JP6477402B2 - Image forming apparatus - Google Patents

Description

  The present invention relates to an electrophotographic image forming apparatus.

  Generally, an electrophotographic image forming apparatus includes an image forming unit including a developing device and an image carrier that carries an image of a developer. Further, the image forming apparatus includes a developer supply container that stores a replenishment developer supplied to the image forming unit, and a developer recovery container that stores a waste developer recovered from the image forming unit. . Usually, the waste developer includes the developer scraped off from the surface of the image carrier and the developer removed little by little from the developing device.

  Further, if one type of developer container can be shared as the developer supply container and the developer recovery container, the manufacturing cost of the developer container can be reduced. In this case, if the developer container used as the developer recovery container is used as the developer supply container, the image forming unit is contaminated by the waste developer remaining in the developer container. There is a fear.

  For example, it is known that the image forming apparatus processes a part of the developer container mounted at the mounting position of the developer recovery container into a shape that cannot be used as the developer supply container (for example, Patent Document 1).

JP 2006-171609 A

  By the way, when the developer container used as the developer supply container is used as the developer recovery container in a state where the developer still remains, the unused developer is wasted.

  An object of the present invention is to prevent a developer container used as a replenishment developer container from being used as a waste developer container in a state where the developer still remains, and unused developer being wasted. An object of the present invention is to provide an image forming apparatus capable of performing the above.

  An image forming apparatus according to an aspect of the present invention includes a developer container, a first mounting unit, a second mounting unit, a developer empty detection unit, an empty history recording unit, an empty history determination unit, and an operation. A limiting unit. The developer container is a container that is detachably attached to the apparatus main body and can store the developer. The first mounting portion is a portion in which the developer container that is a supply source of the developer supplied to the developing device is mounted. The second mounting portion is a portion to which the developer container serving as a storage destination of the developer collected from the image forming unit including the developing device and an image carrier that carries an image of the developer is mounted. . The developer empty detection unit detects a developer empty state in which the remaining amount of the developer falls below a predetermined lower limit for the developer container mounted on the first mounting unit. The empty history recording unit records empty history information in a non-volatile history storage unit in association with the developer container in which the developer empty state is detected when the developer empty state is detected. . The empty history determination unit determines whether or not the developer container mounted on the second mounting unit is in an after-empty state in which the empty history information corresponding to the developer container is recorded in the history storage unit. Determine whether. The operation limiting unit limits the operation of the image forming unit when a determination result is obtained that the developer container mounted on the second mounting unit is not in the post-empty state.

  According to the present invention, a developer container used as a replenishment developer container is used as a waste developer container in a state where the developer still remains, thereby preventing the unused developer from being wasted. Therefore, it is possible to provide an image forming apparatus capable of performing the above.

FIG. 1 is a configuration diagram of an image forming apparatus according to the first embodiment. FIG. 2 is a block diagram of a control-related portion in the image forming apparatus according to the first embodiment. FIG. 3 is a block diagram of an electronic tag in the image forming apparatus according to the first embodiment. FIG. 4 is a flowchart illustrating an example of a procedure of developer container management processing in the image forming apparatus according to the first embodiment. FIG. 5 is a flowchart illustrating an example of a procedure of developer empty determination / recording processing in the image forming apparatus according to the first embodiment. FIG. 6 is a flowchart illustrating an example of the procedure of the developer full determination process in the image forming apparatus according to the first embodiment. FIG. 7 is a flowchart illustrating an example of a procedure of developer supply container history inspection processing in the image forming apparatus according to the first embodiment. FIG. 8 is a flowchart illustrating an example of a procedure of developer recovery container history inspection processing in the image forming apparatus according to the first embodiment. FIG. 9 is a configuration diagram of an image forming system including an image forming apparatus according to the second embodiment. FIG. 10 is a block diagram of a control-related portion in the image forming apparatus according to the second embodiment. FIG. 11 is a flowchart illustrating an example of a procedure of collection / utilization history information recording processing in the image forming apparatus according to the second embodiment. FIG. 12 is a flowchart illustrating an example of a history information recording process procedure in the image forming apparatus according to the second embodiment. FIG. 13 is a flowchart illustrating an example of a procedure of history information acquisition processing in the image forming apparatus according to the second embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the following embodiment is an example which actualized this invention, Comprising: It does not have the character which limits the technical scope of this invention.

[First Embodiment]
First, the configuration of the image forming apparatus 10 according to the first embodiment will be described with reference to FIG. The image forming apparatus 10 is an electrophotographic image forming apparatus that forms an image on a sheet material. The sheet material is a sheet-like image forming medium such as paper, coated paper, postcard, envelope, and OHP sheet.

  The image forming apparatus 10 includes a sheet supply unit 2, a sheet conveyance unit 3, an image forming unit 40, an optical scanning unit 46, and a fixing device 49 in the main body 1. The image forming unit 40 is a general term for devices related to development and conveyance of the developer 90, and includes the developing unit 4.

  An image forming apparatus 10 shown in FIG. 1 is a tandem image forming apparatus and a color printer. Therefore, the image forming apparatus 10 includes a plurality of developing units 4 corresponding to each color of cyan, magenta, yellow, and black.

  Each developing unit 4 includes a photoreceptor 41, a charging device 42, a developing device 43, a primary transfer device 44, a primary cleaning device 45, and the like.

  The tandem image forming apparatus 10 further includes an intermediate transfer belt 47, a secondary transfer device 48, and a secondary cleaning device 470.

  The sheet supply unit 2 includes a sheet cassette 21 and a sheet delivery unit 22. The sheet cassette 21 is a part that accommodates the plurality of stacked sheet materials. The sheet sending unit 22 sends the sheet material from the sheet cassette 21 to the conveyance path 30.

  The sheet conveyance unit 3 includes a plurality of conveyance rollers 31. Each of the conveyance rollers 31 conveys the sheet material supplied from the sheet supply unit 2 along the conveyance path 30. Further, a transport roller 31 disposed at the exit of the transport path 30 discharges the sheet material from the transport path 30 onto the discharge tray 101. Usually, the sheet material discharged onto the discharge tray 101 is the sheet material after image formation, and is a printed matter.

  The intermediate transfer belt 47 is a belt-like member formed in an annular shape. The intermediate transfer belt 47 rotates while being stretched between two rollers.

  In each developing unit 4, the drum-shaped photoconductor 41 rotates, and the charging device 42 uniformly charges the surface of the photoconductor 41. The optical scanning unit 46 writes an electrostatic latent image on the surface of the photoconductor 41 by scanning with laser light. The developing device 43 develops the electrostatic latent image on the surface of the photoreceptor 41 with a powdery developer 90. As a result, an image of the developer 90 is formed on the surface of the photoreceptor 41.

  In the present embodiment, the developing device 43 executes a developing process using a two-component developer 90 including a toner and a carrier. The developing device 43 supplies the toner to the surface of the photoreceptor 41 from a magnet roller that carries the toner and the carrier.

  For example, it is conceivable that the developing device 43 is an interactive touch-down type device. In this case, the developing device 43 transfers the toner from the magnet roller to the developing roller, and further supplies the toner from the developing roller to the photoconductor 41. It is also conceivable that the developing device 43 is a device that directly supplies the toner from the magnet roller to the photoreceptor 41.

  The primary transfer device 44 transfers the image of the developer 90 on the surface of the photoreceptor 41 to the intermediate transfer belt 47. On the intermediate transfer belt 47, the image of the developer 90 is transferred from each of the plurality of photoconductors 41. As a result, a color image in which the images of the developers 90 of the respective colors are superimposed is formed on the intermediate transfer belt 47. The primary cleaning device 45 removes the developer 90 remaining on the surface of the photoreceptor 41.

  The secondary transfer device 48 transfers the color image formed on the intermediate transfer belt 47 to the sheet material in the conveyance path 30. The secondary cleaning device 470 removes the developer 90 remaining on the intermediate transfer belt 47.

  The fixing device 49 heats the color image transferred to the sheet material in the conveyance path 30 and fixes the color image to the sheet material.

  Further, the image forming apparatus 10 includes a plurality of developer containers 5 each capable of containing a developer 90. The developer container 5 is detachably mounted on the first mounting portion 51 and the second mounting portion 52 in the main body 1.

  The developer 90 is supplied from the developer container 5 mounted on the first mounting portion 51 of the main body 1 to the developing device 43. That is, the first mounting portion 51 is a portion where the developer container 5 that is a supply source of the developer 90 supplied to the developing device 43 is mounted.

  The main body 1 is provided with a plurality of first mounting portions 51 corresponding to the plurality of developing units 4. Accordingly, each of the plurality of developer containers 5 that store the different colors of the developer 90 is mounted on each of the plurality of first mounting portions 51.

  Further, the developer 90 removed from the photoreceptor 41 and the intermediate transfer belt 47 by the primary cleaning device 45 and the secondary cleaning device 470 is collected into the developer container 5 attached to the second attachment portion 52 of the main body 1. The Further, part of the developer 90 deteriorated in the developing device 43 is also collected into the developer container 5 attached to the second attachment portion 52. The second mounting portion 52 is provided only at one location of the main body 1.

  That is, the second mounting portion 52 is a portion where the developer container 5 that is a storage destination of the developer 90 collected from the image forming unit 40 is mounted. In the present embodiment, the plurality of developing units 4, the intermediate transfer belt 47, the secondary transfer device 48, and the secondary cleaning device 470 each constitute a part of the image forming unit 40. The photoreceptor 41 and the intermediate transfer belt 47 are an example of an image carrier that carries an image of the developer 90.

  In the following description, the developer container 5 attached to the first attachment part 51 is referred to as a developer supply container 5a. The developer 90 accommodated in the developer supply container 5a is referred to as a supply developer 90a. Normally, the replenishment developer 90a contains the toner and does not contain the carrier.

  On the other hand, the developer container 5 attached to the second attachment part 52 is referred to as a developer recovery container 5b. The developer 90 collected in the developer collection container 5b is referred to as a waste developer 90b. Usually, the developer 90 collected from the photoreceptor 41 and the intermediate transfer belt 47 is the toner. The developer 90 collected from the developing device 43 includes the toner and the carrier. Accordingly, the waste developer 90b includes the toner and the carrier.

  The image forming unit 40 is a general term for devices that perform a developing process for forming an image of the developer 90 on the photoreceptor 41 and the intermediate transfer belt 47 and a developer transporting process for transporting the developer 90. A developer supply mechanism that transports the replenishment developer 90a and a developer recovery mechanism that transports the waste developer 90b execute the developer transport process.

  Further, the image forming apparatus 10 includes a control unit 8 and an operation display unit 80. The control unit 8 controls electrical equipment in the image forming apparatus 10. The operation display unit 80 is a user interface including an operation unit 80a and a display unit 80b. The operation unit 80a includes a touch panel and operation buttons that accept user operations. The display unit 80b includes a display panel such as a liquid crystal display panel that can display a message.

  In the image forming apparatus 10, the plurality of developer containers 5 mounted on the plurality of first mounting sections 51 and the second mounting sections 52 have the same shape. That is, one type of developer container 5 can be shared as the developer supply container 5a and the developer recovery container 5b. This leads to a reduction in manufacturing cost of the developer container 5.

  By the way, when the developer container 5 used as the developer supply container 5a is used as the developer recovery container 5b in a state where the supply developer 90a still remains, the unused supply developer 90a is wasted.

  In the image forming apparatus 10, the control unit 8 executes a developer container management process described later. As a result, the developer container 5 used as the container for the replenishment developer 90a is utilized as the developer recovery container 5b in a state where the replenishment developer 90a still remains, and the unused replenishment developer 90a is wasted. Can be prevented. The details will be described below.

  As shown in FIGS. 1 and 2, the image forming apparatus 10 includes a first developer sensor 71 provided in the first mounting portion 51 and a second developer sensor 72 provided in the second mounting portion 52. Prepare.

  The first developer sensor 71 is a sensor that detects whether or not the developer supply container 5a is in a developer empty state in which the remaining amount of the supply developer 90a is below a predetermined lower limit. . The first developer sensor 71 is an example of a developer empty detection unit.

  The second developer sensor 72 is a sensor that detects whether or not the developer collecting container 5b is in a developer full state in which the waste developer 90b has reached a predetermined upper limit amount.

  For example, it is conceivable that the first developer sensor 71 is a transmissive optical sensor. The transmissive optical sensor includes a light emitting unit 7a and a light receiving unit 7b arranged to face each other.

  When the first developer sensor 71 is the transmissive optical sensor, the first developer sensor 71 is disposed at a predetermined position near the lower end of the developer supply container 5a. In the developer supply container 5a, at least a portion facing the first developer sensor 71 is transparent.

  The state where the first developer sensor 71 detects that the replenishment developer 90a is not present between the light emitting portion 7a and the light receiving portion 7b is the developer empty state.

  When the second developer sensor 72 is the transmissive optical sensor, the second developer sensor 72 is disposed at a predetermined position near the upper end of the developer recovery container 5b. At least a portion of the developer recovery container 5b facing the second developer sensor 72 is transparent.

  The state in which the second developer sensor 72 detects that the waste developer 90b exists between the light emitting portion 7a and the light receiving portion 7b is the developer full state.

  It is also conceivable that the first developer sensor 71 is a sensor that detects that the weight of the developer supply container 5a has fallen below a predetermined lower limit weight. In this case, it is conceivable that the first mounting portion 51 includes a displacement mechanism that is displaced according to the weight of the developer supply container 5a mounted thereon. The first developer sensor 71 detects that the first mounting portion 51 has been displaced to a predetermined upper limit position.

  Similarly, the second developer sensor 72 may be a sensor that detects that the weight of the developer recovery container 5b has reached a predetermined upper limit weight. In this case, it is conceivable that the second mounting portion 52 includes a displacement mechanism that is displaced according to the weight of the developer recovery container 5b mounted thereon. Then, the second developer sensor 72 detects that the second mounting portion 52 has been displaced to a predetermined lower limit position.

  An electronic tag 53 is fixed to each developer container 5. The electronic tag 53 is, for example, an RF (Radio Frequency) tag.

  As shown in FIG. 3, the electronic tag 53 includes a wireless communication unit 531 that performs short-range wireless communication and a computer-readable nonvolatile data storage unit 532.

  In the following description, the electronic tag 53 of the developer supply container 5a is referred to as a supply container tag 53a, and the electronic tag 53 of the developer recovery container 5b is referred to as a recovery container tag 53b.

  Further, the image forming apparatus 10 includes a first tag access unit 73 provided in the first mounting unit 51 and a second tag access unit 74 provided in the second mounting unit 52.

  The 1st tag access part 73 is an apparatus which can access the data storage part 532 of the supply container tag 53a. The access process includes a read process for reading data stored in the data storage unit 532 and a write process for writing data to the data storage unit 532 of the supply container tag 53a.

  The 2nd tag access part 74 is an apparatus which can perform the said access process to the data storage part 532 of the collection container tag 53b.

  In general, the first tag access unit 73 and the second tag access unit 74 are referred to as a tag reader / writer or the like.

  As will be described later, information corresponding to the developer container 5 is recorded in the data storage unit 532 of the electronic tag 53 fixed to the developer container 5. Similarly, information corresponding to the developer container 5 is acquired from the data storage unit 532 of the electronic tag 53 fixed to the developer container 5.

  That is, recording of information in the data storage unit 532 corresponding to the developer supply container 5 a and reference of information in the data storage unit 532 are performed through the first tag access unit 73. Similarly, recording of information in the data storage unit 532 corresponding to the developer recovery container 5 b and reference of information in the data storage unit 532 are performed through the second tag access unit 74.

  As shown in FIG. 2, the control unit 8 includes a developer amount determination unit 81, a data management unit 82, a drive control unit 83, a user interface control unit 84, and the like. The control unit 8 can access the secondary storage unit 800.

  The secondary storage unit 800 is a non-volatile storage unit that stores various data referred to by the control unit 8. The secondary storage unit 800 is also a storage unit that allows the control unit 8 to read and write data. The secondary storage unit 800 is an example of an information storage medium of a computer-readable non-volatile storage unit.

  For example, the control unit 8 may include an MPU (Micro Processor Unit) that executes a program stored in advance in the secondary storage unit 800, a RAM (Random Access Memory), and the like. The RAM is a volatile main storage unit that temporarily stores a program to be executed by the MPU.

  Note that the control unit 8 may be configured by a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), or the like.

  The developer amount determination unit 81 determines the amount of developer 90 in the developer container 5 based on the detection results of the first developer sensor 71 and the second developer sensor 72.

  The data management unit 82 accesses the data storage unit 532 of the electronic tag 53 in each developer container 5 through the first tag access unit 73 and the second tag access unit 74, and controls the read process and the write process.

  Further, the data management unit 82 executes data read processing from the secondary storage unit 800 and data write processing to the secondary storage unit 800.

  The drive control unit 83 controls the operation of the image forming motor 6 included in the image forming unit 40. The image forming motor 6 is a motor that drives the photoconductor 41, the developing device 43, the developer supply mechanism, and the developer collecting mechanism in the image forming unit 40.

  The user interface control unit 84 controls the operation display unit 80.

[Developer container management process]
Next, an example of the procedure of developer container management processing executed by the control unit 8 will be described with reference to the flowchart shown in FIG. In the following description, S101, S102,... Represent identification codes of respective steps executed by the control unit 8.

  For example, when the image forming apparatus 10 is activated, the control unit 8 accesses the first mounting unit 51 or the second mounting unit 52 before the image forming job is executed, after the image forming job is executed, and The developer container management process is executed when the cover to be closed is closed.

<Steps S101 to S104>
In the developer container management process, the control unit 8 performs developer empty determination / recording process (S101), developer full determination process (S102), developer supply container history inspection process (S103), and developer recovery container history inspection. Processing (S104) is executed.

  Processes in steps S101 to S104 are processes for setting the motor drive prohibition flag to “ON” or “OFF”. The motor drive prohibition flag is information for designating whether to prohibit the operation of the image forming motor 6. Details of the processes of steps S101 to S104 will be described later. Inhibiting the operation of the image forming motor 6 is a typical example of restricting the operation of the image forming unit 40.

<Step S105>
After the processes of steps S101 to S105 are performed, the drive control unit 83 determines whether or not the motor drive prohibition flag is set to “ON”.

  When the motor drive prohibition flag is set to “ON”, the drive control unit 83 prohibits the operation of the image forming motor 6 even when an image formation job occurs. As a result, the developer container management process ends without executing the job.

<Step S106>
On the other hand, when the motor drive prohibition flag is not set to “ON”, that is, when the motor drive prohibition flag is set to “OFF”, the drive control unit 83, when the job occurs, The operation of the imaging system motor 6 is allowed. As a result, the job is executed.

<Step S107>
In addition, when the image forming unit 40 is operated even once with the developer recovery container 5b mounted on the second mounting unit 52, the data management unit 82 stores the recovery usage history in the data storage unit 532 of the recovery container tag 53b. Information D1 is recorded (see FIG. 3).

  In step S107, when the collection usage history information D1 is already recorded in the data storage unit 532 of the collection container tag 53b, the data storage unit 532 of the collection container tag 53b maintains the storage of the collection usage history information D1. . The data management unit 82 records information in the data storage unit 532 of the collection container tag 53b through the second tag access unit 74.

  In the present embodiment, since the electronic tag 53 is fixed to the developer container 5, the developer collection container 5 b and the collection usage history information D <b> 1 in the data storage unit 532 are associated with each other.

  Therefore, the data management unit 82 in step S107 executes a process of recording the collection usage history information D1 in the nonvolatile data storage unit 532 in association with the developer collection container 5b when the image forming unit 40 operates. To do.

  The data management unit 82 that executes the process of step S107 is an example of a collection and use history recording unit that records the collection and use history information D1 in the data storage unit 532 of the electronic tag 53 in the developer collection container 5b. The data storage unit 532 of the electronic tag 53 is an example of a history storage unit.

  After the processes of steps S106 and S107 are executed, the developer container management process ends.

[Developer Empty Determination / Recording Process (S101)]
Next, an example of the procedure of the developer empty determination / recording process (S101) executed by the control unit 8 will be described with reference to the flowchart shown in FIG. In the following description, S201, S202,... Represent identification codes of respective steps executed by the control unit 8 in the developer empty determination / recording process.

<Step S201>
First, the developer amount determination unit 81 determines whether or not the first developer sensor 71 is detecting the developer empty state. As described above, the developer empty state is a state in which the remaining amount of the replenishment developer 90a in the developer replenishment container 5a is less than a predetermined lower limit amount.

<Step S202>
When the developer empty state is detected by the first developer sensor 71, the data management unit 82 records empty history information D2 in the data storage unit 532 of the corresponding supply container tag 53a (see FIG. 3).

  The record destination of the empty history information D2 is the data storage unit 532 of the supply container tag 53a fixed to the developer supply container 5a in which the developer empty state is detected. The data management unit 82 records information in the data storage unit 532 of the supply container tag 53a through the first tag access unit 73.

  That is, when the developer empty state is detected, in step S202, the data management unit 82 associates the developer empty container 5a in which the developer empty state is detected with a nonvolatile data storage unit 532. The empty history information D2 is recorded.

  In the present embodiment, since the electronic tag 53 is fixed to the developer container 5, the developer supply container 5a is associated with the empty history information D2 in the data storage unit 532.

  The data management unit 82 that executes the process of step S202 is an example of an empty history recording unit that records empty history information D2 in the history storage unit. The data storage unit 532 of the supply container tag 53a is an example of the history storage unit.

<Step S203>
When the developer empty state is detected by the first developer sensor 71, the user interface control unit 84 causes the display unit 80b to display a warning message. This warning message is a message indicating that the developer empty state has occurred.

  When the process of step S203 is completed, the developer empty determination / recording process ends. If the developer empty state is not detected by the first developer sensor 71, the processes of steps S201 and S202 are skipped, and the developer empty determination / recording process ends.

[Developer Full Determination Processing (S102)]
Next, an example of the procedure of the developer full determination process (S102) executed by the control unit 8 will be described with reference to the flowchart shown in FIG. In the following description, S301, S302,... Represent identification codes of respective steps executed by the control unit 8 in the developer full determination process.

<Step S301>
First, the developer amount determination unit 81 determines whether or not the second developer sensor 72 is detecting the developer full state. As described above, the developer full state is a state in which the waste developer 90b in the developer recovery container 5b has reached a predetermined upper limit amount.

<Step S302>
When the developer full state is detected by the second developer sensor 72, the drive control unit 83 sets the motor drive prohibition flag to “ON”. The initial state of the motor drive prohibition flag is “OFF”.

<Step S303>
When the developer full state is detected by the second developer sensor 72, the user interface control unit 84 causes the display unit 80b to display a warning message. This warning message is a message indicating that the developer full state has occurred.

  When the process in step S303 ends, the developer full determination process ends. Further, when the developer full state is not detected by the second developer sensor 72, the processes of steps S301 and S302 are skipped, and the developer full determination process ends.

[Developer supply container history inspection process (S103)]
Next, an example of the procedure of the developer supply container history inspection process (S103) executed by the control unit 8 will be described with reference to the flowchart shown in FIG. In the following description, S401, S402,... Represent identification codes of the respective steps executed by the control unit 8 in the developer supply container history inspection process.

<Step S401>
First, the data management unit 82 executes a collection usage history acquisition process. The collection usage history acquisition process is a process of acquiring the collection usage history information D1 corresponding to each developer supply container 5a. The collection use history information D1 is information indicating that the developer supply container 5a has been used as the developer collection container 5b in the past.

  In the present embodiment, the collection and use history acquisition process is a process in which the data management unit 82 reads the collection and use history information D1 from the data storage unit 532 of each supply container tag 53a through each of the first tag access units 73.

<Step S402>
Further, the data management unit 82 determines whether or not each developer supply container 5a is in the post-collection use state. The post-recovery use state is a state in which the recovery use history information D1 corresponding to the developer supply container 5a is recorded in the data storage unit 532 of the supply container tag 53a corresponding to the developer supply container 5a.

  In addition, the data management part 82 which performs process of process S402 is an example of a collection | recovery utilization determination part.

  When it is determined that all the developer supply containers 5a are not in the post-recovery use state, the developer supply container history inspection process ends.

<Step S403>
When it is determined that at least one developer supply container 5a is in the post-collection use state, the drive control unit 83 sets the motor drive prohibition flag to “ON”.

<Step S404>
Further, when it is determined that at least one developer supply container 5a is in the post-collection use state, the user interface control unit 84 executes warning / confirmation processing.

  In the warning / confirmation process, the user interface control unit 84 displays a warning message on the display unit 80b. This warning message is a message requesting not to use the developer supply container 5a determined to be in the post-collection use state because the image forming unit 40 may be contaminated with the waste developer 90b.

  Further, in the warning / confirmation process, the user interface control unit 84 executes a process of accepting a predetermined restriction release operation through the operation unit 80a. The restriction release operation is an operation for forcibly releasing the restriction on the operation of the image forming unit 40 according to the intention of the user.

<Step S405>
Further, the user interface control unit 84 determines whether or not the restriction release operation has been accepted through the operation unit 80a.

  When the operation unit 80a does not receive the restriction release operation, that is, when the user interface control unit 84 does not detect the restriction release operation with respect to the operation unit 80a, the developer supply container history inspection process ends.

<Step S406>
When the operation unit 80a receives the restriction release operation, that is, when the user interface control unit 84 detects the restriction release operation on the operation unit 80a, the drive control unit 83 sets the motor drive prohibition flag to “OFF”. Set to.

<Step S407>
When the operation unit 80a receives the restriction release operation, the data management unit 82 records the restriction release history information D3 in the secondary storage unit 800. The restriction release history information D3 represents that there is a record that the restriction of the operation of the image forming unit 40 is forcibly released.

  The data management unit 82 that executes the process of step S407 is an example of a restriction release recording unit. The secondary storage unit 800 is an example of a non-volatile restriction release storage unit.

<Step S408>
When the restriction release history information D3 is recorded in the secondary storage unit 800, the user interface control unit 84 causes the display unit 80b to display a predetermined warning message. This warning message is a message indicating that the quality of the image forming apparatus 10 is not guaranteed. Thereafter, the user interface control unit 84 executes the process of step S408 as needed.

  By the process of step S408, the warning message based on the record of the restriction release history information D3 is displayed on the display unit 80b. As a result, it can be clarified that the quality of the image forming apparatus 10 is not guaranteed under the responsibility of the user.

  The user interface control unit 84 that executes the process of step S408 is an example of a restriction release history notifying unit that displays a second warning message on the display unit 80b.

  After the processes in steps S406 to S408 are performed, the developer supply container history inspection process ends.

[Developer Recovery Container History Inspection Process (S104)]
Next, an example of the procedure of the developer recovery container history inspection process (S104) executed by the control unit 8 will be described with reference to the flowchart shown in FIG. In the following description, S501, S502,... Represent identification codes of respective steps executed by the control unit 8 in the developer recovery container history inspection process.

<Step S501>
First, the data management unit 82 executes an empty history acquisition process. The empty history acquisition process is a process of acquiring empty history information D2 corresponding to the developer recovery container 5b. The empty history information D2 indicates that the developer empty state is detected by the first developer sensor 71 when the developer recovery container 5b has been used as the developer supply container 5a in the past. Information.

  In the present embodiment, the empty history acquisition process is a process in which the data management unit 82 reads the empty history information D2 from the data storage unit 532 of the collection container tag 53b through the second tag access unit 74.

<Step S502>
Further, the data management unit 82 determines whether or not the developer recovery container 5b is in an after-empty state. The post-empty state is a state in which the collection history information D1 corresponding to the developer collection container 5b is recorded in the data storage unit 532 of the collection container tag 53b corresponding to the developer collection container 5b.

  In addition, the data management part 82 which performs process of process S502 is an example of an empty log | history determination part.

  When it is determined that the developer recovery container 5b is in the post-empty state, the developer recovery container history inspection process ends.

<Step S503>
When it is determined that the developer recovery container 5b is not in the post-empty state, the drive control unit 83 sets the motor drive prohibition flag to “ON”.

<Step S504>
When it is determined that the developer recovery container 5b is not in the post-empty state, the user interface control unit 84 executes the warning / confirmation process as in step S404 in FIG.

  In the warning / confirmation process in step S504, the user interface control unit 84 causes the display unit 80b to display a warning message. This warning message is a message notifying that the replenishment developer 90a remaining in the developer recovery container 5b cannot be used without being used.

  Further, in the warning / confirmation process, the user interface control unit 84 executes a process of accepting the restriction release operation through the operation unit 80a.

<Step S505>
Further, the user interface control unit 84 determines whether or not the restriction release operation has been accepted through the operation unit 80a.

  When the operation unit 80a does not receive the restriction release operation, that is, when the user interface control unit 84 does not detect the restriction release operation with respect to the operation unit 80a, the developer recovery container history inspection process ends.

<Step S506>
When the operation unit 80a receives the restriction release operation, that is, when the user interface control unit 84 detects the restriction release operation on the operation unit 80a, the drive control unit 83 sets the motor drive prohibition flag to “OFF”. Set to.

  After the process of step S506 is performed, the developer recovery container history inspection process ends.

  In the present embodiment, the developer container 5 can be shared by the developer supply container 5a and the developer recovery container 5b. This leads to a reduction in manufacturing cost of the developer container 5.

  When the developer empty state is detected when the developer container 5 is used as the developer supply container 5a, the empty history information D2 is stored in a non-volatile manner in a manner associated with the developer container 5. Is recorded in the sex data storage unit 532 (S502 in FIG. 8).

  When the empty history information D2 is not recorded, that is, when the developer container 5 attached to the second attachment unit 52 is not in the post-empty state, the operation of the image forming unit 40 is limited. As a result, the developer container 5 used as the developer supply container 5a is used as the developer recovery container 5b in a state where the developer 90 still remains, and the unused developer 90 is prevented from being wasted. Can do.

  Further, when the image forming unit 40 is operated, the collection usage history information D1 is recorded in the nonvolatile data storage unit 532 in a manner associated with the developer container 5 mounted on the second mounting unit 52. (S107 in FIG. 4).

  When the collected usage history information D1 is recorded, that is, when the developer container 5 mounted on the first mounting unit 51 is in the post-collection usage state, the operation of the image forming unit 40 is limited. Thereby, it is possible to prevent the image forming unit 40 from being contaminated by the waste developer 90b.

  Further, by using the electronic tag 53, the first tag access unit 73, and the second tag access unit 74 fixed to the developer container 5, management of individual information for each developer container 5 is facilitated. For example, it becomes unnecessary to manage the identification information of each developer container 5.

  If the determination result that the developer collection container 5b is not in the post-empty state is obtained, the user interface control unit 84 displays a predetermined warning message on the display unit 80b (S504 in FIG. 8). Further, the drive control unit 83 maintains the image forming unit 40 in a stopped state until at least the operation unit 80a receives the restriction release operation (S503, S505, S506 in FIG. 8 and S105 in FIG. 4).

  Therefore, when the developer collection container 5b is not in the post-empty state, the operation of the image forming unit 40 is restricted, and there is still room for releasing the operation restriction of the image forming unit 40 under the responsibility of the user.

  Similarly, when the determination result that the developer supply container 5a is in the post-recovery use state is obtained, the user interface control unit 84 displays a predetermined warning message on the display unit 80b (S404 in FIG. 7). . Further, the drive control unit 83 maintains the image forming unit 40 in a stopped state until at least the operation unit 80a receives the restriction release operation (S403, S405, S406 in FIG. 7 and S105 in FIG. 4).

  Therefore, when the developer supply container 5a is in the post-recovery use state, the operation of the image forming unit 40 is restricted and there is still room for releasing the operation restriction of the image forming unit 40 under the responsibility of the user. .

  Note that the user interface control unit 84 and the drive control unit 83 that execute steps S503 to S506 in FIG. 8 and step S105 in FIG. 4 are examples of the operation limiting unit. Similarly, the user interface control unit 84 and the drive control unit 83 that execute steps S403 to S406 in FIG. 7 and step S105 in FIG. 4 are examples of the operation limiting unit. The warning message displayed in steps S504 and S404 is an example of a first warning message.

[Second Embodiment]
Next, an image forming apparatus 10A according to the second embodiment and an image forming system 100 including the same will be described with reference to FIGS.

  As shown in FIG. 9, the image forming system 100 includes an image forming apparatus 10A and a management apparatus 7 that can communicate with each other via a network 100n. The management device 7 includes a data processing unit 7x and a data storage unit 7y including a CPU (Central Processing Unit), a main storage unit, and a communication interface. The management device 7 is, for example, an information processing device specialized for network storage called NAS (Network Attached Storage), or a computer having a network storage function.

  The data storage unit 7y of the management device 7 is a computer-readable non-volatile storage unit such as a hard disk drive.

  As illustrated in FIG. 10, the image forming apparatus 10 </ b> A includes a communication unit 85 in addition to the configuration of the image forming apparatus 10. The communication unit 85 is a communication interface that communicates with the external management device 7 through the network 100n. In the present embodiment, the communication unit 85 is a part of the control unit 8.

  The difference between the image forming apparatus 10A and the image forming apparatus 10 is that the collection destination history information D1 and the empty history information D2 are recorded in the data storage unit 7y of the management apparatus 7. In the present embodiment, the data storage unit 7y of the management device 7 is an example of a nonvolatile history storage unit.

  Accordingly, the contents of the processing in step S107 in FIG. 4, step S202 in FIG. 5, step S401 in FIG. 7, and step S501 in FIG. 8 differ between the image forming apparatus 10A and the image forming apparatus 10.

  As shown in FIG. 11, in the image forming apparatus 10 </ b> A, container identification information D <b> 0 is recorded in advance in the data storage unit 532 of the electronic tag 53. The container identification information D0 is information for identifying the developer container 5 to which the electronic tag 53 is fixed. The data storage unit 532 is an example of an identification information recording medium that is an information recording medium in which the container identification information D0 is recorded in advance.

  Further, the first tag access unit 73 in the present embodiment is a first identification information reading unit that reads the container identification information D0 from the data storage unit 532 of the electronic tag 53 in the developer container 5 attached to the first attachment unit 51. It is an example.

  Similarly, the second tag access unit 74 in this embodiment is a second identification information reading unit that reads the container identification information D0 from the data storage unit 532 of the electronic tag 53 in the developer container 5 attached to the second attachment unit 52. It is an example.

  As described above, the process of step S107 is a process of recording the collection / utilization history information D1, and the process of step S202 is a process of recording the empty history information D2. The data management unit 82 and the communication unit 85 execute a history information recording process in steps S107 and S202.

  Further, the process of step S401 is the collection usage history acquisition process, and the process of step S501 is the empty history acquisition process. The data management unit 82 and the communication unit 85 execute a history information acquisition process in steps S401 and S501.

[History information recording process]
Here, an example of the procedure of the history information recording process in the image forming apparatus 10A will be described with reference to the flowchart shown in FIG. In the following description, S601 and S602 represent identification codes of respective steps executed by the data management unit 82 and the communication unit 85 in the history information recording process.

<Step S601>
In the history information recording process, first, the data management unit 82 reads the container identification information D 0 corresponding to the target developer container 5 through the first tag access unit 73 or the second tag access unit 74.

  The target developer container 5 in step S107 is a developer supply container 5a. The target developer container 5 in step S202 is a developer recovery container 5b.

<Step S602>
Subsequently, the data management unit 82 transmits a recording request including the container identification information D0 and the recording target information obtained in step S601 to the management device 7 through the communication unit 85. The recording request is an example of a processing request.

  The data management unit 82 records information corresponding to the target developer container 5 in the data storage unit 7y by transmitting the recording request. At this time, it is conceivable that the data management unit 82 executes information recording in the data storage unit 7y only when the container identification information D0 included in the received recording request is valid information.

  The recording target information in step S107 is collection usage history information D1. The recording target information in step S202 is empty history information D2.

  The management device 7 stores the container identification information D0 and the recording target information included in the recording request from the image forming apparatus 10A in the data storage unit 7y in association with each other. Thus, the history information recording process ends.

[History information acquisition process]
Next, an example of the history information acquisition process in the image forming apparatus 10A will be described with reference to the flowchart shown in FIG. In the following description, S701, S702, and S703 represent identification codes of respective steps executed by the data management unit 82 and the communication unit 85 in the history information acquisition process.

<Step S701>
In the history information acquisition process, first, the data management unit 82 reads the container identification information D0 corresponding to the target developer container 5 through the first tag access unit 73 or the second tag access unit 74.

  The target developer container 5 in step S401 is a developer supply container 5a. The target developer container 5 in step S501 is a developer recovery container 5b.

<Step S702>
Subsequently, the data management unit 82 transmits an information provision request including the container identification information D0 obtained in step S701 to the management device 7 through the communication unit 85. The information provision request is an example of a processing request.

  The management apparatus 7 reads out the history information corresponding to the container identification information D0 included in the information provision request from the image forming apparatus 10A from the data storage unit 7y and transmits it to the image forming apparatus 10A.

  When the history information corresponding to the container identification information D0 does not exist in the data storage unit 7y, the management device 7 transmits information indicating that the history information does not exist to the image forming apparatus 10A.

<Step S703>
Further, the data management unit 82 receives the history information from the management device 7 through the communication unit 85. The received history information is collection usage history information D1 and empty history information D2. Thus, the history information acquisition process ends.

  As described above, in the image forming apparatus 10A, information corresponding to the developer supply container 5a is recorded in the data storage unit 7y and information is acquired from the data storage unit 7y through the first tag access unit 73. The processing request including the obtained container identification information D0 is performed by transmitting to the management device 7 through the communication unit 85.

  Similarly, in the image forming apparatus 10A, information recording to the data storage unit 7y and information acquisition from the data storage unit 7y for information corresponding to the developer recovery container 5b are obtained through the second tag access unit 74. The processing request including the information D0 is made by transmitting to the management device 7 through the communication unit 85.

  When the image forming apparatus 10A is employed, the same effect as that obtained when the image forming apparatus 10 is employed can be obtained.

  Further, according to the present embodiment, the collection usage history information D1 and the empty history information D2 are managed by the management device 7. Therefore, it is possible to prevent malfunction caused by mounting the counterfeit product of the developer container 5 on the image forming apparatus 10A.

[Application example]
In the image forming apparatus 10A, the recording medium for the container identification information D0 may be an information recording medium other than the electronic tag 53, such as a sheet on which a QR code (registered trademark) or a bar code is written. In this case, the image forming apparatus 10 </ b> A includes a device such as a camera that reads the code recorded on the sheet, instead of the first tag access unit 73 and the second tag access unit 74.

  The image forming apparatus according to the present invention can be freely combined with the above-described embodiments and application examples, or can be appropriately modified within the scope of the invention described in each claim. Alternatively, it may be configured by omitting a part.

1: Main body 2: Sheet supply unit 3: Sheet transport unit 4: Development unit 5: Developer container 5a: Developer supply container 5b: Developer recovery container 6: Image forming motor 7: Management device 7a: Light emitting unit 7b: Light receiving unit 7x: Data processing unit 7y: Data storage unit (history storage unit)
8: Control unit 10, 10A: Image forming apparatus 21: Sheet cassette 22: Sheet feeding unit 30: Conveying path 31: Conveying roller 40: Image forming unit 41: Photoconductor (image carrier)
42: charging device 43: developing device 44: primary transfer device 45: primary cleaning device 46: optical scanning unit 47: intermediate transfer belt 48: secondary transfer device 49: fixing device 51: first mounting unit 52: second mounting unit 53: Electronic tag 53a: Supply container tag 53b: Collection container tag 71: First developer sensor 72: Second developer sensor 73: First tag access unit 74: Second tag access unit 80: Operation display unit 80a: Operation Unit 80b: Display unit 81: Developer amount determination unit 82: Data management unit 83: Drive control unit 84: User interface control unit 85: Communication unit 90: Developer 90a: Supply developer 90b: Waste developer 100: Image formation System 100n: Network 101: Discharge tray 470: Secondary cleaning device 531: Wireless communication unit 532: Data storage unit ( History storage unit)
800: Secondary storage unit D0: Container identification information D1: Collection usage history information D2: Empty history information D3: Restriction release history information

Claims (5)

A display unit capable of displaying a message;
An operation unit for receiving an operation;
A developer container that is detachably attached to the apparatus main body and can store a developer;
A first mounting portion on which the developer container that is a supply source of the developer supplied to the developing device is mounted;
A second mounting portion to which the developer container serving as a storage destination of the developer collected from the image forming portion including the developing device and an image carrier that carries an image of the developer is mounted;
A developer empty detection unit for detecting a developer empty state in which the remaining amount of the developer is below a predetermined lower limit for the developer container mounted on the first mounting unit;
When the developer empty state is detected, an empty history recording unit that records empty history information in a non-volatile history storage unit in association with the developer container in which the developer empty state is detected;
Empty history determination for determining whether or not the developer container mounted on the second mounting unit is in an after-empty state in which the empty history information corresponding to the developer container is recorded in the history storage unit And
When the determination result that the developer container mounted on the second mounting part is not in the post-empty state is obtained, the developer remaining in the developer container mounted on the second mounting part is An operation restriction unit that displays a warning message notifying that it cannot be used without being used on the display unit, and prohibits the operation of the imaging unit until at least the operation unit receives a predetermined restriction release operation
A restriction release recording unit that records restriction release history information in a nonvolatile restriction release storage unit when the operation unit receives the restriction release operation;
When the restriction release history information about the developer container attached to the first attachment unit is recorded in the restriction release storage unit, a warning message indicating that the quality of the apparatus is not guaranteed is displayed on the display unit. An image forming apparatus comprising: a restriction release history notifying unit to be displayed. A recovery usage history recording unit that records recovery usage history information in the history storage unit in association with the developer container mounted in the second mounting unit when the image forming unit is operated;
By determining whether or not the collection usage history information is recorded in the history storage unit, the developer usage history information corresponding to the developer container is the developer container mounted on the first mounting unit. A recovery use determination unit that determines whether or not the post-recovery use state recorded in the history storage unit,
The operation restriction unit warns that the image forming unit may be contaminated when a determination result is obtained that the developer container mounted on the first mounting unit is in the post-collection use state. The image forming apparatus according to claim 1, wherein the message is displayed on the display unit, and the operation of the image forming unit is prohibited until at least the operation unit receives the restriction release operation. An electronic tag including the history storage unit and fixed to the developer container;
A first tag access unit accessible to the history storage unit in the electronic tag of the developer container mounted on the first mounting unit;
A second tag access unit accessible to the history storage unit in the electronic tag of the developer container mounted on the second mounting unit,
Recording of information in the history storage unit corresponding to the developer container mounted on the first mounting unit and reference of information in the history storage unit are performed through the first tag access unit,
The recording of information in the history storage unit corresponding to the developer container mounted on the second mounting unit and the reference of information in the history storage unit are performed through the second tag access unit. The image forming apparatus according to claim 2. An identification information recording medium that is fixed to the developer container and is an information recording medium in which container identification information for identifying the developer container is recorded in advance;
A first identification information reading unit for reading the container identification information from the identification information recording medium of the developer container mounted on the first mounting unit;
A second identification information reading unit for reading the container identification information from the identification information recording medium of the developer container mounted on the second mounting unit;
A communication unit capable of communicating with an external management device including the history storage unit,
The container identification information obtained by recording the information corresponding to the developer container mounted on the first mounting unit in the history storage unit and acquiring the information from the history storage unit through the first identification information reading unit. Is sent to the management device through the communication unit,
The container identification information obtained by recording the information corresponding to the developer container mounted on the second mounting unit in the history storage unit and acquiring the information from the history storage unit through the second identification information reading unit. 3. The image forming apparatus according to claim 1, wherein the image forming apparatus includes: a processing request including: an image processing apparatus that transmits the processing request to the management apparatus through the communication unit. A plurality of developer containers corresponding to the developers of different colors and a plurality of the first mounting portions;
The image forming apparatus according to claim 1, wherein all of the plurality of developer containers have the same shape.

Images