JP5939452B2 - Powder processing apparatus and image forming apparatus - Google Patents

Description

  The present invention relates to a powder processing apparatus that transmits a driving force to a powder container that contains powder to facilitate discharge of the powder from the powder container, and an image forming apparatus that uses the powder processing apparatus. Is.

  Conventionally, as this type of image forming apparatus, the one described in Patent Document 1 is known. This image forming apparatus includes a toner replenishing device as a powder processing device for replenishing toner contained in a toner cartridge as a powder container into the developing device. The toner replenishing device includes a cartridge receiving portion that slidably receives a toner cartridge that contains toner, a motor for driving the toner cartridge, a toner conveying means, and the like. The operator slides the toner cartridge on the cartridge receiving portion of the toner supply device, thereby moving the toner cartridge to the mounting position or pulling it out of the mounting position. The toner replenishing device transmits the driving force to the toner cartridge in the mounting position to rotate the toner cartridge, thereby encouraging the toner to be discharged from the toner cartridge and discharging the discharged toner into the developing device. Replenish.

  The toner cartridge is provided with a wireless tag as information storage means for storing the date of manufacture of the toner contained in the cartridge. In addition, the toner replenishing device is provided with a wireless read / write unit that reads the data and writes the operating time data in the image forming apparatus while performing wireless communication with the wireless tag. When a new toner cartridge is installed, the toner replenishing device determines the toner in the cartridge from the date of manufacture based on the current date and the date of manufacture of the toner stored in the wireless tag of the toner cartridge. The elapsed time to reach is calculated. Then, after the toner in the cartridge is initially stirred by the stirring member for a time corresponding to the calculation result, the developing device is replenished. In this configuration, the initial stirring time is not increased unnecessarily, and the toner whose fluidity and charge amount are decreased by being left is initially stirred for a time corresponding to the decrease amount. As a result, it is possible to avoid a deterioration in image quality due to the use of toner with reduced fluidity and charge amount for development.

  However, in this image forming apparatus, when the toner cartridge is removed from the toner replenishing device, the wireless tag of the toner cartridge may be damaged. Specifically, when the toner cartridge is removed, communication between the toner replenishing device and the wireless tag is urgently performed even though the toner replenishing device is executing a reading process or a writing process on the wireless tag. If it is refused, there is a risk of causing a malfunction of the wireless tag.

  The present invention has been made in view of the above background, and an object thereof is to provide the following powder processing apparatus and image forming apparatus. That is, it is a powder processing apparatus or the like that can suppress the occurrence of failure of information storage means such as a wireless tag when removing the powder container.

In order to achieve the above-mentioned object, the invention of claim 1 is characterized in that a powder receiving unit for storing powder is mounted, and the powder container is attached to and detached from the mounting unit. A guide path that guides the body container from the outside of the device housing toward a predetermined mounting position in the mounting portion, and vice versa, and guides the body container from the mounting position toward the outside of the device housing; Driving means for applying a driving force to the powder container to prompt the discharge of the powder from the powder container, and data storage means for the information storage means of the powder container at the mounting position In a powder processing apparatus having a data reading / writing means for performing a reading process and a writing process, a locking position for locking the powder container at the mounting position and a release position for releasing the locking A locking member movable between the locking member and the locking member. A lock detecting means for detecting whether or not the lock container is in the lock position, and when the powder container is mounted on the mounting portion, the lock detection means is locked with respect to the lock member. The reading process and the writing process are forcibly stopped until the state is detected, and when the powder container is removed from the mounting portion, the locking detection means is the locking member. A process for forcibly stopping the reading process and the writing process based on a change from a state in which the locking member is detected to a state in which the locking member has been retracted from the locking position. to perform the data reading and writing means configured to, when the powder container before Symbol mounting portion is mounted, the two rubbing parts that rubs the end surface of the locking member at different positions from each other And forming the powder container To when the powder container is mounted, it is characterized in that the distal end surface of the engaging member so as pressed simultaneously on the two sliding portions.
According to a second aspect of the present invention, in the powder processing apparatus according to the first aspect, the information storage means is an integrated circuit capable of short-range wireless communication, and the data read / write means is the integrated circuit. What comprises the communication part which performs short-distance radio | wireless communication is used.
Further, the invention of claim 3 is the powder processing apparatus of claim 1, wherein the information storage means is one that communicates with the data read / write means by wired communication, and the powder container at the mounting position. There is provided connection means for electrically connecting the data read / write means to the information storage means via electrical contacts.
According to a fourth aspect of the present invention, in the powder processing apparatus according to the third aspect, the information storage means including an electrode pad exposed to the outside is used, and the electrode of the information storage means is used as the connection means. An electrode pad corresponding to the pad is provided, and the data read / write unit is electrically connected to the information storage unit via an electrical contact by contact between the electrode pad of the electrode and the electrical pad of the information storage unit. It is characterized by the fact that
Further, in the powder processing apparatus of claim 4, the invention according to claim 5 uses, as the information storage means, one in which a conductive elastic body is fixed on the surface of its own electrode pad, or the connection As a means, a conductive elastic body fixed on the surface of its own electrode pad is used, and the electrode pad of the information storage means and the electrode pad of the connection means are brought into close contact with each other via the conductive elastic body. Thus, the electrical contact is formed.
Further, the invention according to claim 6 is the powder processing apparatus according to any one of claims 2 to 5, wherein the powder processing apparatus is disposed in the guide path so as to be movable in a powder container attaching / detaching direction, and at least the data reading / writing means includes While holding the communication part or holding the connecting means, holding movement means is provided for moving in the powder container attaching / detaching direction in the guide path, and the powder container is held in the guide path. The holding and moving means is moved in the attaching / detaching direction by following the powder container while being in close contact with the moving means.
The invention according to claim 7 is the powder processing apparatus according to claim 6, further comprising a biasing means for biasing the powder container at the locking position toward the guide path, and the locking member. Is moved from the locking position to the release position so that the powder container and the holding and moving means are pushed out from the locking position into the guide path by the urging force of the urging means. It is characterized by that.
Further, the invention of claim 8 is the powder processing apparatus according to any one of claims 1 to 7, wherein the mounting portion, the guide path, the driving means, the locking member, and the locking detection means are combined. A plurality of the powder containers respectively mounted on the mounting portions are provided, and the detection processing as to whether or not they are in the mounting position, the reading processing, and the writing processing are performed individually, respectively. The data read / write means is configured.
According to a ninth aspect of the present invention, there is provided a toner processing device that is a powder processing device that facilitates discharging of powder from a toner container that contains toner that is powder, and toner that is replenished from the toner container. An image forming apparatus having an image forming means for forming a toner image uses the powder processing apparatus according to claim 1 as the toner processing apparatus.
2

  In these inventions, prior to removing the powder container from the mounting portion of the powder processing apparatus, the operator moves the locking member from the locking position to the release position in order to enable the removal. Then, the read / write unit that detects the movement based on the output from the locking detection unit starts a process for forcibly stopping the reading process and the writing process for the information storage unit of the powder container. From this point, there is a slight time lag until the reading process and the writing process are actually stopped, but after the operator moves the locking member to the release position, the powder container is removed from the mounting portion. There is a certain time lag before the communication between the reading / writing means and the information storage means is cut off. In general, the former time lag is shorter than the latter time lag, and in most cases, it is possible to complete the reading process and the writing process for the information storage means during the latter time lag. In this way, when removing the powder container from the powder processing apparatus, it is almost impossible to refuse communication between the information storage means and the read / write means during the reading process and the writing process. The occurrence of failure of the information storage means can be suppressed.

1 is a schematic configuration diagram illustrating a printer according to an embodiment. FIG. 2 is an enlarged configuration diagram illustrating an image forming unit for Y of the printer. FIG. 2 is an enlarged configuration diagram illustrating a toner supply device of the printer. FIG. 3 is a perspective view showing a container storage unit of the printer together with a toner container for Y. FIG. 3 is a perspective view showing Y driving means of a toner container driving unit of the printer. FIG. 3 is an enlarged configuration diagram illustrating the container storage unit and a Y toner container to be attached to the container storage unit. FIG. 3 is an enlarged configuration diagram illustrating the container storage unit and the toner container mounted on the container storage unit. FIG. 4 is an enlarged perspective view showing a toner container fixing portion of the container storage portion. The expansion perspective view which shows the cap cap part for Y of a lower front case in the state which has moved the fixation release lever to the latching position. The expansion perspective view which shows the cap cap part for Y of a lower front case in the state which has locked the fixation release lever in the release position. The expansion perspective view which shows the fixation release lever for Y. The front view which shows the fixation release lever of the state which moved to the latching position, and the cap part of a toner container. FIG. 6 is a front view showing a fixing release lever locked at a release position and a cap portion of the toner container. The top view which shows the head of a toner container in the state which the mounting process to a container storage part is a 1st period (initial stage), and a fixation release lever from the downward direction of a gravitational direction. The top view which shows the head of a toner container in the state which the mounting process to a container storage part is a 2nd period, and the fixation release lever from the downward direction of a gravitational direction. The top view which shows the head of a toner container in the state which the mounting process to a container storage part is a 3rd period, and the fixation release lever from the downward direction of a gravitational direction. The top view which shows the head of a toner container in the state which the mounting process to a container storage part is a 4th period (completion period), and a fixing release lever from the downward direction of a gravitational direction. The perspective view which shows a lever position sensor and the fixed release lever in the state in a latching position. The front view which shows a lever position sensor and the fixed release lever in the state in a latching position. The perspective view which shows a lever position sensor and the fixed release lever in the state in a release position. The front view which shows a lever position sensor and the fixed release lever in the state in a release position. FIG. 3 is an enlarged front view showing a toner container fixing portion. FIG. 4 is an enlarged perspective view showing a toner container for Y from the head side (cap portion side). FIG. 3 is an enlarged perspective view showing a toner container for Y from the rear end side. FIG. 3 is an enlarged perspective view showing a bottle portion of a toner container for Y. The expansion perspective view which shows a cap part from the front end side. The expansion perspective view which shows a cap part from the rear end side. The figure which shows a cap part from the front side, back side, upper direction, the downward direction, and the side surface side, respectively. The disassembled perspective view of a cap part. The expansion perspective view which shows the holding part main body of a cap part from the arrow A of FIG. FIG. 3 is a longitudinal sectional view showing a head of a toner container. FIG. 6 is a front view showing a cap portion of a toner container for Y. FIG. 3 is a front view showing a cap portion of a toner container for M. The front view which shows the cap part of the toner container for C. FIG. The front view which shows the cap part of the toner container for K. FIG. FIG. 6 is a longitudinal sectional view showing the head of the toner container in a first stage (initial stage) of the mounting process together with its peripheral configuration. FIG. 6 is a longitudinal sectional view showing a head of the toner container in a second stage of the mounting process together with its peripheral configuration. FIG. 5 is a longitudinal sectional view showing a head of a toner container in a third stage of the mounting process together with its peripheral configuration. FIG. 6 is a longitudinal sectional view showing a head of a toner container in a state of a fourth period (completion period) of the mounting process together with its peripheral configuration. The perspective view which shows the positional relationship of the nozzle for Y provided in the container accommodating part, the nail | claw member, and the fixation release lever. The side view of the same positional relationship. FIG. 9 is an enlarged perspective view showing a holding and moving member for Y in the toner container fixing portion shown in FIG. 8. The side view which shows the same holding | maintenance moving member in the position at the time of container non-mounting. The side view which shows the same holding | maintenance moving member in the position at the time of container mounting | wearing. FIG. 4 is a partially enlarged longitudinal sectional view showing the toner container together with the holding and moving member. 6 is a flowchart illustrating a processing flow of an operable flag setting process performed by the control unit of the printer according to the embodiment. The expansion perspective view which expands and shows the front-end | tip part of the toner container for Y of the printer which concerns on a 2nd modification. FIG. 3 is an enlarged perspective view showing an IC chip mounted on the toner container. FIG. 2 is an enlarged perspective view showing a Y movement holding member and its surrounding configuration in the same printer. The expansion perspective view which expands and shows the connection board mounted in the movement holding member. The expanded side view which shows the contact | adherence state of the electrode pad of the same connection substrate, and the electrode pad of the same IC chip. The expanded sectional view which shows the connection board mounted in the movement holding member for Y of the printer which concerns on a specific example. The expanded sectional view which expands and shows the electrode pad of the same connection board | substrate, and the electrode pad of an IC chip corresponding to this.

  Hereinafter, an embodiment of an electrophotographic color printer (hereinafter simply referred to as a printer) will be described as an image forming apparatus to which the present invention is applied.

  First, the basic configuration of the printer will be described. FIG. 1 is a schematic configuration diagram illustrating a printer according to an embodiment. A container storage unit 31 is provided on the upper surface of the casing 100 of the printer. The container storage unit 31 is detachably attachable to toner containers 32Y, M, C, and K that store toner of each color of Y (yellow), M (magenta), C (cyan), and K (black). Set to be interchangeable).

  The printer according to the embodiment includes four image forming units 3Y, 3M, 3C, and 3K corresponding to the colors Y, M, C, and K. The image forming units 3Y, 3M, 3C, and 3K are configured to be detachable from the housing 100. Above the image forming units 3Y, 3M, 3C, and 3K, toner supply devices for Y, M, C, and K (not shown) are provided, respectively. The toner as powder stored in the toner containers 32Y, 32M, 32C, 32K is developed by the toner replenishing device for Y, M, C, K and the developing devices 5Y, M, C, K are replenished.

  FIG. 2 is an enlarged configuration diagram showing the Y image forming unit 3Y. In the figure, an image forming section 3Y for Y has a charging section 4Y, a developing device 5Y (developing section), a cleaning section 2Y, a charge eliminating section (not shown) and the like around a drum-shaped photoreceptor 1Y. By these devices, an image forming process (charging process, latent image writing process, developing process, transfer process, cleaning process) is performed on the photoreceptor 1Y, and a Y toner image is formed on the photoreceptor 1Y.

  The M, C, and K image forming units 3M, C, and K have substantially the same configuration as the Y image forming unit 3Y except that the color of the toner used is different. Hereinafter, the operation of the image forming unit will be described using the Y image forming unit 3Y as an example.

  The photoreceptor 1Y is rotationally driven in a counterclockwise direction in the drawing by a drive motor (not shown). Then, the surface of the photoreceptor 1Y is uniformly charged at the position of the charging unit 4Y (charging process). The uniformly charged surface of the photoreceptor 1Y is subjected to optical scanning with a laser beam L emitted from the optical writing device 7 (see FIG. 1), thereby attenuating the potential of the exposed portion and electrostatic latent. An image is carried (latent image writing step).

  The electrostatic latent image for Y carried on the surface of the photoreceptor 1Y is transported to a developing area facing the developing device 5Y as the surface of the photoreceptor 1Y moves, and is developed there to become a Y toner image (development). Process). Thereafter, the surface of the photoreceptor 1 </ b> Y enters a primary transfer nip that contacts the intermediate transfer belt 8. In the primary transfer nip, a primary transfer bias roller 9Y disposed inside the loop of the intermediate transfer belt 8 presses the intermediate transfer belt 8 toward the photoreceptor 1Y. A primary transfer bias is applied to the primary transfer bias roller 9Y by a power source (not shown). Thereby, in the primary transfer nip, a primary transfer electric field for electrostatically moving the Y toner image on the photoreceptor 1Y from the photoreceptor 1Y side toward the intermediate transfer belt 8 side is formed. The Y toner image on the surface of the photoreceptor 1Y that has entered the primary transfer nip is primarily transferred to the front surface of the intermediate transfer belt 8 by the action of the primary transfer electric field and nip pressure (primary transfer process). ). At this time, a small amount of untransferred toner remains on the photoreceptor 1Y.

  The surface of the photoreceptor 1Y after the primary transfer of the Y toner image to the intermediate transfer belt 8 reaches a position facing the cleaning unit 2Y, and the untransferred toner on the surface is mechanically scraped off by the cleaning blade 2a. (Cleaning process). Thereafter, it reaches a position facing a static elimination unit (not shown), and the residual potential is removed at this position. As described above, a series of image forming processes is completed.

  The image forming process described above is performed in the same manner as the Y image forming unit 3Y in the M, C, and K image forming units 3M, 3C, and 3K. Specifically, in FIG. 1 shown above, the optical writing device 7 disposed above the image forming units 3M, 3C, and 3K emits laser light L from a light source based on image information, and The path of the laser beam L is deflected in the main scanning direction by reflection by a polygon mirror that is rotationally driven. Then, the photoconductors 1M, C, and K are optically scanned by causing the laser light L deflected in this way to reach the photoconductors 1M, C, and K. The electrostatic latent images formed on the photoreceptors 1M, C, and K by this optical scanning are developed with M, C, and K toners to become M, C, and K toner images, respectively.

  The intermediate transfer unit 6 disposed below the image forming units 3Y, 3M, 3C, and 3K includes, in addition to the intermediate transfer belt 8, primary transfer bias rollers 9Y, M, C, and Y for Y, M, C, and K. K, a secondary transfer backup roller 10, a plurality of tension rollers, an intermediate transfer cleaning unit, and the like. The intermediate transfer belt 8 is stretched and supported by a plurality of roller members, and is endlessly moved in the clockwise direction in the drawing by the rotational drive of any one of the roller members.

  The primary transfer bias rollers 9Y, 9M, 9C, and 9K disposed inside the loop of the intermediate transfer belt 8 sandwich the intermediate transfer belt 8 between the photoreceptors 1Y, 1M, 1C, and 1K. As a result, the primary transfer nips for Y, M, C, and K where the photoreceptors 1Y, 1M, 1C, and 1K contact the front surface of the intermediate transfer belt 8 are formed. In these primary transfer nips, the primary transfer bias is applied to the primary transfer bias rollers 9Y, 9M, 9C, and 9K, respectively, so that the toner is electrostatically moved from the photoreceptor side toward the roller side. A primary transfer electric field is formed. As the intermediate transfer belt 8 moves endlessly in the clockwise direction in the drawing, the intermediate transfer belt 8 sequentially passes through the primary transfer nips for Y, M, C, and K. The M, C, and K toner images are sequentially superimposed and primarily transferred. As a result, a four-color superimposed toner image is formed on the front surface of the intermediate transfer belt 8.

  The intermediate transfer belt 8 carrying the four-color superimposed toner image on the front surface reaches a position facing the secondary transfer roller 11. At this position, the secondary transfer backup roller 10 sandwiches the intermediate transfer belt 8 with the secondary transfer roller 11 to form a secondary transfer nip. The four-color superimposed toner image formed on the intermediate transfer belt 8 is secondarily transferred onto the recording paper P fed into the secondary transfer nip to be a full-color toner image. At this time, the untransferred toner that has not been transferred to the recording paper P remains on the intermediate transfer belt 8.

  The intermediate transfer belt 8 that has passed through the secondary transfer nip reaches the position of an intermediate transfer cleaning unit (not shown). At this position, the untransferred toner on the intermediate transfer belt 8 is collected. As described above, a series of transfer processes performed on the intermediate transfer belt 8 is completed.

  Note that the recording paper P fed into the secondary transfer nip is conveyed from the paper supply unit 12 disposed below the casing 100 via the paper supply roller 13, the conveyance roller 14, the registration roller pair 15, and the like. It is a thing. Specifically, a plurality of recording papers P are stored in the paper supply unit 12 in a stacked manner. Then, when the paper feed roller 13 is driven to rotate counterclockwise in the drawing, the uppermost recording paper P is discharged from the paper feed unit 12 and fed toward the rollers of the transport roller pair 14. The The recording paper P conveyed to the registration roller pair 15 is temporarily stopped at the position of the roller nip of the registration roller pair 15 whose rotation driving has been stopped. Then, the registration roller pair 15 is rotationally driven in time with the color image on the intermediate transfer belt 8, and the recording paper P is conveyed toward the secondary transfer nip. Thus, a desired color image is transferred onto the recording paper P.

  The recording paper P that has passed through the secondary transfer nip is fed into the fixing unit 19. The full color image transferred to the surface is fixed by heat and pressure generated by the fixing roller 17 and the pressure roller 18. Thereafter, the sheet is discharged to the outside of the apparatus through the pair of discharge roller pairs 16 and stacked on the stack unit 20. Thus, a series of image forming processes in the image forming apparatus is completed.

  In FIG. 2, the developing device 5Y includes a developing roller 51Y facing the photoreceptor 1Y, a doctor blade 52Y facing the developing roller 51Y, a supply screw 56Y disposed in the developer transport paths 53Y, 54Y, and 55Y, and a recovery screw. 57Y, a stirring screw 58Y, a density detection sensor for detecting the toner density in the developer, and the like. The developing roller 51Y includes a magnet roller fixed inside, a cylindrical developing sleeve that rotates in a state of containing the magnet roller, and the like. In the developer transport paths 53Y, 54Y, and 55Y of the developing device 5Y, a two-component developer composed of a carrier and toner is accommodated. The toner accommodated in the toner container 32Y is replenished through an opening 59Y formed above the stirring and conveying path 55Y.

  Further, the developing device 5Y has a supply conveyance path 53Y that accommodates the developer supplied to the developing roller 51Y at a position facing the developing roller 51Y. The supply conveyance path 53Y includes a supply screw 56Y as a supply conveyance member that conveys the developer in the inner direction of FIG. 2 along the axial direction of the developing roller 51Y while supplying the developer. Then, on the downstream side in the surface moving direction from the portion of the developing roller 51Y facing the supply screw 56Y, a doctor blade 52Y as a developer regulating means for regulating the developer supplied to the developing roller 51Y to a thickness suitable for development. It has.

  A collection conveyance path 54Y that collects the developed developer that has passed through the developing area and separated from the surface of the developing roller 51Y, on the downstream side in the surface movement direction from the developing area that is the portion of the developing roller 51Y facing the photoreceptor 1Y. Is opposed to the developing roller 51Y. The collection conveyance path 54Y is a collection conveyance member that conveys the collected developer collected in the same direction as the supply screw 56Y along the axial direction of the developing roller 51Y, and a spiral collection screw 57Y arranged parallel to the axial direction. I have. The supply conveyance path 53Y provided with the supply screw 56Y is provided side by side in the lateral direction of the developing roller 51Y, and the collection conveyance path 54Y provided with the collection screw 57Y is provided below the development roller 51Y.

  The magnet roller in the developing sleeve described above has a portion where there is almost no magnetic force in the circumferential direction. When the developer carried on the surface of the developing sleeve comes to a position facing the above-mentioned portion as the sleeve rotates, the developer is detached from the surface of the sleeve. In the magnet roller, a place where a repulsive magnetic field is formed may be provided instead of a place where there is almost no magnetic force, and the developer on the sleeve surface may be detached at that place.

  The developing device 5Y has an agitation conveyance path 55Y that agitates and conveys the developer in parallel with the recovery conveyance path 54Y below the supply conveyance path 53Y. The agitating / conveying path 55Y is arranged in parallel to the axial direction as an agitating / conveying member that conveys the developer along the axial direction of the developing roller 51Y to the front side in the figure, which is opposite to the supply screw 56Y. In addition, a helical stirring screw 58Y is provided.

  The supply conveyance path 53Y and the stirring conveyance path 55Y are partitioned by a first partition wall 501 as a partition member. In the first partition wall 501, the supply conveyance path 53Y and the agitation conveyance path 55Y are partitioned at both ends on the front side and the back side in the figure, and the supply conveyance path 53Y and the agitation conveyance path 55Y communicate with each other. doing.

  Note that the supply conveyance path 53Y and the recovery conveyance path 54Y are both partitioned by the first partition wall 501, but an opening is provided at a location where the supply conveyance path 53Y and the recovery conveyance path 54Y of the first partition wall 501 are partitioned. Not. Further, the agitation transport path 55Y and the recovery transport path 54Y are partitioned by a second partition wall 502 as a partition member. The rear side of the second partition wall 502 is an opening in the drawing, and the stirring / conveying path 55Y and the collection / conveying path 54Y communicate with each other.

  In FIG. 2, the developing sleeve of the developing roller 51Y rotates in the clockwise direction (arrow direction). Then, the developer carried on the developing roller 51Y by the magnetic field formed by the magnet roller moves as the developing sleeve rotates. Note that the toner concentration of the developer in the developing device 5Y is adjusted to be within a predetermined range. Specifically, according to the toner consumption in the developing device 5Y, the toner accommodated in the toner container 32Y is replenished into the stirring and conveying path 55Y via the toner replenishing device 60Y. The operation of the toner supply device at this time will be described in detail later.

  The toner replenished in the agitating / conveying path 55Y is conveyed in the agitating / conveying path 55Y toward the front side in the figure while being mixed and agitated together with the developer by the agitating screw 58Y. The developer transported to the downstream end in the transport direction of the stirring screw 58Y is supplied through the opening of the first partition wall 501 formed downstream in the transport direction of the stirring screw 58Y and upstream in the transport direction of the supply screw 54Y. It is supplied to the conveyance path 53Y.

  In the supply conveyance path 53Y that receives the developer supplied from the agitation conveyance path 55Y, the supply screw 56Y conveys the developer in the direction of the rotation axis while supplying the developer to the development roller 51Y. When the developer that has not been supplied to the developing roller 51Y or the developer that has been returned from the surface of the developing roller 51Y to the supply conveyance path 53Y is conveyed to the downstream end in the conveyance direction of the supply conveyance path 53Y, the first partition is formed. It enters the stirring and conveying path 55Y through the opening of the wall 501.

  On the other hand, the developer supplied to the developing roller 51Y is conveyed in the direction of the arrow in FIG. 2 and reaches the position of the doctor blade 52Y. The developer on the developing roller 51Y is conveyed to a position facing the photoreceptor 1Y (development region) after the developer amount is made appropriate at this position. Then, the toner is transferred to the latent image formed on the photoreceptor 1Y by the electric field formed in the development area. Thereafter, the developer on the developing roller 51Y is separated / separated from the developing roller 51Y and transferred to the collection conveyance path 54Y. The developer delivered from the developing roller 51Y to the collection conveyance path 54Y and conveyed to the downstream end in the conveyance direction of the collection conveyance path 54Y by the collection screw 57Y enters the stirring conveyance path 58Y through the opening of the second partition wall 502. To do.

  In the agitating / conveying path 55Y, the developer is conveyed in the agitating / conveying path 55Y toward the front side in the figure while being mixed and agitated by the agitating screw 58Y together with the toner appropriately supplied as described above. Then, it enters the supply conveyance path 53Y through an opening (not shown) of the first partition wall 501. A toner concentration detection sensor including a magnetic permeability sensor (not shown) is disposed below the agitation conveyance path 55Y. The toner replenishing device 60Y whose drive is controlled based on the detection result thereby is provided in the toner container 32Y. The toner is supplied into the agitating and conveying path 55Y.

  In FIG. 1 described above, Y, M, C, and K toners in the toner containers 32Y, 32M, 32C, and 32K installed in the container storage unit 31 are replenished with toner for Y, M, C, and K, respectively. Depending on the apparatus, the developing devices 5Y, 5M, 5C, and 5K are appropriately supplied. The four toner replenishing devices have substantially the same structure except that the color of toner used in the image forming process is different.

  FIG. 3 is an enlarged configuration diagram illustrating the Y toner supply device 60Y. The toner container 32Y for Y has a bottle part 32Y2 that contains toner, and a cap part 32Y1 that engages with the head of the bottle part 32Y2 and rotatably holds the bottle part 32Y2. When the Y toner container 32Y is mounted in the container storage unit 31, the Y nozzle 72Y of the container storage unit 31 is inserted into the hole 32Y1b of the cap unit 32Y1 in conjunction with the mounting operation. At this time, the plug member 32Y3 as an opening / closing member of the toner container 32Y opens the toner discharge port 32Y1a (powder discharge port) while being sandwiched between the nozzle 72Y and the claw member 75Y. As a result, the toner discharge port 32Y1a and the toner receiving port (powder receiving port) provided in the nozzle 72Y communicate with each other, and the Y toner stored in the bottle 32Y2 (powder storing unit) of the toner container 32Y is transferred. Then, it is conveyed into the nozzle 72Y through the toner discharge port 32Y1a.

  On the other hand, one end of a tube 69Y as a toner supply path is connected to the other end of the nozzle 72Y. The tube 69Y is made of a flexible material excellent in toner resistance, and the other end is connected to a screw pump 61Y (suction pump) of the toner replenishing device 60Y. The tube 69Y is formed to have an inner diameter of 4 to 10 [mm]. As the material of the tube 69Y, a rubber material such as polyurethane, nitrile, EPDM, or silicon, or a resin material such as polyethylene or nylon can be used. By using such a flexible tube 69Y, the degree of freedom in the layout of the toner supply path is increased, and the image forming apparatus is downsized.

  The screw pump 61Y is a suction type uniaxial eccentric screw pump, and includes a rotor 65Y, a stator 62Y, a suction port 63Y, a universal joint 64Y, a motor 66Y, and the like. The rotor 65Y, the stator 62Y, the universal joint 64Y, and the like are housed in a case (not shown). The stator 62Y is a female threaded member made of an elastic material such as rubber, and a double pitch spiral groove is formed in the stator 62Y. The rotor 65Y is a male screw-like member that is formed by being helically twisted and made of a rigid material such as metal, and is rotatably fitted in the stator 62Y. One end of the rotor 65Y is connected to the motor 66Y via the universal joint 64Y.

  The screw pump 61Y rotates the rotor 65Y in the stator 62Y in a predetermined direction by the motor 66Y, thereby generating a suction force at the suction port 63Y (sending air in the tube 69Y and applying negative pressure in the tube 69Y). generate.). Thereby, the Y toner in the toner container 32Y is sucked into the suction port 63Y through the tube 69Y together with the air. The Y toner sucked up to the suction port 63Y is sent into the gap between the stator 62Y and the rotor 65Y, sent to the other end side along the rotation of the rotor 65Y, and developed through the toner transport pipe 68Y to the developing device 5Y. (It is the movement in the direction of the broken line arrow in FIG. 3). A hopper that temporarily stores Y toner to be supplied to the developing device 5Y may be installed between the screw pump 61Y and the developing device 5Y.

  The bottle portion 32Y2 of the toner container 32Y is formed in a substantially cylindrical shape, and a spiral protrusion 32Y2a is provided on the inner peripheral surface thereof (when viewed from the outer peripheral surface side, a spiral groove is formed. .) When the bottle portion 32Ya is rotationally driven in the direction of the arrow in the drawing by a toner container driving portion, which will be described later, provided in the casing 100, the cap portion is used to seal the Y toner in which the spiral protrusion 32Y2a is accommodated in the bottle portion 32Y2. The toner is sent out toward the space (toner storage portion 32Y1k) in 32Y1. In FIG. 1 described above, each of the toner containers 32Y, 32M, 32C, 32K is replaced with a new one when it reaches the end of its life (when the toner to be stored is almost consumed and becomes empty). Is done.

  FIG. 4 is a perspective view showing the container storage unit 31 together with the Y toner storage unit 32Y. The container storage unit 31 that is a powder container storage unit includes a toner container fixing unit 70, a toner container guide unit 80, a toner container driving unit 90, and the like. The toner container for each color is mounted on the toner container guide part 80 through the opening of the toner container fixing part 70. This figure shows a state in which the toner container 32Y for Y among the toner containers of the respective colors is attached to the container storage unit 31.

  FIG. 5 is a perspective view showing Y driving means of the toner container driving unit 90. The toner container drive unit 90 includes not only the Y drive means shown, but also the M drive means, C drive means, and K drive means (not shown) having the same configuration. The Y drive means of the toner container drive unit 90 includes a drive coupling 91Y, a drive motor 92Y, a spring 93Y, a shaft 94Y, and the like. The drive coupling 91Y is arranged to engage with a drive input portion 32Y2b (see FIG. 20) formed at the bottom of the bottle portion 32Y2. The drive coupling 91Y and the drive motor 92Y are connected via a shaft 94Y and a gear 95Y provided on the shaft 94Y, and the driving force of the drive motor 92Y is transmitted to the drive coupling 91Y via the shaft 94Y and the gear 95Y. Is done. Then, the driving force is transmitted to the bottle portion 32Y2 of the toner container 32Y engaged with the drive coupling 91Y, and the bottle portion 32Y2 is rotated. A spring 93Y is wound around the shaft 94Y, and the drive coupling 91Y is urged toward the toner container 32Y.

  FIG. 6 is an enlarged configuration diagram showing the container storage portion 31 and the Y toner storage device 32Y to be attached thereto. FIG. 7 is an enlarged configuration diagram showing the container storage unit 31 and the Y toner storage unit 32Y attached thereto. In these drawings, the drive coupling 91Y is slidably movable in a direction parallel to the attaching / detaching direction of the toner container 32Y, and is urged toward the toner container 32Y by a spring 93Y. When the toner container 32Y is moved in the direction of the arrow in FIG. 6 and attached to the container storage unit 31, the drive coupling 91Y is pushed by the toner container 32Y while engaging the drive input unit 32Y2b. Move to the back in the mounting direction (downstream of the arrow in the figure). At this time, due to the repulsive force of the spring 93Y, the toner container 32Y is pushed back toward the front side in the mounting direction (upstream side of the arrow).

  When the toner container 32Y is detached from the container storage unit 31, first, the holding of the toner container 32Y by the container storage unit 31 is released. Then, the toner container 32Y moves in a direction (left direction in FIG. 7) by the urging force of the spring 93. As a result, the toner container 32Y looks out from the toner container insertion port 71Y as a guide path (pop-up operation), so that the user can easily grasp the toner container 32Y from the container container 31 by grasping the grip part 32Y1c. It becomes possible to take out.

  FIG. 8 is an enlarged perspective view showing the toner container fixing part 70 of the container storage part 31. The toner container fixing part 70 holds the cap part of each color toner container in a non-rotating manner, and includes an upper front case 701 and a lower front case 702. The upper front case 701 and the lower front case 702 are provided with a claw member 75Y that biases the plug member in a direction to close the toner container insertion ports 71Y, 71M, 71C, and 71K and the toner discharge port of the toner container. , M, C, K, fixing release levers 76Y, M, C, K for fixing / releasing the toner container to the container storage unit 31, positioning members 78Y, M, C, K, holding and moving members 790Y, M, C, K etc. are provided. The nozzle 72Y shown in FIG. 3 is accommodated in the holding and moving member 790Y. Similarly, for M, C, and K, the nozzle is accommodated in the holding and moving member.

  FIG. 9 is an enlarged perspective view showing the Y cap holding portion of the lower front case 702 in a state where the fixing release lever 76Y is moved to the locking position. FIG. 10 is an enlarged perspective view showing the Y cap holding portion of the lower front case 702 in a state where the fixing release lever 76Y is locked at the release position. In these drawings, the Y cap holding portion of the lower front case 702 is provided with a positioning member 78Y for positioning the cap portion in conjunction with the mounting operation of the cap portion of the Y toner container. The positioning member 78Y is a convex portion extending along the attaching / detaching direction of the Y toner container (not shown), and is provided symmetrically about a vertical line passing through the central axis of the nozzle 72Y.

  The lower front case 702 is provided with a nozzle 72 </ b> Y extending in the horizontal direction and along the attaching / detaching direction of the toner container. A toner receiving port 72aY as a powder receiving port is provided above the nozzle 72Y so that the opening surface faces upward.

  A claw for energizing the plug member in the bottom of the lower front case 702 in a direction to close the toner discharge port of the cap portion of the Y toner container in conjunction with the attaching / detaching operation of the Y toner container. A member 75Y is provided. The claw member 75Y is held by the lower front case 702 so as to be rotatable in the direction of the arrow in the drawing around the rotation support shaft. The leaf spring 77Y is biased in a protruding direction from a position that does not hinder the attachment and detachment of the cap portion of the toner container (not shown) to a position that engages with the plug member. That is, the claw member 75Y is urged from below to above.

  In addition, a toner container (not shown) is fixed to the toner container fixing part (70) in the vicinity of the front end in the figure of the Y cap holding part of the lower front case 702, and is used for releasing the fixing. A fixing release lever 76Y is provided. As shown in FIG. 9, the fixing release lever 76Y is stopped at the upper locking position of the claw member 75Y, so that the cap portion of the Y toner container (not shown) can be used as the Y cap holding portion of the lower front case 702. Secure to. Further, as shown in FIG. 10, the fixing of the cap portion of the Y toner container (not shown) to the Y cap holding portion is released by being locked at the release position that is retracted from above the claw member 75Y.

  FIG. 11 is an enlarged perspective view showing the Y fixing release lever 76Y. In the drawing, the fixing release lever 76Y includes a claw portion 76Ya, a lever portion 76Yb, a rib 76Yc and the like for fixing and holding a cap portion of a toner container (not shown). As shown in FIG. 9, the fixing release lever 76Y is provided so as to be reciprocally movable in the horizontal direction and in a direction substantially perpendicular to the attaching / detaching direction of the toner container. And it is urged | biased toward the toner container insertion port by the spring (76Yd of FIG. 12). As shown in FIG. 10, the user hooks his / her finger on the lever portion 76b of the fixing release lever 76Y, and slides the fixing release lever 76Y in the direction against the biasing direction by the spring (the direction of the arrow in FIG. 10). It can be moved to 19 release positions.

  FIG. 12 is a front view showing the fixing release lever 76Y moving to the locking position and the cap portion 31Y1 of the toner container. FIG. 13 is a front view showing the fixing release lever 76Y locked at the release position and the cap portion 32Y1 of the toner container. As shown in FIG. 12, the fixing release lever 76Y in the state moved to the locking position engages with the cap portion 32Y1 to lock the cap portion 32Y1 to the Y cap holding portion. Further, as shown in FIG. 13, the fixing release lever 76Y in the state moved to the release position is disengaged from the cap portion 32Y1, and the toner when the toner container is pulled out from the container storage portion (31). Withdrawing from the movement path of the container, the locking of the Y cap holding part of the cap part 32Y1 is released.

  FIG. 14 is a plan view showing the head of the toner container 32Y and the fixing release lever 76Y from below in the direction of gravity in a state in which the process of attaching to the container housing portion is in the first stage (initial stage). FIG. 15 is a plan view showing the head of the toner container 32 and the fixing release lever 76Y from the lower side in the direction of gravity in a state in which the process of attaching to the container housing portion is in the second stage. FIG. 16 is a plan view showing the head of the toner container 32 and the fixing release lever 76Y from the lower side in the direction of gravity in a state where the mounting process to the container housing portion is in the third period. FIG. 17 is a plan view showing the head of the toner container 32 and the fixing release lever 76Y from the lower side in the direction of gravity in a state where the mounting process to the container storage portion is in the fourth period (completion period). . In these drawings, the arrow X direction indicates the mounting direction when the toner container 32Y is mounted in the container storage section (31). As shown in FIG. 14, when mounting of the toner container 32Y to the container storage part (31) is started, the inclined surface 76Ya1 of the claw part 76Ya of the fixing release lever 76Y causes the toner discharge part 32Y1d of the toner container 32Y. Abut. When the toner container 32Y is further pushed in the mounting direction in this state, as shown in FIG. 15, the fixing release lever 76Y slides its inclined surface 76Ya1 on the rear end edge of the toner discharge portion 32Y1d, and the spring It slides in a direction (arrow direction in the figure) that opposes the biasing direction by 76Yd. When the toner container 32Y is further pushed in the mounting direction from this state, as shown in FIG. 16, the fixing release lever 76Y slides further in a direction against the spring 76Yd, and the tip of its own claw 76a is moved to the toner. It comes to contact the side surface of the discharge part 32Y1d. When the toner container 32Y is completely attached to the container storage part (31), as shown in FIG. 17, the toner discharge part 32Y1d of the toner container 32Y is farther in the mounting direction than the fixing release lever 76Y (FIG. 17). To the bottom). Then, the fixing release lever 76Y that has been pushed by the contact with the toner discharge portion 32Y1d is released from the push by the toner discharge portion 32Y1d, and moves in the direction of the arrow Z by the urging force of the spring 76d. Return to the position protruding from (mounting position). The toner container 32Y is fixed and held in the attaching / detaching direction by being sandwiched between the drive coupling 91Y of the toner container driving unit 90 and the fixing release lever 76Y.

  FIG. 18 is a perspective view showing the lever position sensor 79Y and the fixing release lever 76Y in the locked position. FIG. 19 is a front view showing the lever position sensor 79Y and the fixing release lever 76Y in the locked position. The lever position sensor 79Y shown in these drawings is held by the toner container fixing portion 70 shown in FIG. The light emitted from the light emitting element can be received by the light receiving element facing the light emitting element with a predetermined gap. When the fixing release lever 76Y is in the locking position, as shown in FIGS. 18 and 19, the rib 76Yc of the fixing release lever 76 is interposed between the light emitting element and the light receiving element of the lever position sensor 79Y. Thereby, the light from the light emitting element is blocked by the rib 76Yc and does not reach the light receiving element. Accordingly, the lever position sensor 79Y detects that the fixing release lever 76 has moved to the locking position, and outputs a detection signal (output on).

  FIG. 20 is a perspective view showing the lever position sensor 79Y and the fixing release lever 76Y in the release position. FIG. 21 is a front view showing the lever position sensor 79Y and the fixing release lever 76Y in the release position. When the fixation release lever 76Y moves to the release position, the rib 76Yc of the fixation release lever 76Y retracts from between the light emitting element and the light receiving element of the lever position sensor 79Y, as shown in these drawings. As a result, the light from the light emitting element reaches the light receiving element, so that the lever position sensor 79Y detects that the fixing release lever 76 has been retracted from the locking position, and does not output a detection signal (output off). ).

  Although the example using the transmission type optical sensor as the lever position sensor 79Y has been described, the lever position sensor 79Y may be a reflection type optical sensor. In the present embodiment, whether or not the fixing release lever 76Y is in the locking position is detected based on the presence or absence of light shielding by the rib 76Yc provided on the fixing release lever 76Y. However, detection by another method is performed. May be. For example, it is possible to detect whether or not the fixing release lever 76Y is in the locking position by using a position change of a member separate from the lever that moves in conjunction with the movement of the fixing release lever 76Y. .

  In FIG. 12 described above, when releasing the fixation of the toner container 32Y, first, a finger is placed on the lever portion 76Yb of the fixation release lever 76Y, and the direction opposite to the urging direction by the spring 76d (see FIG. 12). 12), the fixing release lever 76 is slid. Then, the fixing state of the toner container 32Y is released by moving the claw portion 76Ya of the fixing release lever 76Y to a release position where it is not engaged with the cap portion 32Y1. Since the toner container 32Y is biased by the drive coupling 91Y of the toner container drive unit 90 as shown in FIG. 6, the toner container of the toner container fixing unit 70 shown in FIG. Jump out from the container insertion port 71Y. Then, the tip of the claw portion 76Ya of the fixing release lever 76Y comes into contact with the side surface of the toner discharge portion 32Y1d of the toner container 32Y as shown in FIG. Return movement to the position is prevented (the release position is maintained). Thereafter, when the operator grips the grip portion 32Y1c, moves the toner container 32Y in the direction of disengagement (the direction opposite to the arrow X), and pulls it out, the contact state between the claw portion 76Ya and the toner discharge portion 32Y1d is reached. The fixed release lever 76 is returned to the locking position by the urging force of the spring 76d. However, at this time, since the toner container for Y is not attached to the container housing portion (31), the fixing release lever 76 is in the locking position, but the toner container is not fixed to the container housing portion. Don't be.

  In FIG. 1 described above, when a not-shown main body door provided on the front side of the housing 100 in the drawing is opened, the container storage portion 31 is exposed. Specifically, when the main body door of the housing 100 is opened, as shown in FIG. 22, the toner container fixing portion 70 of the container housing portion is exposed to the outside. When no toner container of any color is attached to the container storage unit, four toner container insertion ports 71Y, 71C, 71M, and 71K provided in the toner container fixing unit 70 are provided as shown in the figure. It will be in the state opened toward the operator. The operator attaches and removes toner containers for Y, M, C, and K through these four toner container insertion openings 71Y, C, M, and K. The shapes of the toner container insertion openings 71Y, 71C, 71M, and 71K are different for each color. Further, the shape of the cap portion of the toner container for Y, C, M, and K can be engaged with the corresponding toner container insertion ports 71Y, 71C, 71M, 71K. As a result, it is possible to avoid the occurrence of erroneous mounting of a different color toner container.

  FIG. 23 is an enlarged perspective view showing the toner container 32Y for Y from the head side (cap portion side). FIG. 24 is an enlarged perspective view showing the toner container 32Y for Y from the rear end side. The toner container 32Y includes a cylindrical bottle portion 32Y2 that contains toner, and a cap portion 32Y1 that engages with the head portion of the toner container 32Y and rotatably holds the bottle portion 32Y2. The cap portion 32Y1 is formed with a protruding portion 32Y1e that protrudes in the normal direction. On the other hand, first guide grooves 71Y1, 71C1, 71M1, and 71K1 are formed in the toner container insertion ports 71Y, 71C, 71M, and 71K shown in FIG. The protrusion 32Y1e of the toner container 32Y for Y shown in FIG. 23 can be engaged only with the first guide groove 71M1 for Y among the four first guide grooves. . Similarly, protrusions formed on a toner container for C, M, and K (not shown) can be engaged only with the first guide grooves corresponding to the protrusions.

  FIG. 25 is an enlarged perspective view showing the bottle portion 32Y2 of the toner container for Y. The bottle portion 32Y2 has an opening portion 32Y2c at the head (an end on the near side as viewed from the mounting direction with respect to the housing 100). A spiral protrusion 32Y2a is formed on the inner wall of the bottle portion 32Y2. Furthermore, the bottle portion 32Y2 has a drive input portion (32Y2b in FIG. 24) that engages with the drive coupling (91Y) of the housing 100 at the bottom (the back end portion when viewed from the mounting direction with respect to the housing 100). Yes. Then, the toner contained therein is conveyed toward the opening 32Y2c as it receives a driving force from the drive coupling (91Y) and rotates in a predetermined direction. Then, the Y toner in the bottle part 32Y2 is discharged from the opening part 32Y2c. As shown in FIG. 24, the discharged Y toner is received in the cap portion 32Y1 engaged with the head portion of the bottle portion 32Y2. Then, it is stored in the toner storage part of the cap part 32Y1.

  The two drive input portions 32Y2b of the bottle portion 32Y are arranged so as to have a distribution angle relationship of 180 degrees with reference to the rotation center axis of the bottle portion 32Y2. On the other hand, there are three or more claw members of the drive coupling (91Y) of the housing, and three or more drive input portions 32Y2b are formed so as to engage with the claw members, and these drive input portions 32Y2b Can be arranged at an equal distribution angle with the rotation center axis of the bottle portion 32Y2 as a reference. In such a case, torque fluctuations when the toner container 32Y is rotationally driven can be reduced, but the drive input unit during the mounting operation of the toner container 32Y is increased by an increase in the number of drive input units 32Y2b (claw members). The probability that the 32Y2b and the claw member interfere with each other increases. Therefore, the number of drive input portions 32Y2b (claw members) depends on whether toner is discharged from the toner container 32Y due to torque fluctuations and the setability of the toner container 32Y due to interference between the drive input portion 32Y2b material and the claw member. It is necessary to set the quality based on comprehensive judgment.

  FIG. 26 is an enlarged perspective view showing the cap portion 32Y1 from the distal end side. FIG. 27 is an enlarged perspective view showing the cap portion 32Y1 from the rear end side. The cap portion 32Y1 is fixed and held on the toner container fixing portion (70) of the container storage portion by the mounting operation on the container storage portion (31). The cap part 32Y1 in a fixed state holds the bottle part 32Y2 rotatably.

  The cap part 32Y1 is provided with a color identification protrusion member 32Y1e (protrusion part), a grip part 32Y1c, a toner discharge part 32Y1d, and the like. Further, on both side surfaces of the toner discharge portion 32Y1d of the cap portion 32Y1, there are provided first groove portions 32Y1g as engaging portions with which the positioning member 78 of the container storage portion 31 is engaged.

  FIG. 28 is a diagram illustrating the cap portion 32Y1 from the front side, the rear side, the upper side, the lower side, and the side surface side. The first groove portion 32Y1g of the cap portion 32Y1 is formed such that two opposing horizontal surfaces 32Y1ga and 32Y1gb and a vertical surface 32Y1gc provided between the horizontal surfaces extend in the container attaching / detaching direction. The cap portion 32Y1 is fixedly held on the toner container fixing portion 70 of the container storage portion 31 with the groove portion 32Y1g engaged with the positioning member 78 without being interlocked with the rotation of the bottle portion 32Y2.

  FIG. 29 is an exploded perspective view of the cap portion 32Y1. The cap part 32Y1 includes a cap part main body 32Y10, a gripping part main body 32Y20, a nozzle insertion part 32Y30, and the like. FIG. 30 is an enlarged perspective view of the gripping part main body 32Y20 from the arrow A in FIG. The cap part main body 32Y10 and the gripping part main body 32Y20 are fitted together so that a part of the gripping part main body 32Y20 is covered by the cap part main body 32Y10, and the rib part 32Y20b of the gripping part main body 32Y20 is bonded or bonded. It is welded. Further, a depression is formed in the lower part of the gripping part main body 32Y20 in the vertical direction, and the nozzle insertion part 32Y30 is fitted in this depression.

  As shown in FIG. 29, an electronic substrate 32Y1f, a color identification protrusion member 32Y1e (protrusion part), and the like are provided on the outer peripheral surface of the cap part body 32Y10. Further, the gripping part main body 32Y20 includes a gripping part 32Y1c that protrudes from the cylindrical part in the attaching / detaching direction, and a toner discharge part 32Y1d disposed below the cylindrical part. Further, as shown in FIG. 30, in the cylindrical part, a toner storage part 32Y1k (cavity) for temporarily storing toner and a cylindrical space 32Y1p for communicating the toner storage part 32Y1k and the toner discharge part 32Y1d are provided. ing. The toner discharge portion 32Y1d of the grip portion main body 32Y20 includes a first groove portion 32Y1g, a pressed contact portion 32Y1h, a nozzle insertion port 32Y1j, and the like. Further, a sealing material 32Y20c is provided so as to surround the nozzle insertion port 32Y1j. The sealing material 32Y20c can prevent toner leakage from between the nozzle 72 and the nozzle insertion port 32Y1j when the toner container 32Y is attached to the container storage part 31Y. The sealing material 32Y20c also has a function of absorbing an impact when the toner container 32Y is completely mounted by sliding in the container housing portion 31Y. That is, the sealing performance between the cap part 32Y1 and the bottle part 32Y2 is ensured by the sealing material 32Y20a attached to the grip part main body 32Y20 of the cap part 32Y1. When the opening 32Y2c of the bottle portion 32Y2 bites into and slides on the sealing material 32Y20a of the cap portion 32Y1, a problem that toner leaks from between both members is suppressed.

  In FIG. 29, the nozzle insertion portion 32Y30 is formed on the upper surface of the hole portion 32Y1b and the hole portion 32Y1b for accommodating the plug member 32Y3. The toner storage port 32Y1k and the hole 32Y1b communicate with the toner discharge port 32Y1a and the cylindrical space 32Y1p formed below the toner storage unit 32Y1k. The toner storage unit 32Y1k and the toner discharge port 32Y1a A toner discharge path 32Y30a that forms a path for discharged toner is provided. The hole portion 32Y1b is configured to communicate with the nozzle insertion port 32Y1j of the toner discharge portion 32Y1d when the nozzle insertion portion 32Y30 is fitted into a recess provided in the toner discharge portion 32Y1d of the grip portion main body 32Y20. .

  In the hole 32Y1b, a cylindrical shape and a plug member 32Y3 including a plate-like protruding portion protruding symmetrically at an end thereof are accommodated. The plug member 32Y3 opens and closes the toner discharge port 32Y1a by moving in the hole 32Y1b. A protrusion that extends in the direction perpendicular to the central axis of the cylinder and extends horizontally is provided at the front end of the plug member 32Y3 when viewed from the toner container mounting direction. When the claw member 75 of the container storage portion 31 is engaged with the protruding portion, the claw member 75 moves the plug member 32Y3 in the direction of closing the toner discharge port 32Y1a in conjunction with the detachment operation of the toner container 32Y. Energize and move.

  The nozzle insertion portion 32Y30 may be provided with a spring 32Y30b as an urging member that urges the plug member 32Y3 in a direction to close the toner discharge port 32Y1a. The spring 32Y30b also has a function of moving the plug member 32Y3 in the closing direction of the toner discharge port 32Y1a when the toner container 32Y is detached by the urging force. The spring 32Y30b is preferable in that it can accelerate the initial operation when the plug member 32Y3 moves in the direction of closing the toner discharge port 32Y1a, and therefore can reduce toner leakage from the toner discharge port 32Y1a. The plug member 32Y3 can be moved in the closing direction of the toner discharge port 32Y1a as long as the plug member 32Y3 is engaged with the claw member 75 or urged by the spring 32Y30b. Therefore, it is possible to reliably reduce toner leakage from the toner discharge port 32Y1a when the toner container is detached. In the present embodiment, a configuration in which both the claw member 75 and the spring 32Y30b are provided will be described as an example.

  In FIG. 30, an electronic substrate 32Y1f is fixed beside the nozzle insertion port 32Y1j. This electronic board 32Y1f is equipped with an RFID tag (short-range wireless IC chip) as information storage means (not shown), in which the toner container manufacturing number, the number of recycling times, the lot number, the toner color, the housing Various information such as the usage history of the body 100 and the remaining amount of toner (or usage time) is stored.

  FIG. 31 is a longitudinal sectional view showing the head of the toner container 32Y. In the figure, the hole 32Y1b is provided with a plug member 32Y3 as an opening / closing member that opens and closes the toner discharge port 32Y1a in conjunction with the attaching / detaching operation of the toner container 32Y. At both ends of the plug member 32Y3, O-rings 32Y30d and 32Y30e for preventing toner leakage from the gap between the plug member 32Y3 and the hole 32Y1b are installed. Further, an O-ring 32Y30c is installed on the peripheral surface portion of the toner discharge path 32Y30a to prevent toner leakage from the gap between the gripper body 32Y20 and the nozzle insertion portion 32Y30. Moreover, it is an edge part of the hole 32Y1b, Comprising: The back | inner side (right side of FIG. 31) seeing from the mounting direction to the housing 100 is connected with the nozzle insertion port 32Y1j. A nozzle (72Y in FIG. 6) is inserted into the nozzle insertion port 32Y1j in conjunction with the mounting operation to the container storage unit 31.

  29, the claw member (75 in FIG. 3) fixed to the housing side of the printer is engaged with the bottom surface of the cap portion 32Y1, so that the plug member 32Y3 moves relatively. A second groove 32Y1i is provided. Furthermore, a third groove portion 32Y1q is formed on the bottom surface of the cap portion 32Y1 so as to be aligned with the second groove portion 32Y1i (so as to overlap with the toner container mounting direction). Then, between the second groove portion 32Y1i and the third groove portion 32Y1q, it slides with the claw member 75 of the container storage portion 31 and pushes down the claw member 75 downward so as not to prevent the toner container 32Y from being attached. The sliding surface 32Y1r is provided. The edge of the sliding surface 32Y1r on the third groove portion 32Y1q side has an inclined surface for smoothly pushing down the claw member 75.

  In FIG. 26 described above, a grip portion 32Y1c for the user to grip when attaching / detaching the toner container 32Y is provided on the front side when viewed from the mounting direction of the cap portion 32Y1. The grip portion 32Y1c is formed on the surface of the cap portion 32Y1 opposite to the surface on which the nozzle insertion port 32Y1j is provided so as to protrude in the direction in which the toner container 32Y is detached. With this configuration, when the user grips the grip portion 32Y1c, it is possible to suppress touching the nozzle insertion port 32Y1j to which toner tends to adhere.

  FIG. 32 is a front view showing the cap portion 32Y1 of the Y toner container. FIG. 33 is a front view showing the cap part 32M1 of the M toner container. FIG. 34 is a front view showing the cap portion 32C1 of the C toner container. FIG. 35 is a front view showing the cap portion 32K1 of the K toner container. The color identification protrusions 32Y1e (protrusions), 32M1e, 32C1e, and 32K1e provided on the cap portions of the respective colors are the first guide grooves of the toner container insertion ports 71Y, 71C, 71M, and 71K shown in FIG. It is designed to engage only with.

  The rear side of the edge of the toner discharge port 32Y1a shown in FIG. 31 is disposed on the front side of the rear end portion of the color identification protrusion member 32Y1e. By arranging in this way, even when the toner container 32Y of a different color is accidentally inserted into the container storage part 31Y, due to the interference between the color identification protrusion member 32Y1e and the toner container insertion port 71Y, The toner container 32Y is inserted only up to the end in the mounting direction of the color identification protrusion member 32Y1e. Therefore, the toner discharge port 32Y1a is not opened by the insertion of the nozzle 72. Therefore, it is possible to prevent the toner from leaking out from the toner discharge port 32Y1a from dropping into the container housing portion or contaminating the toner container container with toner of a different color.

  The pressure contact portion 32Y1h is pressed against the claw portion 76a of the fixing release lever 76 of the container storage portion 31Y and held by the container storage portion 31Y in a state where the toner container 32Y is mounted on the container storage portion 31Y. It is configured. That is, when the toner container 32Y urged by the drive coupling 91 is held by the fixing release lever 76 and fixed in the attaching / detaching direction, the pressed contact portion 32Y1h is in a position where it is pressed against the fixing release lever 76. It is arranged.

  In FIG. 26 described above, the pressure contact portion 32Y1h is composed of two projecting members (ribs) projecting in the direction of detachment from the plane 32Y1n perpendicular to the attaching / detaching direction of the cap portion 32Y1. The pressed portion 32Y1h is pressed against the fixing release lever 76 by the urging force from the back side to the near side by the drive coupling 91, and the positioning accuracy in the attaching / detaching direction of the toner container 32Y is improved at the apex of the two protruding members. Let

  The flat surface 32Y1n has a sliding contact portion 32Y1m (rib) extending in a direction parallel to the attaching / detaching direction, that is, a direction parallel to the protruding direction of the pressed contact portion 32Y1h, at a position (back side) opposite to the surface to be pressed contact portion 32Y1h. ) Is provided. The sliding contact portion 32Y1m is in sliding contact with the toner fixing release lever 76 when the toner container 32Y is attached to and detached from the container storage portion 31Y, and the release position of the fixing release lever 76 (a position that does not prevent the toner container from being attached or detached). The posture is maintained. The sliding contact portion 32Y1m also has a function of ensuring the strength of the flat surface 32Y1 on which the pressed contact portion 32Y1h is formed. Of the two ribs as the sliding contact portion 32Y1m, the upper rib is configured as a horizontal surface 32Y1gb that forms a first groove portion 32Y1g that engages with the positioning member 78 of the container storage portion 31Y.

  FIG. 36 is a longitudinal sectional view showing the head of the toner container in the first stage (initial stage) of the mounting process together with the surrounding configuration. FIG. 37 is a longitudinal sectional view showing the head of the toner container in the second stage of the mounting process together with the surrounding structure. FIG. 38 is a longitudinal sectional view showing the head of the toner container in the third stage of the mounting process together with the surrounding structure. FIG. 39 is a vertical cross-sectional view showing the head of the toner container in the fourth stage (completion stage) of the mounting process together with the surrounding structure. In these drawings, the arrow X direction indicates the direction in which the toner container 32Y is mounted in the container storage portion (31). FIG. 40 is a perspective view showing a positional relationship among the nozzle 72Y, the claw member 75Y, and the fixing release lever 76Y provided in the container storage unit 31. FIG. FIG. 41 is a side view showing the positional relationship. In FIG. 41, the toner container 32Y moves from the left side to the right side and is attached.

  When the toner container 32Y is mounted in the container storage section (31), first, the main body door provided on the front surface of the printer casing (front side in FIG. 1) is opened to expose the container storage section (31). Let Thereafter, the user pushes the toner container 32Y into the container housing part 31 while gripping the grip part 32Y1c. That is, the toner container 32Y is stored in the container along the longitudinal direction of the bottle part 32Y2 (or the toner container 32Y) so that the cap part 32Y1 is in front of the bottle part 32Y2 when viewed from the front side in the mounting direction. It is attached to the part. At this time, the rear side end portion of the rib 32Y1m as the sliding contact portion comes into contact with the claw portion inclined surface 76a1 of the fixing release lever 76Y with respect to the mounting direction of the toner container 32Y. The inclined surface 76Ya1 of the fixing release lever 76Y is inclined so as to protrude toward the toner container as it advances in the insertion direction. When mounting of the toner container 32Y proceeds, the fixing release lever 76 is pushed to the back end of the rib 32Y1m and moves to a position (release position) that does not hinder the mounting of the toner container. When the mounting of the toner container 32Y proceeds while the tip of the fixing release lever 76Y pushed to the release position is in sliding contact with the rib 32Y1m, the claw member 75Y is placed on the bottom surface of the toner container 32Y as shown in FIG. It enters the provided third groove 32Y1q. At this time, the first groove portion 32Y1g of the cap portion 32Y1 engages with the positioning member 78Y of the container storage portion 31Y, and positioning is started.

  As the installation of the toner container 32Y proceeds, the claw member 75Y of the container storage unit 31Y hits the sliding surface 32Y1r of the cap unit 32Y1 as shown in FIG. Then, the claw member 75Y is pushed down by the inclined surface provided at the edge of the sliding surface 32Y1r, and moves to a position (retracted position) that does not hinder the mounting of the cap portion 32Y1. Then, the toner container 32Y is mounted while sliding on the sliding surface 32Y1r with the claw member 75Y pushed downward.

  Thereafter, when the toner container 32Y is further mounted and the claw member 75 reaches the second groove 32Y1i, as shown in FIG. 38, the position where it engages with the plug member 32Y3 so as to enter the second groove 32Y1i. (Rotation about the rotation support shaft 75a). The claw member 75Y is released from pushing from the sliding surface 32Y1r and is pushed upward by the leaf spring 77Y. At this time, the end in the mounting direction of the plug member 32Y3 reaches a position where it comes into contact with the nozzle 72Y, and the plug member 32Y3 is sandwiched between the nozzle 72Y and the claw member 75Y to be positioned in the container storage portion 31Y. Is in a fixed state.

  When the toner container 32Y further moves in the mounting direction (arrow X direction), as shown in FIG. 39, the nozzle 72Y moves from the nozzle insertion port 32Y1j with the first groove 32Y1g and the positioning member 78Y engaged. The plug member 32Y3 is inserted and relatively moves in the hole 32Y1b, and the toner discharge port 32Y1a is opened. The plug member 32Y3 completely opens the toner discharge port 32Y1a, and the nozzle 72Y is inserted to a position where the toner receiving port 72aY of the nozzle 72Y and the toner discharge port 32Y1a communicate with each other. The fixing release lever 76Y that has slid on 32Y1m reaches the front end of the mounting direction of the rib 32Y1m, is released from being pushed by the rib 32Y1m, and moves to the locking position by the urging force of the spring 76Yd ( The state of FIG. Thus, the mounting operation of the toner container 32Y is completed.

  When the toner container 32Y is taken out (detached) from the container housing part 31Y of the housing 100, the operation is performed in the reverse order to the procedure at the time of mounting described above. Specifically, first, the fixing release lever 76 is moved to the release position. Then, the toner container 32Y is pushed in the disengagement direction by the urging force from the drive coupling 91Y of the container housing part 31Y (the movement to the left in FIG. 39). At the same time, the plug member 32Y3 moves in the hole 32Y1b by the biasing force of the spring 32Y30b and the biasing force from the engaged claw member 75Y, and the toner discharge port 32Y1a is closed. At this time, the fixing release lever 76Y slides on the rib 32Y1m of the cap portion 32Y1 while maintaining the release position, and does not move to the locking position (position that prevents the toner container from being detached). Thereafter, when the toner container 32Y further moves from the state shown in FIG. 39 in the removal direction (the direction opposite to the arrow X), the claw member 75Y is pushed down to a position that does not hinder the removal of the cap portion 32Y1 (FIG. 37). State). When the toner container 32Y further moves in the separating direction, the claw member 75Y is released from being pushed by the sliding surface 32Y1r, is pushed upward by the leaf spring 77Y, and enters the third groove 32Y1q (state shown in FIG. 36). When the cap portion 32Y1 is completely removed, the fixing release lever 76Y is released from the pushing by the rib 32Y1m and returns to the locking position by the spring 76Yd.

Next, a characteristic configuration of the printer will be described.
In this printer, when any one of the Y, C, M, and K toner containers is attached or detached (replaced), the toner supply operation of the other toner containers is not stopped. It is configured. That is, the Y, C, M, and K drive motors (92Y, C, M, and K) for rotationally driving the Y, C, M, and K toner containers can be independently driven and attached. The toner containers mounted on the container storage unit (31) other than the toner container to be received receive a driving force from a dedicated drive motor. When the main body door provided on the front surface of the printer housing is opened, the toner containers of the respective colors set in the container storage unit (31) are exposed, but the toner container has a rotating bottle part from the cap part. Is also located on the back side. Since the bottle part is not exposed from the toner container insertion port of the toner container fixing part 70, even if the toner container that is not attached or detached is driven, the operator does not touch the rotating bottle part.

  However, if the drive from the drive unit is transmitted to the toner container to be attached / detached during the operation, the user may touch the rotating bottle unit. Therefore, in this printer, when replacing the toner container, it is possible to replace the container without stopping the toner replenishment operation of the toner container that does not need to be replaced, and the rotation driving of the toner container to be replaced is surely stopped. It is the structure which can be made to do.

  As described with reference to FIGS. 18 to 21, the toner container fixing portion 70 is provided with the lever position sensor 79Y that detects the position of the fixing release lever 76Y. Similar lever position sensors are provided for Y, C, M, and K. Depending on the output state of the lever position sensor 79Y, on / off of rotational driving of the toner container is controlled. In addition, on / off of data reading processing and writing processing for an RFID (Radio Frequency IDentification) tag which is an integrated circuit capable of short-range wireless communication of the electronic substrate 32Y1f is controlled according to the output state.

  When the output of the lever position sensor 79Y is on, that is, in the state shown in FIGS. 18 and 19, the controller rotates the drive motor 92Y as necessary. However, when the output of the lever position sensor 79Y is in an off state, that is, in the state shown in FIGS. 20 and 21, the drive motor 92Y is forcibly stopped even if the drive motor 92Y needs to be driven. Let More specifically, when the toner container 32Y is mounted in the container housing portion, the fixing release lever 76Y is disposed at the locking position to fix and hold the toner container 32Y. At this time, the lever position sensor 79Y detects the position of the fixing release lever 76Y and turns on the output. In addition, after the toner container 32Y is pulled out from the container storage unit 31, the fixing release lever 76Y is urged by the spring toward the locking position, and thus moves to the locking position. At this time, if the drive motor 92Y is rotationally driven, an overcurrent may flow through the drive motor 92Y due to a low load. Therefore, even when the fixing release lever 76Y is moved to the locking position, if the attachment of the toner container 32Y to the container storage unit 31 is not detected, the control unit does not drive the drive motor 92. It has become. It is detected by the lever position sensor 79Y as the locking detection means that the fixing release lever 76Y has moved to the locking position, and the container detection means detects that the toner container 32Y is being mounted. Only when it is, the drive motor 92Y is driven as necessary.

  In this printer, a communication unit (to be described later) that performs short-range communication with the electronic substrate 32Y1f of the toner container 32Y functions as a container detection unit. The presence / absence of the toner container 32Y is detected as to whether or not communication with the electronic substrate 32Y1f is possible. You may use what detects mounting | wearing of the toner container 32Y by a method different from communication with the electronic substrate 32Y1f. For example, a mounting detection switch as described in Patent Document 1 may be used. In this printer, a combination of a control unit and a read / write device 791 described later functions as a data read / write unit that performs read processing and write processing on the RFID tag.

  When the fixing release lever 76Y is slid to the release position during the toner container 32Y removal operation, the output of the lever position sensor 79Y is turned off. Even when the control unit detects the toner container 32Y (when communication with the electronic board is possible), if the output of the lever position sensor 79Y is turned off, the drive motor 92Y is driven. Is forcibly stopped. In addition, the data reading process and the writing process for the RFID tag in the electronic substrate 32Y1f are forcibly stopped. Thus, the drive of the drive motor 92Y can be stopped before the toner container 32Y starts to be pulled out from the container storage unit 31.

  In such a configuration, when the toner container 32Y is set and locked at the mounting position, the driving motor 92Y for rotating the toner container 32Y starts to be driven. Even if left unattended, no unnecessary downtime occurs. Even if the open / close door is opened, the toner container that is not the replacement target can be continuously driven to rotate while being set in the mounting position, so that unnecessary downtime does not occur. Therefore, generation of unnecessary town time can be suppressed. Furthermore, before the toner container 32Y starts to be pulled out from the container housing unit 31, the reading / writing of data with respect to the RFID tag is stopped, thereby suppressing the occurrence of a situation where communication is suddenly cut off during reading / writing. Can do.

  Further, in this printer, even when the toner container 32Y can be communicated with the RFID of the toner container 32Y at the timing immediately before the toner container 32Y is moved to the mounting position when the toner container 32Y is set, the drive motor 92Y. Do not drive immediately. Thereafter, after the operator moves the toner container 32Y to the mounting position, the fixing release lever 76Y is moved to the locking position, and further, the movement is detected by the lever position sensor 79Y serving as the locking detecting means. Then, the drive of the drive motor 92Y is started. Similarly, reading / writing of data with respect to the RFID starts after waiting for the movement of the fixing release lever 76Y to the locking position. Further, when the toner container 32Y is removed, prior to the removal, the fixing release lever 76Y is moved from the locking position to the release position to enable the removal, and the movement is detected by the lever position sensor 79Y. If this happens, the drive of the drive motor 92Y is immediately stopped. Data reading / writing with respect to the RFID tag is also performed at the same timing. In such a configuration, the drive motor 92Y starts to be driven before the toner container 32Y is moved to the mounting position when the toner container 32Y is set, or the drive motor 92Y remains driven when the toner container 32 is removed. There is no possibility of removing the toner container 32Y and causing an overcurrent to flow through the drive motor 92Y. Therefore, it is possible to avoid the occurrence of damage to the drive motor 92Y, the drive coupling 91Y, and the drive input unit 32Y2b due to the drive motor 92Y being driven at an inappropriate timing.

  FIG. 42 is an enlarged perspective view showing the holding and moving member 790Y for Y in the toner container fixing portion 70 shown in FIG. As shown in FIGS. 9 and 10, the holding and moving member 790 </ b> Y is provided to be slidable in the attaching / detaching direction of the toner container in the Y cap holding part of the lower front case in the toner container fixing part. . As shown in FIG. 10, in a state where a Y toner container (not shown) is set at the mounting position in the Y cap holding portion, the toner container insertion direction against the urging force of the coil spring 799Y as the urging means. It stops at the position where it has been slid and moved to the back.

  In FIG. 42, the Y holding / moving member 790Y holds the Y reading / writing device 791Y. This read / write device 791Y performs data read / write processing on the RFID tag of the electronic board 32Y1f fixed to the cap portion 32Y1 of the Y toner container shown in FIG. 24, FIG. Yes, based on a command from a control unit (not shown), these processes are executed. The read / write device 791Y for Y includes a main body unit and a communication unit 791Ya. The main body is held on the upper surface of the Y holding and moving member 790Y. On the other hand, the communication unit 791Ya for performing short-range wireless communication with the RFID is held on the front side surface of the holding and moving member 790Y, and is electrically connected to the main body via an electric wire.

  When the Y toner container 32Y (see FIG. 24) is attached to the Y cap holding part of the toner container fixing part 70 (see FIG. 8), the lower bulge in the cap part 32Y1 of the toner container 32Y is It abuts against the front side surface of the Y holding and moving member 790Y. As the operator inserts the toner container, the cap portion 32Y1 of the toner container 32Y slides toward the mounting position while pressing the Y holding and moving member 790Y. As a result, the Y holding and moving member 790Y slides in the container insertion direction against the biasing force of the coil spring 799Y from the position when the container is not mounted as shown in FIG. 9 or FIG. The position at the time of container mounting shown in FIG. At this time, as shown in FIG. 10, the nozzle 72 </ b> Y is passed through the nozzle penetration opening 792 </ b> Y provided on its front side surface, and the tip of the nozzle 72 </ b> Y is exposed to the outside. The exposed nozzle 72Y enters the nozzle insertion port 32Y1j of the cap portion 32Y1 shown in FIG.

  As shown in FIG. 45, in a state where the toner container 32Y is set at the mounting position of the Y cap holding part, the electronic substrate 32Y1f fixed to the cap part 32Y1 of the toner container 32Y and the Y holding moving member The communication unit 791Ya held in 790Y is in close contact with each other, and short-range wireless communication between the two becomes possible. In this state, when the fixing release lever 76Y shown in FIG. 10 is moved from the shown release position to the locking position shown in FIG. 9 and the toner container 32Y is locked at the mounting position, the lever position sensor 79Y. Detects the release lever 76Y. Based on this detection signal, the control unit sends a command for reading / writing data to / from the RFID of the electronic board 32Y1f to the reading / writing device 791Y as necessary.

  As shown in FIG. 45, in a state where the toner container 32Y is locked at the mounting position, the toner container 32Y is biased in the removal direction by the coil spring 799Y via the holding and moving member 790Y. . However, when the fixing release lever 76Y is in the locking position, the locked state is maintained in the mounting position. From this state, when the fixation release lever 76Y is moved to the release position by the operator, the toner container 32Y that has been hitting the fixation release lever 76Y until then is pushed in the removal direction by the urging force of the coil spring 799Y. It jumps out from the toner container insertion port 71Y shown in FIG. The operator can easily grasp the cap portion 32Y1 of the toner container 32Y protruding from the toner container insertion port 71Y and easily pull out the toner container 32Y from the Y cap holder.

  Thus, for the purpose of improving the detachability of the toner container 32Y, the fixing release lever 76Y is moved from the locking position to the release position, and at the same time, the toner container 32Y is inserted into the toner container by the urging force of the coil spring 799Y. When adopting a configuration of jumping out from the mouth 71Y, the following fears arise. That is, based on the fact that the control unit no longer receives the lever detection signal sent from the lever position sensor 79Y, a reading process or a writing process stop signal is transmitted to the read / write device 791Y, and then the electronic board A time lag of about 0.2 to 0.3 seconds occurs before the reading process or the writing process for the 32Y1f RFID tag is actually stopped. On the other hand, when the toner container 32Y vigorously jumps out of the toner container insertion port 71Y at the moment when the fixing release lever 76Y is moved to the release position, the electronic substrate 32Y1f of the toner container 32Y and the electronic container 32Y1f are shorter than the above-described time lag. Then, the communication unit 791Ya held by the holding and moving member 790Y is separated from the communication unit 791Ya, and communication between the read / write device 791Y and the RFID tag may be disabled.

  Therefore, in the printer according to the embodiment, the holding and moving member 790Y holding the read / write device 791Y is closely attached to the cap portion 32Y1 in the Y cap holding portion serving as a guide path, and follows the cap portion 32Y1 in the attaching / detaching direction. I try to move it. In such a configuration, at the moment when the fixing release lever 76Y is released, not only the toner container 32Y but also the holding and moving member 790Y is moved in the container taking-out direction by the biasing force of the coil spring 799Y. A certain amount of time lag is provided until 32Y1f and the communication unit 791Ya are separated from each other. This enables communication between the read / write device 791Y and the RFID tag for the time required from the moment until the reading or writing process to the RFID tag is actually stopped, and the communication is cut off before the stop. Can be avoided.

  FIG. 46 is a flowchart illustrating a process flow of an operable flag setting process performed by the control unit of the printer according to the embodiment. This control unit includes a CPU (Central Processing Unit) as a calculation means, a RAM (Random Access Memory) as a data storage means, a ROM (Read Only Memory) as a data storage means, etc., and a program stored in the ROM Based on the above, the drive of each device is controlled. The operable flag setting process performed by the control unit is repeatedly performed when the main switch of the printer is turned on, and is individually performed for each of the colors Y, C, M, and K. The First, an output from the lever position sensor (step 1: hereinafter, step is referred to as S) and presence / absence of detection of mounting of the toner container (S2) are determined. Then, only when the output from the lever position sensor is ON and the installation of the toner container is detected (Y in S1 and Y in S2), the operable flag is set to ON (S3). In other cases, the operable flag is set to OFF (S4).

  The reading / writing device for each color (for example, 791Y) is always ON with respect to the above-described operable flag during the reading process and the writing process for the RFID tag based on a command from the control unit. To monitor. When the operable flag is changed from ON to OFF, the reading process and the writing process being performed are immediately forcibly stopped. There is a time lag of about 0.2 to 0.3 seconds between the detection of the operable flag changing from ON to OFF and the actual stop of the reading process or writing process. During this time, for example, in the case of the Y toner container 32Y, the cap 32Y1 of the toner container 32Y slides in the container take-out direction with the urging force of the coil spring 799Y, and the holding and moving member 790Y also slides in the same direction. By moving, the close contact state between the electronic substrate 32Y1f of the cap part 32Y1 and the communication part 791Ya on the holding and moving member 790Y is maintained. Accordingly, the communication state between the read / write device 791Y and the RFID tag can be maintained until the reading process and the writing process are forcibly stopped.

Next, a printer according to a first modification will be described. Unless otherwise specified below, the configuration of the printer according to the first modification is the same as that of the embodiment.
The toner container (for example, 32Y) of each color of the printer according to the first modification stores various information such as the container manufacturing number, the number of recycling, the lot number, the toner color, the usage history of the housing 100, and the remaining amount of toner. As the information storage means, information that is read and written by wired communication is used. Unlike the printer according to the embodiment, the read / write device that reads / writes data from / to the information storage unit does not include a communication unit for performing short-range wireless communication. Instead, a connector as a connection means for connecting the electric wire from the read / write device to the outside is provided. This connector is held on the front side surface of the holding and moving member (for example, 790Y) similarly to the communication unit.

  On the other hand, the cap portion (for example, 32Y1) of the toner container includes a connector as a connection means for connecting the electric wire from the information storage means to the outside. This connector is provided at the same position as the electronic board (for example, 32Y1f) of the printer according to the embodiment. When the toner container is set at the mounting position of the cap holding part, the connector of the cap part of the toner container and the connector on the front side surface of the holding moving member are engaged to form an electrical contact. Via this electrical contact, communication between the information storage means and the read / write device becomes possible. As in the printer according to the embodiment, when the fixing release lever is moved to the release position, the toner container slides in the take-out direction vigorously by the biasing force of the coil spring. Since it slides, a certain amount of time lag occurs before the two connectors are disengaged. With this time lag, it is possible to earn time until the reading process or the writing process is forcibly stopped.

  Next, a printer according to a second modification will be described. Similarly to the printer according to the first modification, the toner container (for example, 32Y) of each color of the printer according to the second modification uses an information storage unit that reads and writes information by wired communication. The difference from the printer according to the first modification is the configuration of connection means for electrically connecting the information storage means and the read / write device. Of the colors, Y will be described as an example. As shown in FIG. 47, the Y toner container (32Y) is mounted with an electronic substrate 32Y1f having an IC chip 32Y1f-1 as information storage means. doing. As shown in FIG. 48, the IC chip 32Y1f-1 includes three electrode pads 32Y1f-1a exposed to the outside.

  On the other hand, as shown in FIG. 49, the holding / moving member 790Y includes a reading / writing device 791Y including a connection board 791Yb serving as a connection means instead of a communication unit that performs wireless communication. As shown in FIG. 50, the connection substrate 791Yb includes three electrode pads 791Yb-1, which are individually provided on the three electrode pads 32Y1f-1a of the IC chip 32Y1f-1 shown in FIG. It corresponds to. The electrode pad 32Y1f-1a of the connection substrate 791Yb and the electrode pad 32Y1f-1a of the IC chip 32Y1f-1 have the same size (length 6 mm × width 2 mm × thickness 1 mm). Three are arranged with a gap of 1.5 mm.

  When the Y toner container (32Y) is attached to the Y cap holding part of the toner container fixing part (70), as shown in FIG. 51, the three electrodes on the connection substrate 791Yb of the holding and moving member (790Y) The pad 791Yb-1 is in close contact with the three electrode pads 32Y1f-1a in the IC chip 32Y1f-1 of the toner container (32Y) to form an electrical contact. Thereby, the main-body part of a reading / writing apparatus is electrically connected to IC chip (32Y1f-1) via an electrical contact.

  In such a configuration, the electrical contact is formed without engaging the connectors. As a result, the toner container can be smoothly attached and detached without generating load resistance due to insertion and removal of the connector.

Next, a specific example printer in which a more characteristic configuration is added to the printer according to the second modification will be described.
In the printer according to the second modified example, in order to remove the toner container (32Y), the toner container (32Y) and the holding and moving member (790Y) slide vigorously in the container removal direction by the biasing force of the coil spring (799Y). When moving, if there are subtle irregularities in the slide movement path or foreign matter adhesion, the toner container (32Y) or the holding and moving member (790Y) may be rattled. According to the experiments by the present inventors, when such a backlash occurs, a conduction failure due to poor adhesion occurs between the electrode pad 791Yb-1 of the connection substrate 791Yb and the electrode pad 32Y1f-1a of the IC chip 32Y1f-1. As a result, there was a problem in communication between the two.

Therefore, in the printer of the specific example, in order to suppress the occurrence of such communication failure, a conductive sponge is pasted on the surface of the electrode pad 791Yb-1 of the connection board.
FIG. 52 is a cross-sectional view showing the connection board 791Yb mounted on the Y holding and moving member of the printer according to the second modification. In the drawing, a conductive double-sided tape 791Yb-2 is affixed to the surface of the electrode pad 791Yb-1 formed on the connection substrate 791Yb, and the conductive double-sided tape 791Yb-2 has a conductive surface. A sponge 791Yb-3 is attached. As shown in FIG. 53, the electrode pad 791Yb-1 of the connection substrate 791Yb is connected to the IC of the toner container via a conductive double-sided tape 791Yb-2 and a conductive sponge 791Yb-3 attached on the surface. The chip 32Y1f-1 is brought into close contact with the electrode pad 32Y1f-1a. Even when the distance between the connection substrate 791Yb and the electronic substrate 32Y1f of the toner container is slightly changed due to the conductive sponge 791Yb-3 being freely deformed in the thickness direction, the electrode pad 32Y1f of the IC chip 32Y1f-1 is changed. -1a and the electrode pad 791Yb-1 of the connection substrate 791Yb are maintained in a favorable state.

  In the printer according to the specific example, when the toner container (32Y) and the holding and moving member (790Y) are slid swiftly in the container removal direction by the urging force of the coil spring (799Y), An experiment was conducted to intentionally rattle the container (32Y) and the holding and moving member (790Y). Then, even if the toner container and the holding and moving member are largely tilted, the electrode pad 791Yb-1 of the connection substrate 791Yb and the electrode pad 32Y1f-1a of the IC chip 32Y1f-1 are made to conduct well, and the IC chip 32Y1f. -1 and the read / write device 791Y can be secured satisfactorily.

  In the printer according to the specific example, the conductive sponge conductive sponge 791Yb-3 is used as the conductive elastic body. However, a conductive brush made of an infinite number of conductive brushes may be used. Further, although the conductive elastic body is fixed on the surface of the electrode pad by the conductive double-sided tape, it may be fixed by a conductive adhesive or the like. Further, instead of fixing the electroelastic body on the surface of the electrode pad 791Yb-1 of the connection substrate 791Yb, it may be fixed on the surface of the electrode pad of the IC chip.

3Y, C, M, K: Image forming section (image forming means)
31: Container storage part (mounting part)
32Y, C, M, K: Toner container (powder container)
71Y, C, M, K: Toner container insertion slot (guide path)
76Y: Fixing release lever (locking member)
79Y: Lever position sensor (locking detection means)
91Y: Drive coupling (part of drive means)
92Y, C, M, K: Drive motor (part of drive means)
790Y: Holding movement member (holding movement means)
799Y: Coil spring (biasing means)

JP 2009-288274 A

Claims (9)

A mounting unit to which a powder container for storing powder is mounted, and a predetermined mounting in the mounting unit from the outside of the apparatus housing when the powder container is attached to and detached from the mounting unit. A guide path for guiding toward the position or vice versa from the mounting position toward the outside of the device housing, and applying a driving force to the powder container at the mounting position to provide the powder. Drive means for urging discharge of powder from the body container, and data read / write means for performing data read processing and write processing on the information storage means of the powder container at the mounting position In powder processing equipment,
A locking member movable between a locking position for locking the powder container at the mounting position and a release position for releasing the locking;
A locking detection means for detecting whether or not the locking member is in a locking position;
When the powder container is mounted on the mounting portion, the reading process and the writing process until the locking detection means detects that the locking member is in the locked position. When the powder container is removed from the mounting portion, the engagement detection unit is engaged with the engagement member from the state in which the engagement detection unit detects that the engagement member is in the engagement position. The data read / write means is configured to perform a process for forcibly stopping the read process and the write process based on a change to a state in which it is detected that the vehicle has been saved from a stop position ,
When the powder container is mounted on the front Symbol mounting portion, to form two sliding portions for rubbing the front end surface of the locking member at different positions from each other in said powder container,
The powder processing apparatus, wherein when the powder container is mounted on the mounting portion, the front end surface of the locking member is simultaneously pressed against the two rubbing portions. In the powder processing apparatus of Claim 1,
As the information storage means, using an integrated circuit capable of short-range wireless communication,
A powder processing apparatus comprising a communication unit that performs near field communication with the integrated circuit as the data read / write means. In the powder processing apparatus of Claim 1,
As the information storage means, one that communicates with the data read / write means by wired communication,
A powder processing apparatus comprising a connecting means for electrically connecting the data read / write means to the information storage means of the powder container at the mounting position via an electrical contact. In the powder processing apparatus of Claim 3,
As the information storage means, one having an electrode pad exposed to the outside is used,
As the connection means, an electrode pad corresponding to the electrode pad of the information storage means is provided, and the data read / write means is connected to the information read / write means through an electrical contact by contact between the electrode pad of the information storage means and the electrical pad of the information storage means. A powder processing apparatus using an electrical connection to the storage means. In the powder processing apparatus of Claim 4,
As the information storage means, a conductive elastic body fixed on the surface of its own electrode pad is used, or as the connection means, a conductive elastic body is fixed on the surface of its own electrode pad. Use things
A powder processing apparatus, wherein the electrical contact is formed by bringing the electrode pad of the information storage means and the electrode pad of the connection means into close contact with each other via the conductive elastic body. In the powder processing apparatus according to any one of claims 2 to 5,
The powder is disposed in the guide path so as to be movable in the powder container attaching / detaching direction, and holds the powder in the guide path while holding at least the communication unit in the data read / write unit or holding the connection unit. Holding movement means for moving in the container attaching / detaching direction is provided, and the powder holding container is brought into close contact with the holding moving means in the guide path, while the holding moving means follows the powder container in the attaching / detaching direction. A powder processing apparatus characterized by being moved. The powder processing apparatus according to claim 6, wherein
An urging means for urging the powder container at the locking position toward the guide path is provided, and the powder is moved in accordance with the movement of the locking member from the locking position to the release position. A powder processing apparatus, wherein the container and the holding and moving means are pushed out from the locking position into the guide path by the urging force of the urging means. In the powder processing apparatus according to any one of claims 1 to 7,
A plurality of combinations of the mounting portion, the guide path, the driving means, the locking member, and the locking detection means are provided, and the mounting positions of the plurality of powder containers respectively mounted on the mounting portions The powder processing apparatus is characterized in that the data read / write means is configured to individually perform the detection process of whether or not there is, the reading process, and the writing process. A toner processing device that is a powder processing device that prompts the discharge of powder from a toner container that contains toner that is powder, and an image formation that uses the toner replenished from the toner container to form a toner image An image forming apparatus comprising:
An image forming apparatus using the powder processing apparatus according to claim 1 as the toner processing apparatus.

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