1 has four drum units 10a and a drum unit in order to correspond to toner bottles of four colors of yellow (Y), magenta (M), cyan (C), and black (K). 10b, a drum unit 10c, and a drum unit 10d are required.

That is, in FIG. 4, the drum unit 10a is mounted on the mounting portion for the yellow (Y) toner bottle, and the drum unit 10b is mounted on the mounting portion for the magenta (M) toner bottle, and the cyan (C) toner is used. The drum unit 10c is mounted on the mounting portion for the bottle, and the drum unit 10d is mounted on the mounting portion for the black (K) toner bottle.

Such four drum units 10a, drum unit 10b, drum unit 10c, and drum unit 10d are mounted on each of the four mounting portions 9 (not shown), and the information IN 41 of the mounting portion of the information providing unit 92a provides information to the input unit 104a. The information IN42 of the mounting unit of the information providing unit 92b is applied to the input unit 104b, the information IN43 of the mounting unit of the information providing unit 92c is applied to the input unit 104c, and the information IN44 of the mounting unit of the information providing unit 92d is applied to the input unit 104c.

On the other hand, the communication signal from the control unit 7 is interconnected with the communication unit 103a, the communication unit 103b, the communication unit 103c, and the communication unit 103d of each IC chip (102a to 102d) via one communication line CM41. In FIG. 4, the communication unit 103a, the communication unit 103b, the communication unit 103c, and the communication unit 103d are connected by a so-called bus-type connection by one communication line.

[3. Explanation of the operation of the image forming apparatus]
Here, the operation of the image forming apparatus 100 will be described with reference to FIGS. 5 to 7. In the explanation of the operation, the operation of the control unit 7 that controls the entire image forming apparatus 100 and the operation of the IC chip 102 provided in the drum unit 10 will be described separately.

[3-1. Explanation of the operation of the control unit 7 of the image forming apparatus]
The operation of the control unit 7 will be described with reference to the flowchart shown in FIG. The control unit 7 that controls the entire image forming apparatus 100 starts normal image forming (step S51), and determines whether or not the number of image forming processes has reached a predetermined number (step S52).

When the control unit 7 determines that the number of image forming processes has not reached the predetermined number (step S52: No), returns to step S52 and determines that the number of image forming processes has reached the predetermined number. (Step S52: Yes), the identification code of the target IC chip is transmitted via the communication line CM41 to request communication with the IC chip (step S53), and whether or not communication with the IC chip is established. (Step S54).

When the control unit 7 determines that communication with the IC chip has not been established (step S54: No), returns to step S54 and determines that communication with the IC chip has been established (step S54: Yes). ), The cumulative data to be updated is transmitted to the target IC chip via the communication line CM41 (step S55), and at the same time, the cumulative data in the control unit 7 is updated (step S56).

Here, the cumulative data is a numerical value related to the life of the drum unit such as the rotation speed of the photoconductor drum and the usage time.

Finally, the control unit 7 determines whether or not to end the image forming process (step S57), and when it is determined to end the image forming process (step S57: Yes), ends the image forming process and forms the image. When it is determined that the process is not completed (step S57: No), the process returns to step S52.

[3-2. Explanation of the operation of the IC chip of the drum unit]
Here, the operation of the IC chip of the drum unit will be described with reference to the flowchart shown in FIG. The IC chips (102a to 102d) of the drum unit (10a to 10d) are activated by supplying the power supply voltage from the mounting unit 9, and control the input units (104a to 104d) to provide information on the mounted unit. Information (IN41 to IN44) of the mounting portion is acquired from the providing portions (92a to 92d) (step S61).

The IC chip (102a to 102d) acquires an identification code corresponding to the information (IN41 to IN44) of the mounting portion with reference to the conversion table (step S62), and obtains the acquired identification code from the IC chip (102a to 102d). The identification code is determined by writing in the storage unit of (step S63).

After that, if necessary, the photoconductor drum of the drum unit (10a to 10d) is driven by the control of the control unit 7, and the usual image forming process is performed.

Here, the conversion table is a list of acquired mounting unit information (IN41 to IN44) and corresponding identification codes, and is stored in advance in the storage unit of the IC chip (102a to 102d). For example, it is a list as shown in FIG.

In FIG. 7, the mounting unit information (IN41 to IN44) provided by the mounting unit information providing units (92a to 92d) is a voltage having a different voltage value for each mounting unit, and is an input unit (104a to 104d). ) Takes in these voltages as external signals.

That is, a voltage of "0.0V" is applied to the input portion 104a of the drum unit 10a mounted on the mounting portion of the yellow (Y) toner bottle as the information IN41 of the mounting portion.

Therefore, when a voltage of "0.0V" is applied to the input unit 104a, it can be seen that the IC chip 102a has its own identification code of "0" based on the conversion table shown in FIG. 7.

Similarly, a voltage of "0.5V" is applied to the input portion 104b of the drum unit 10b mounted on the mounting portion of the magenta (M) toner bottle as the information IN42 of the mounting portion of the cyan (C) toner bottle. A voltage of "1.0 V" is applied to the input portion 104c of the drum unit 10c mounted on the mounting portion as information IN43 of the mounting portion, and the input portion of the drum unit 10d mounted on the mounting portion of the black (K) toner bottle. A voltage of "1.5V" is applied to 104d as information IN44 of the mounting portion.

Therefore, when a voltage of "0.5V" to "1.5V" is applied to the input unit (104b to 104d), the IC chip (102b to 102d) itself is based on the conversion table shown in FIG. It can be seen that the identification code of is "1" to "3".

Therefore, for example, even if the drum unit (10a to 10d) is mounted on a mounting portion (toner bottle of a different color) different from the original mounting location at the time of maintenance or the like, the IC chip (102a to 102d) provides information. Since the identification code is appropriately changed according to the mounting unit information (IN41 to IN44) provided by the providing units (92a to 92d), the mileage of the image forming process for the original color can be changed to a toner bottle of a different color. It is possible to accurately grasp the replacement time of the drum unit (10a to 10d) without writing to the storage unit of the IC chip of the mounted drum unit.

Then, the IC chip (102a to 102d) determines whether or not there is a communication request from the control unit 7 via the communication line CM41 (step S64), and if it is determined that there is no communication request (step S64: No), Returning to step S64, when it is determined that the communication request has been made (step S64: Yes), it is determined whether or not the identification code transmitted at the time of the communication request is the same as the own identification code (step S65). ..

When the IC chip (102a to 102d) determines that the identification code transmitted at the time of the communication request is not the same as its own identification code (step S65: No), it returns to step S64 and at the time of the communication request. When it is determined that the transmitted identification code is the same as its own identification code (step S65: Yes), communication is established with the control unit 7 via the communication line CM41 (step S66).

Then, the IC chip (102a to 102d) determines whether or not the data to be updated has been received from the control unit 7 via the communication line CM41 (step S67), and determines that the data to be updated has not been received (step S67). In step S67: No), the process returns to step S67, and when it is determined that the data to be updated has been received (step S67: Yes), the received data is overwritten and saved in the cumulative data of the storage unit (step S68).

Finally, the IC chip (102a to 102d) determines whether or not to end the image forming process (step S69), and when it is determined to end the image forming process (step S69: Yes), ends the image forming process. If it is determined that the image forming process is not completed (step S697: No), the process returns to step S64.

As described above, the photoconductor drum 101, the communication unit 103 that communicates via one communication line, the input unit 104 that captures an external signal, and the IC chip 102 that has a storage unit 105 that stores cumulative data and an identification code. Information on the mounting portion is provided to the IC chip 102 of the plurality of drum units 10 integrated with the above, the plurality of mounting portions 9 to which each drum unit 10 is detachably mounted, and the drum unit 10 provided and mounted on the mounting portion 9. The information providing unit 92 and a control unit 7 on the main body side that communicates with an arbitrary IC chip 102 using an identification code and rewrites the cumulative data updated by the image forming operation, and the IC chip 102 stores. By rewriting the identification code of the unit 105 to the identification code corresponding to the information captured by the input unit, the mileage of the image forming process for the original color can be set to the IC chip 102 of the drum unit mounted on the toner bottles of different colors. It is possible to accurately grasp the replacement time of the drum unit without writing to the storage unit.

In the description of the embodiment, the information of the mounting portion provided from the information providing unit of the mounting portion is assumed to be a voltage having a different voltage value for each mounting portion, but the current value is different for each mounting portion. It may be a resistor having a different resistance value for each current or mounting portion. Further, the digital information may have a different bit pattern for each mounting portion.

That is, the information providing unit of the mounting unit may provide a unique value that can be identified by the mounting unit to the input unit of the IC chip.

Further, in the explanation of the embodiment, the control unit 7 and the IC chip (102a to 102d) transmit and receive the cumulative data which is the transmission data after establishing the communication, but of course, waiting for the establishment of the communication. Instead, the control unit 7 may assign an identification code to the cumulative data, which is the transmission data, and then transmit the data via the communication line CM41.

In this case, the IC chip (102a to 102d) has the same effect by taking in the cumulative data propagating on the communication line CM41 and having the same identification code as its own identification code. be able to.

Further, in the description of the embodiment, the cumulative data is a numerical value related to the life of the drum unit such as the rotation speed of the photoconductor drum and the usage time, but it may be a value of the usage limit of the drum unit.

Further, in the description of the embodiment, the IC chip overwrites and saves the data received from the control unit 7 via the communication line over the accumulated data of the storage unit, but the history of the information taken in by the input unit as the accumulated data. May be stored and the last acquired information may be additionally stored. In this case, since the mounting history of the drum unit can be known, it is possible to grasp how much image forming processing was performed with which color toner.

Further, in the explanation of the embodiment, only the cumulative data is updated, but the replacement time is determined based on the value of the cumulative data, and the operation display unit 2 (notification unit) of the image forming apparatus 100 is notified of the replacement time. May be displayed. In this case, the operator can easily grasp the replacement time of the drum unit.

Further, in the explanation of the embodiment, for example, an image forming unit is provided for each color such as Y (yellow), M (magenta), C (cyan), K (black), and a color image is displayed on the paper M. Although the image forming apparatus 100 to be formed has been illustrated, the present invention is not limited to this, and for example, an image forming apparatus that forms an image using toners of four or more colors may be used.

Further, in the description of the embodiment, paper is exemplified as the recording medium, but the recording medium is not limited to paper, and may be a sheet-like material capable of forming and fixing a toner image, for example. , Non-woven fabric, plastic film, leather, etc. may be used.

100 Image forming device 2 Operation display unit 4 Image forming unit 9 Mounting unit 91 Driving means 92, 92a, 92b, 92c, 92d Information providing unit 10, 10a, 10b, 10c, 10d Drum unit 101 Photoreceptor drums 102, 102a, 102b, 102c, 102d IC chips 103, 103a, 103b, 103c, 103d Communication unit 104, 104a, 104b, 104c, 104d Input unit 105 Storage unit IN41, IN42, IN43, IN44 Information of mounting unit CM31, CM41 Communication line 7 Control unit M Paper (recording medium)

Claims (10)

In an image forming apparatus including a plurality of drum units, a mounting unit for detachably mounting the plurality of drum units, and a control unit for managing the replacement timing of the drum units.
Each of the plurality of drum units identifies itself as a photoconductor drum, a communication unit that communicates with the control unit via a communication line, and an input unit that takes in information for identifying the mounting unit from the mounting unit. It comprises an identification code and an IC chip having a storage unit for storing cumulative data regarding the use of the photoconductor drum.
The mounting unit includes an information providing unit that provides the information at the input unit of the IC chip of the mounted drum unit.
Before SL IC chip, when the drum unit to the mounting portion is attached, rewrites the identification code stored in the storage unit, the identification code based on the information retrieved by the input unit,
The control unit transmits data regarding the use of the photoconductor drum associated with the identification code to the IC chip.
The IC chip that stores the identification code transmitted from the control unit is an image forming apparatus that rewrites the cumulative data in the storage unit based on data related to the use of the photoconductor drum . The IC chip has a conversion table in the storage unit that converts the information into an identification code corresponding to the information, and obtains and rewrites the identification code corresponding to the information from the conversion table. Item 1. The image forming apparatus according to item 1. The image forming apparatus according to claim 1 or 2, wherein the information providing unit supplies a voltage or current having a different value for each mounting unit to the IC chip of the drum unit mounted as the information. The image forming apparatus according to claim 1 or 2, wherein the information providing unit supplies a resistance value different for each mounting unit to the IC chip of the drum unit mounted as the information. The image forming apparatus according to claim 1 or 2, wherein the information providing unit supplies a bit pattern different for each mounting unit to the IC chip of the drum unit mounted as the information. Any one of claims 1 to 5, wherein the IC chip stores a usage limit value corresponding to the mounted portion and rewrites the usage limit value based on the information captured by the input unit. The image forming apparatus according to the section. The invention according to any one of claims 1 to 6, wherein the IC chip stores a history of the information taken in by the input unit as the cumulative data, and additionally stores the last acquired information. Image forming device. The IC chip stores a value indicating the life of the drum unit in the storage unit.
The image forming apparatus according to any one of claims 1 to 7, wherein the control unit notifies the exchange time from the notification unit based on the value of the cumulative data. The image forming apparatus according to any one of claims 1 to 8, wherein the control unit updates the cumulative data when a predetermined number of images have been formed. The IC chip is any one of claims 1 to 9, wherein the identification code of the storage unit is rewritten with an identification code corresponding to the information captured by the input unit when power is supplied from the main body side. The image forming apparatus according to.

Images