JP2006293214A - Developing device and image forming apparatus with developing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a developing device designed such that only developer sufficiently stirred in a developing tank is discharged, a large quantity of developer is prevented from being discharged from a developer overflow opening even when the developing tank is inclined, thereby degradation in charging performance is hindered and copied image quality is kept satisfactory, and to provide an image forming apparatus having the developing device. <P>SOLUTION: A projecting part 40 into which developer can flows is formed on a sidewall 21c of the developing tank 21 of the developing device 20, the sidewall 21c having a developer discharge opening 33. The projecting part 40 incorporates: a rotatable developer discharge regulating member 41 disposed adjacent to the sidewall 21c of the developing tank 21 and having an opening 42; and an excessive discharge restricting member 43 disposed adjacent to the developer discharge regulating member 41 and having an opening 44. The openings 33, 42 and 44 are disposed so as not to simultaneously communicate with each another. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a developing device that is used in an image forming apparatus such as a copying machine, a printer, a facsimile machine, and a multifunction machine and develops an electrostatic latent image formed on an image carrier with toner.

  2. Description of the Related Art Conventionally, for example, in an image forming apparatus such as a dry copying machine, a developing device that visualizes (develops) an electrostatic latent image on the surface of a photoreceptor (image carrier) with a two-component developer composed of a carrier and toner. It is used a lot. In a developing device that performs development with such a two-component developer, the toner is consumed by the developing operation, while the carrier is not consumed and remains in the developing tank. Therefore, the carrier agitated with the toner in the developing tank deteriorates as the agitation frequency increases, causing phenomena such as peeling of the resin coat layer on the surface and adhesion of the toner to the surface. Charging performance gradually decreases.

Therefore, an apparatus is disclosed in which, in addition to replenishment of toner consumed by the developing operation, the carrier is also replenished in small amounts in the developing tank so that deterioration in charging performance can be suppressed (see, for example, Patent Document 1). ). In this apparatus, the developer in the developing tank that has become excessive due to the replenishment of the carrier overflows and is discharged from the developer overflow outlet provided on the wall surface of the developing tank, and is collected in the developer collecting container. By sequentially repeating such replenishment / discharge of the developer, the deteriorated developer in the developing tank is replaced with newly supplied toner and carrier, thereby maintaining the charging performance and improving the copy image quality. It is designed to suppress the decline.
Japanese Patent Publication No. 2-21591

  However, in the developing device described in Patent Document 1, since the developer overflow outlet is simply provided on the side wall of the developing tank, the fresh developer supplied to the developing tank is sufficiently stirred in the developing tank. However, the developer may be discharged from the developer overflow outlet as it is, and there is a problem that the developer in the developing tank is not sufficiently replaced.

  Furthermore, it is difficult to discharge the developer in the designed amount due to the inclination of the developing tank. For example, when the copying machine is moved and the developing tank is tilted so that the opposite side of the developer overflow port becomes high, or when the copying machine is installed in a place where the ground condition is poor, for example, When the copying machine is installed in an inclined state, such as when installed on an inclined desk, a large amount of developer may be discharged from the developer overflow outlet. In such a case, there is a problem that the developer in the developing tank is greatly reduced with respect to an appropriate amount, and as a result, it is impossible to obtain an image with good copy quality.

  The present invention has been made in view of the problems of the prior art as described above, and can discharge only the developer sufficiently stirred in the developing tank, and even when the developing tank is inclined. A developing device capable of preventing a large amount of developer from being discharged from the developer overflow outlet and thereby maintaining a good copy image quality while suppressing a decrease in charging performance, and an image forming apparatus including the developing device The purpose is to provide.

  In the present invention, means for solving the above-described problems are configured as follows. That is, a developer container that contains a developer composed of toner and a carrier therein, an agitating / conveying member that stirs and conveys the developer in the developer container, and a latent image carrier are rotatably disposed. And a developer carrier for carrying and transporting the developer, the developer container having a replenishment opening for replenishing a new developer including a carrier, and a developer contained in the developer container. In the developing device in which a developer discharge opening for discharging excess developer according to the surface height is formed, the developer discharge opening is downstream in the developer transport direction of the developer container by the stirring transport member And a developer discharge mechanism that can intermittently discharge the developer in the developer container from the developer discharge opening is provided on the side wall.

  According to the developing device having such a configuration, even when the developing container is tilted, the developer in the developing container is only discharged intermittently from the developer discharging opening, so that excessive developer discharging can be regulated. It becomes possible. As a result, the developer amount in the developing container can always be kept constant, and the toner concentration in the developing container can be kept constant. As a result, the copy image quality in the image forming apparatus can be kept good. it can.

  In the developing device of the present invention, the developer discharge mechanism section is provided with a space into which the developer in the developer container can flow from the developer discharge opening. The developer discharge opening is disposed at a position where the developer discharge opening is included in the area of the developer discharge mechanism portion, and is adjacent to the side wall of the developer container and has an opening formed therein. A discharge restriction member and an excessive discharge restriction member having an opening formed adjacent to the developer discharge restriction member are provided, and the developer discharge opening and the development are rotated by rotation of the developer discharge restriction member. When the opening of the developer discharge restricting member communicates with each other, the developer can be moved from the developer discharge opening to the opening of the developer discharge restricting member, and the opening of the developer discharge restricting member and the excessive discharge restricting member can be moved. The openings of the members When communicated, the developer can be moved from the opening of the developer discharge regulating member to the opening of the excessive discharge regulating member, and further, the developer discharge opening, the opening of the developer discharge regulating member, and the excessive discharge regulation All the openings of the members are configured not to communicate with each other at the same time.

  According to the developing device having such a configuration, when the developer discharge restriction member and the opening of the developer discharge restriction member communicate with each other due to the rotation of the developer discharge restriction member provided in the developer discharge mechanism, the developer discharge When the developer flows out from the opening to the developer discharge mechanism and is not in communication with each other, conversely, the developer discharge restricting member is blocked by a portion other than the opening, so that the developer discharge from the developer discharge opening. The developer does not flow out to the mechanism. The developer discharge amount and discharge time overflowing from the developer discharge opening can be regulated according to the number of openings and the opening area of the developer discharge regulating member, and a new replenished carrier development can be performed. The stirring time of the agent can be adjusted. As a result, it is possible to discharge only the developer that has been replenished with the new developer including the carrier and is sufficiently stirred, and to prevent the replenished developer from being discharged from the discharge port as it is.

  Further, when the developer discharge restriction member rotates and the opening of the developer discharge restriction member communicates with the opening of the excessive discharge restriction member, the developer from the opening of the developer discharge restriction member to the opening of the excessive discharge restriction member On the other hand, when they are not in communication with each other, the developer is blocked by a portion other than the opening of the excessive discharge regulating member, so that the developer cannot be moved. Then, it is possible to adjust the discharge amount and discharge time of the developer transferred from the developer discharge restriction member according to the number of openings and the opening area of the excessive discharge restriction member.

  Furthermore, even if the developer discharge regulating member rotates, all the openings do not communicate with each other at the same time, so that excessive developer discharge can be regulated. That is, even when the developer container is inclined, only the developer discharged from the developer container to the developer discharge regulating member is discharged, in other words, the developer in the developer container is discharged only intermittently from the developer discharge opening. Therefore, it is possible to regulate the excessive developer discharge. As a result, the developer amount in the developing container can always be kept constant, and the toner concentration in the developing container can be kept constant. As a result, the copy image quality in the image forming apparatus can be kept good. it can.

  In the developing device of the present invention, the opening of the developer discharge regulating member is formed as at least one through hole or notch, and the opening area of the through hole or notch is the developer discharge opening. The opening area is the same as or larger than the opening area.

  According to the developing device having such a configuration, the discharge amount and discharge time of the developer overflowing from the developer discharge opening can be regulated according to the number of openings and the opening area of the developer discharge regulating member, In addition, the stirring time of the replenished new carrier developer can be adjusted. As a result, it is possible to discharge only the developer that has been replenished with the new developer including the carrier and is sufficiently stirred, and to prevent the replenished developer from being discharged from the discharge port as it is. Further, since the opening area of the opening of the developer discharge regulating member is the same as or larger than the opening area of the developer discharge opening, the developer overflowing from the developer discharge opening can be developed more smoothly and reliably. It becomes possible to move to the opening of the agent discharge regulating member.

  In the developing device of the present invention, the opening of the excessive discharge restricting member is formed as at least one through hole or notch, and the opening area of the through hole or notch is equal to the developer discharge restricting member. It is characterized by being formed to be equal to or larger than the opening area of the opening.

  According to the developing device having such a configuration, it is possible to adjust the discharge amount and discharge time of the developer transferred from the developer discharge restriction member according to the number of openings and the opening area of the excessive discharge restriction member. . Further, since the opening area of the opening of the excessive discharge restricting member is the same as or larger than the opening area of the opening of the developer discharging restricting member, the developer transferred from the developer discharge restricting member is smoother and more reliable. It becomes possible to move to the opening of the excessive discharge regulating member.

  In the developing device of the present invention, the space adjacent to the excessive discharge regulating member inside the developer discharge mechanism rotates in conjunction with the developer discharge restricting member, and the excessive discharge is discharged into the space. Discharge means is provided for conveying the developer transferred from the opening of the regulating member toward the discharge opening formed at the bottom of the developer discharge mechanism and discharging the developer from the discharge opening. .

  According to the developing device having such a configuration, the developer transferred in the space from the opening of the excessive discharge regulating member is discharged by forcibly conveying the developer in the space toward the discharge opening by the discharge unit and discharging the developer. It is possible to prevent the excessive discharge restricting member from being blocked by accumulating inside. Thereby, it is possible to satisfactorily recover the excess developer in the developing container. In addition, there is a degree of freedom in the installation position of the developer collection container for collecting the developer.

  In the developing device of the present invention, the rotation of the developer discharge restricting member is performed by a developing unit driving source that rotationally drives the stirring and conveying member and the developer carrying member.

  According to the developing device having such a configuration, the driving source of the developer discharge regulating member is shared with the developing unit driving source that rotationally drives the agitating / conveying member and the developer carrying member, so that an independent driving source becomes unnecessary. Cost can be reduced.

  In the developing device of the present invention, the rotation of the developer discharge regulating member is performed by an independent drive source that is separate from the developing unit drive source that rotationally drives the stirring and conveying member and the developer carrier. It is characterized by.

  According to the developing device having such a configuration, it becomes possible to control the drive source of the developer discharge regulating member independently of the developing unit drive source that rotationally drives the agitating and conveying member and the developer carrier. . This makes it possible to finely set the intermittent drive and rotation time of the developer discharge regulating member, so that finer developer discharge control is possible, and the developer amount in the developer container can be easily kept constant. Furthermore, the toner density in the developing container can be kept constant, and the image quality of the image forming apparatus can be maintained well.

  In the developing device of the present invention, the developer discharge regulating member is rotationally driven by a drive source of a developer replenishing device that replenishes the developer container with a new developer including a carrier.

  According to the developing device having such a configuration, the new developer replenishment timing to the developer container is equal to the developer discharge timing in the developer discharge mechanism. Then, the rotation of the developer supply member of the developer supply device and the developer discharge restriction member of the developer discharge mechanism unit so that the new developer supply amount becomes equal to the developer discharge amount of the developer discharge mechanism unit. By setting the number, it becomes possible to always keep the developer amount in the developing container constant and to maintain the toner concentration in the developing container constant. As a result, the image quality in the image forming apparatus is improved. Can be maintained.

  Further, in the developing device of the present invention, the developer discharging mechanism portion is configured such that the rotating shaft of the developer discharging regulating member causes the developer to face the side wall of the developing container on which the developer discharging opening is formed. It arrange | positions so that it may be on the same straight line as the rotating shaft of the stirring conveyance member to convey.

  According to the developing device having such a configuration, when the developer is discharged to the developer discharge mechanism, the developer discharge opening is located at a position where the developer flow due to the rotation of the stirring and conveying member can be actively used. It will be formed. Accordingly, it is possible to improve the developer discharge response with respect to the replenishment amount of the new developer replenished from the replenishment opening.

  In the developing device of the present invention, the developer discharge mechanism conveys the developer from the rotation shaft of the developer discharge regulating member toward the side wall of the developer container where the developer discharge opening is formed. Of the second agitating and conveying member that conveys the developer in a direction opposite to the first agitating and conveying member from the distance to the rotating axis of the first agitating and conveying member and the rotation axis of the developer discharge regulating member. It is characterized by being arranged at a position where the distance to the rotation axis is equal.

  According to the developing device having such a configuration, the developer around the developer discharge opening is less likely to be directly affected by the developer conveying force by the first and second agitating / conveying members. Difference variation is stable and stable. Accordingly, it is possible to stably overflow the overflow developer from the developer discharge opening.

  In the developing device of the present invention, the developer discharge regulating member is formed of a polyacetal resin.

  According to the developing device having such a configuration, it is possible to reduce the adhesion of the developer to the developer discharge regulating member by forming the developer discharge regulating member from the polyacetal resin. This is because the polyacetal resin has a higher molecular weight than a generally used resin such as an ABS resin and has a stable molecular bond, and thus has excellent slidability. In addition, since the polyacetal resin is superior in durability to the resin such as ABS resin, the durability of the developer discharge regulating member can be improved. Therefore, the developer can be discharged stably.

  Further, in the developing device of the present invention, when the developer moves to a portion other than the opening on the front and back surfaces of the developer discharge regulating member, between the side wall of the developer container and the developer discharge regulating member, and A developer leakage preventing member for preventing the developer from entering is provided between the developer discharge regulating member and the excessive discharge regulating member.

  According to the developing device having such a configuration, the developer discharge restricting member is caused by the developer that has entered between the side wall of the developer container and the developer discharge restricting member or between the developer discharge restricting member and the excessive discharge restricting member. Therefore, the developer discharge regulating member can be smoothly rotated, and the developer can be discharged stably.

  The image forming apparatus of the present invention includes the developing device of the present invention having the above-described configuration. That is, the present invention is not limited to a developing device, but includes an image forming apparatus (a copying machine, a printer, a facsimile machine, a multifunction machine, etc.) to which the developing device of the present invention is applied. According to such an image forming apparatus of the present invention, the same operations and effects as the above-described developing device of the present invention are exhibited.

  Since the present invention is configured as described above, it is possible to discharge only the developer that has been sufficiently stirred in the developer container, and even if the developer container is inclined, a large amount of developer can be developed from the developer discharge opening. It is possible to prevent the agent from being discharged, and thereby it is possible to suppress a decrease in charging performance and maintain a good copy image quality in the image forming apparatus.

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

  FIG. 1 is a diagram showing a schematic configuration of a copying machine to which a developing device according to an embodiment of the present invention is applied. As shown in FIG. 1, a document placing table 1 is provided on the upper surface of the copying machine, and an exposure optical system 2 is disposed below the document placing table 1. The exposure optical system 2 guides a light source lamp 3 that scans while irradiating a document (not shown) placed on the document placing table 1, and a reflected light from the document to a photosensitive member (image carrier) 4. It comprises a plurality of reflecting mirrors 5, 5,... And a lens unit 6 arranged in the optical path of the reflected light.

  The photoreceptor 4 is disposed below the exposure optical system 2. A charging charger 7 for charging the surface of the photoconductor 4 to a predetermined potential, an image eraser (not shown), and a developing device 20 for developing an electrostatic latent image formed on the surface of the photoconductor 4 are provided on the outer periphery of the photoconductor 4. A transfer charger 9 for transferring the toner image on the surface of the photoconductor 4 to a sheet, a cleaning device 10 for collecting residual toner on the surface of the photoconductor 4, a static eliminator (not shown), and the like are provided.

  A timing roller 11, a transport roller 12, a paper feed cassette 13, and a paper feed roller 14 that supply paper at a predetermined timing are provided on the paper entrance side (upstream side in the paper transport direction) with respect to the photoreceptor 4. On the other hand, a fixing device 15 for fixing the toner image transferred onto the paper to the paper is provided on the paper exit side (downstream in the paper transport direction) with respect to the photoreceptor 4.

  Here, the developing device 20 will be described with reference to FIGS. 2, 3, and 4. The developing device 20 is configured as a developing device using a developer (two-component developer) composed of toner and carrier. As shown in FIGS. 2 and 3, the developing device 20 includes a developing tank 21 as a developing container, a developing roller 22 as a developer carrier, two agitating and conveying screws 23 and 24 as agitating and conveying members, and the like. Yes. The developing roller 22 and the agitating and conveying screws 23 and 24 are rotationally driven by a developing unit driving motor 51 which is a driving source of the developing device 20 (see FIG. 15).

  The developing tank 21 contains a developer composed of toner and carrier, and supports each member inside the developing tank 21. In this developing tank 21, the toner and the carrier are mixed and stirred. In the developing tank 21, the toner and the carrier are mixed at a predetermined ratio. As the carrier, for example, a carrier in which a resin coat layer for imparting chargeability or suppressing adhesion of toner is provided on the surface of magnetic particles can be used. A resin carrier in which magnetic fine powder is dispersed in resin particles can also be used.

  The developing roller 22 is disposed close to or in contact with the photoreceptor 4 (FIG. 1). The developing roller 22 can be constituted by, for example, a magnet roller having a plurality of magnet bodies and a cylindrical developing sleeve that encloses the magnet roller. A magnet roller is rotatably supported on both side walls of the developing tank 21, and a developing sleeve is rotatably fitted to the magnet roller.

  The developing roller 22 supplies toner to the photoconductor 4 and develops the electrostatic latent image formed on the surface of the photoconductor 4. At this time, the developing roller 22 adsorbs the carrier in the developing tank 21 by magnetic force, forms a magnetic brush, and conveys it. Then, development is performed by supplying the toner adhering to the carrier to the photoreceptor 4 by Coulomb force. A doctor 29 is provided to regulate the height of the magnetic brush head, that is, the layer thickness of the developer.

  The agitating and conveying screws 23 and 24 are for agitating and conveying the developer in the developing tank 21. The agitating and conveying screws 23 and 24 are rotatably supported on both side walls of the developing tank 21 via bearings (not shown). The toner and the carrier are agitated by the rotation of the agitating and conveying screws 23 and 24, and the toner is frictionally charged.

  A partition wall 21 b is formed between the two agitating and conveying screws 23 and 24. The partition wall 21 b is fixed substantially perpendicular to the bottom surface of the developing tank 21, and the upper end position thereof is at least higher than the height of the developer surface in the developing tank 21. Further, gaps are provided between both side ends of the partition plate 21 b and both side walls of the developing tank 21. Part of the developer transport path by the stirring and transporting screws 23 and 24 is separated by the partition wall 21b. Then, the developer accommodating portion of the developing tank 21 is divided into a first accommodating portion 25 in which one stirring / conveying screw 23 is disposed and a second accommodating portion 26 in which the other stirring / conveying screw 24 is disposed. It is divided into and. The first and second storage portions 25 and 26 are communicated with each other via communication portions 27 and 28 formed on both sides of the developing tank 21. The developer in the developing tank 21 is conveyed by the rotation of the agitating and conveying screws 23 and 24 so as to circulate between the first and second accommodating portions 25 and 26 as indicated by thick arrows in FIG. At this time, the developer is conveyed from one container to the other container through the communication parts 27 and 28.

  A developer supply replenishment opening 21a is formed in the upper wall portion of the developing tank 21, and a carrier developer replenishment unit (developer replenishment device) 30 is fitted into the replenishment opening 21a from above. The carrier developer supply unit 30 contains a developer in which toner and carrier are mixed in a predetermined ratio (hereinafter referred to as “carrier developer”). The carrier developer can be supplied to the developing tank 21 through the supply opening 21a.

  A carrier developer replenishing roller (developer replenishing member) 31 that is driven and controlled by a control device 32 (FIG. 5) is provided at the bottom (bottom) of the carrier developer replenishing unit 30. When the carrier developer supply roller 31 is rotationally driven, the carrier developer flows down by an amount corresponding to the drive time of the carrier developer supply roller 31 and is supplied to the developing tank 21 through the supply opening 21a. . As described above, the carrier developer supplied to the developing tank 21 from the carrier developer supply unit 30 is mixed with the developer already in the developing tank 21 and stirred by the rotation of the stirring and conveying screws 23 and 24.

  Further, a developer discharge opening 33 for discharging the developer is formed in the left and right side walls of the developing tank 21 (in FIG. 2, the side wall 21c on the communication portion 27 side). The developer discharge opening 33 discharges excess developer generated by replenishment of the carrier developer from the carrier developer replenishment unit 30 in the developer tank 21 and keeps the developer amount in the developer tank 21 constant. It is provided as follows. From the developer discharge opening 33, the excess developer in the developing tank 21 is overflowed (by overflowing) according to the surface height of the developer stored in the developing tank 21 (indicated by a one-dot chain line in FIG. 4). ) Discharged and collected in a developer collection container (not shown). In this example, excess developer discharged due to overflow flows into the protrusion 40 and is then collected in the developer collection container. Details of the protrusion 40 will be described later.

  Further, the developing tank 21 is provided with a toner concentration sensor 34 that detects the toner density in the developing tank 21. The toner concentration sensor 34 is composed of a magnetic permeability sensor and detects the magnetic permeability by contacting the carrier, and the ratio of the toner to the carrier is obtained from the detected magnetic permeability. For example, when the amount of carrier contacting the toner concentration sensor 34 is small, it is detected that the toner ratio is high, and when the amount of carrier contacting the toner concentration sensor 34 is large, it is detected that the toner ratio is low. The detection signal of the toner density sensor 34 is input to the control device 32, and the carrier developer supply roller 31 of the carrier developer supply unit 30 is driven based on the detection signal. As a result, the carrier developer is supplied from the carrier developer supply unit 30 to the developing tank 21.

  Next, a copying operation (copying operation) in the copying machine having the above configuration will be described with reference to FIGS.

  When a power switch (not shown) of the copying machine is turned on, a warm-up process is first performed. When the copy start switch 35 is turned on after this is completed, a copy image corresponding to the original image is formed on the paper by the image forming unit. Specifically, the document placed on the document placing table 1 is scanned by the light source lamp 3 of the exposure optical system 2. Then, the reflected light from the original at this time is applied to the photoconductor 4 through the reflecting mirrors 5, 5,... And the lens unit 6. As a result, an electrostatic latent image is formed on the surface of the photosensitive member 4 charged to a predetermined potential by the charging charger 7. Next, the electrostatic latent image on the surface of the photoconductor 4 is developed with toner supplied from the developing device 20. The toner image on the surface of the photosensitive member 4 is transferred to a sheet supplied from the sheet feeding cassette 13 by the transfer charger 9 and is thermally fixed on the sheet by the fixing device 15. As a result, a copy image corresponding to the original image is formed on the paper.

  A series of copying operations in such a copying machine is controlled by a control device 32 comprising a microcomputer. As described above, when the copy start switch 35 is turned on, an ON operation signal of the copy start switch 35 is input to the control device 32. Further, a copy counter 36 for counting the cumulative number of copying operations in the copying machine is further provided, and the count value of the copy counter 36 is input to the control device 32.

  When the copying operation as described above is repeated in the copying machine, the toner contained in the developer contained in the developing tank 21 of the developing device 20 is gradually consumed by the developing operation, but the carrier is not consumed. Remains in the developing tank 21. Therefore, in the developing tank 21, the ratio of the toner to the carrier, that is, the toner concentration gradually decreases.

  As described above, the developing tank 21 is provided with the toner density sensor 34 that detects a change in toner density, and the drive control of the carrier developer supply roller 31 based on the detection of the toner density of the toner density sensor 34 is performed. This is performed by the control device 32. In other words, based on the detection signal from the toner density sensor 34, the control device 32 supplies the carrier developer when the toner density of the developer in the developing tank 21 is lowered to the lower limit of the appropriate range necessary for development. The driving of the roller 31 is started. As a result, the carrier developer of the carrier developer supply unit 30 is supplied to the developing tank 21, and the toner concentration in the developing tank 21 increases. When the toner density reaches the upper limit of the appropriate range, the driving of the carrier developer supply roller 31 is stopped.

  By such drive control of the carrier developer supply roller 31, the toner concentration in the developing tank 21 is maintained within the appropriate range. The carrier developer replenished from the carrier developer replenishing unit 30 by driving the carrier developer replenishing roller 31 is mixed and stirred with the developer already in the developing tank 21, and is controlled to a constant charge amount. It is supplied to the body 4 and used for development.

  The carrier developer replenished from the carrier developer replenishing unit 30 contains a carrier at a predetermined ratio in addition to the toner. This is due to the following reason. As described above, unlike the toner, the carrier in the developer in the developing tank 21 is not consumed and does not decrease by the developing operation. Therefore, the carrier is repeatedly used and gradually deteriorates due to stirring with the developing roller 22 and the stirring and conveying screws 23 and 24, contact with the photosensitive member 4, and the like. As described above, when the carrier is deteriorated, the charging performance is lowered, and a predetermined charge amount cannot be given to the toner, and the copy image quality in the copying machine is lowered. Therefore, in order to suppress such a decrease in charging performance, a new carrier is replenished in the developing tank 21 to replace (replace) the deteriorated carrier in the developing tank 21.

  Next, a configuration for discharging the developer in the developing device 20 will be described in detail.

  As described above, the developer discharge opening 33 for discharging the developer is formed on the left and right side walls of the developing tank 21. In FIG. 2, it is formed on the side wall on the communication portion 27 side, that is, on the side wall 21 c on the downstream side in the developer conveying direction by the stirring and conveying screw 23. As shown in FIGS. 2 and 6, a protruding portion 40 is provided on the side wall 21 c of the developing tank 21 on the side where the developer discharge opening 33 is formed. The protrusion 40 is provided as a developer discharge mechanism that can discharge the developer in the developer tank 21 intermittently from the developer discharge opening 33. The protrusion 40 is provided with a space into which the developer overflowed from the developer discharge opening 33 can flow. The developer that has flowed into the protruding portion 40 is recovered from the discharge opening 47 into a developer recovery container (not shown).

  As shown in FIG. 6, the inner wall of the protrusion 40 is formed in a bottomed cylindrical shape with one side (side wall 21c side of the developing tank 21) open and the other side closed. The cylindrical inner wall axis 40a (indicated by a one-dot chain line in FIG. 6) protrudes so as to coincide with the axis (indicated by a one-dot chain line in FIG. 6) of the rotating shaft 23a of the stirring and conveying screw 23. A portion 40 is provided. Further, as shown in FIGS. 6 and 7, the protrusion 40 is disposed so that the region inside the protrusion 40 includes the developer discharge opening 33 in a side view.

  As shown in FIG. 6, a developer discharge restriction member 41, an excessive discharge restriction member 43, and a discharge screw 45 are provided inside the protrusion 40. The developer discharge regulating member 41 is provided adjacent to the side wall 21c on the side of the developer tank 21 where the developer discharge opening 33 is formed. As will be described later, the developer discharge restricting member 41 is provided so as to be rotatable about an axis 40a of the inner wall of the above-described protrusion 40. An excessive discharge regulating member 43 is provided adjacent to the developer discharge regulating member 41. Unlike the developer discharge restriction member 41, the excessive discharge restriction member 43 is fixed to the inner wall of the protrusion 40.

  A region adjacent to the excessive discharge regulating member 43 inside the protrusion 40 is a space 46. The space 46 is provided with a discharge screw 45 as discharge means. The discharge screw 45 is disposed in the space 46 so that the axis of the rotation shaft 45 a coincides with the axis of the rotation shaft 23 a of the stirring and conveying screw 23. That is, the shaft center of the rotating shaft 45a of the discharge screw 45 is disposed so as to coincide with the shaft center 40a of the inner wall of the protrusion 40 described above. Further, the discharge screw 45 is provided to rotate in conjunction with the developer discharge regulating member 41 as will be described later. A discharge opening 47 is formed at the bottom of the inner wall of the protrusion 40 in which the space 46 is formed. Through the discharge opening 47, the developer is recovered in a developer recovery container (not shown).

  As shown in FIG. 7, the developer discharge regulating member 41 has an opening (through hole) 42 that is the same as or larger than the developer discharge opening 33. That is, assuming that the opening area of the developer discharge opening 33 is A and the opening area of the opening 42 of the developer discharge regulating member 41 is B, the relationship between these areas is A ≦ B. The opening 42 is formed at a position where the developer discharge opening 33 can be included in the region of the opening 42 in a side view as the developer discharge regulating member 41 rotates. For example, the opening 42 is formed at a position where the distance from the axis 40a to the center of the developer discharge opening 33 having a circular section is equal to the distance to the center of the opening 42 having a circular section.

  One or a plurality of openings 42 (two in FIG. 7) are provided in the developer discharge regulating member 41. Note that a developer discharge regulating member 41 ′ provided with a notch 42 ′ as shown in FIG. 8 may be used instead of the developer discharge regulating member 41 provided with an opening 42 as shown in FIG. Good. In this case, if the cutout area of the cutout 42 ′ portion is B ′, the relationship with the opening area A of the developer discharge opening 33 is A ≦ B ′.

  When the developer discharge regulating member 41 rotates and the developer discharge opening 33 and the opening 42 communicate with each other (when overlapped in a side view), the developer discharge from the developer discharge opening 33 to the protruding portion 40 is performed. An outflow is possible. At this time, if excess developer is generated in the developing tank 21, the developer flows from the developer discharge opening 33 into the opening 42 of the developer discharge regulating member 41 due to overflow. However, conversely, when the opening 42 and the developer discharge opening 33 are not in communication with each other (when they do not overlap in a side view), the developer in the developer tank 21 is other than the opening 42 of the developer discharge regulating member 41. It does not flow into the opening 42 by being blocked by this portion.

  Here, the material of the developer discharge regulating member 41 can be polyacetal resin. By forming the developer discharge restricting member 41 from polyacetal resin, there is an advantage that the adhesion of the developer to the developer discharge restricting member 41 can be reduced. This is because the polyacetal resin has a higher molecular weight than a generally used resin such as an ABS resin and has a stable molecular bond, and thus has excellent slidability. In addition, since the polyacetal resin is more durable than the resin such as ABS resin, the durability of the developer discharge regulating member 41 can be improved. Therefore, the developer can be discharged stably.

  Further, as shown in FIG. 9, a developer leakage prevention member 48 may be provided in a portion other than the opening 42 on the front and back surfaces of the developer discharge regulating member 41. When the developer leakage prevention member 48 moves the developer from the developer discharge opening 33 to the opening 42 of the developer discharge restriction member 41 and from the opening 42 to an opening 44 of an excessive discharge restriction member 43 described later. The developer is prevented from entering between the side wall 21c of the developing tank 21 and the developer discharge restricting member 41 and between the developer discharge restricting member 41 and the excessive discharge restricting member 43. As a result, the developer discharge regulating member 41 is rotated by the developer that has entered between the side wall 21c of the developing tank 21 and the developer discharge regulating member 41 or between the developer discharge regulating member 41 and the excessive discharge regulating member 43. Is prevented, the developer discharge regulating member 41 can be smoothly rotated, and the developer can be discharged stably.

  Note that the shape of the opening 42 of the developer discharge regulating member 41 can be as follows. For example, as shown in FIG. 10, the opening 42a has a shape that gradually expands from the side wall 21c side of the developing tank 21 toward the excessive discharge regulating member 43, or the central axis of the opening is the above-mentioned as shown in FIG. An opening 42b having a shape that is not parallel to the axis 40a of the inner wall of the protruding portion 40 but is inclined with respect to the axis 40a can be formed. With the shape of the opening 42 having such a shape, the developer overflowing from the developer discharge opening 33 can be more easily flowed toward the excessive discharge regulating member 43, and the clogging of the developer at the opening 42 can be prevented. It becomes possible to prevent.

  As shown in FIG. 12, an opening (through hole) 44 that is the same as or larger than the opening 42 of the developer discharge regulating member 41 is formed in the excessive discharge regulating member 43. That is, if the opening area of the opening 44 of the excessive discharge regulating member 43 is C, the relationship with the opening area B of the opening 42 of the developer discharge regulating member 41 is B ≦ C. The opening 44 is formed at a position where the opening 42 of the developer discharge regulating member 41 can be included in the region of the opening 44 in a side view as the developer discharge regulating member 41 rotates. Yes. For example, the opening 44 is formed at a position where the distance from the axis 40a to the center of the opening 42 having a circular cross section is equal to the distance to the center of the opening 44 having a circular cross section.

  One or a plurality of openings 44 (two in FIG. 12) are provided in the excessive discharge regulating member 43. Instead of the excessive discharge restriction member 43 provided with the opening 44 as shown in FIG. 12, an excessive discharge restriction member 43 ′ provided with a notch 44 ′ as shown in FIG. 13 may be used. In this case, if the notch area of the notch 44 ′ is C ′, the relationship with the opening area B of the opening 42 of the developer discharge regulating member 41 is B ≦ C ′.

  When the developer discharge regulating member 41 rotates and the opening 42 and the opening 44 communicate with each other (when overlapped in a side view), the developer can be moved from the opening 42 to the opening 44. At this time, if there is a developer in the opening 42, the developer flows into the opening 44. The developer that has flowed into the opening 44 further flows into the space 46. However, conversely, when the opening 42 and the opening 44 do not communicate with each other (when they do not overlap in a side view), the developer in the opening 42 is blocked by a portion other than the opening 44 of the excessive discharge regulating member 43. Thus, it does not flow into the opening 44.

  Here, as shown in FIG. 14, the developer discharge opening 33, the opening 42 of the developer discharge restriction member 41, and the opening 44 of the excessive discharge restriction member 43 are not arranged in a straight line. That is, the developer discharge opening 33 and the opening 44 of the excessive discharge restriction member 43 are arranged so as not to overlap each other in a side view, and even if the developer discharge restriction member 41 rotates, all of them are rotated. The openings 33, 42 and 44 are not communicated at the same time. However, as described above, when the developer discharge regulating member 41 rotates, the developer discharge opening 33 and the opening 42 communicate with each other, and the developer can move from the developer discharge opening 33 to the opening 42. Further, the opening 42 and the opening 44 communicate with each other, and the developer can be moved from the opening 42 to the opening 44.

  In the space 46, the developer discharged from the developing tank 21 is accumulated. The discharge screw 45 provided in the space 46 is provided with screw blades for conveying the developer. As the discharge screw 45 rotates, the developer in the space 46 is conveyed toward the discharge opening 47 and discharged from the discharge opening 47.

  Next, a drive source that rotationally drives the developer discharge regulating member 41 and the discharge screw 45 will be described. As shown in FIGS. 6 and 15, the rotation shaft 41 a of the developer discharge restriction member 41 and the rotation shaft 45 a of the discharge screw 45 are integrally formed, and the developer discharge restriction member 41, the discharge screw 45, and the like. Are driven to rotate.

  As shown in FIG. 15, the developer discharge regulating member 41 and the discharge screw 45 are rotationally driven by a developing unit drive motor 51. The developing unit driving motor 51 is a driving source that drives the developing roller 22 and the agitating and conveying screws 23 and 24, and the power of the developing unit driving motor 51 is developed via the gear 57, the gear 58, and the gear 59. It is transmitted to the conveying screws 23 and 24. Further, the power of the developing unit drive motor 51 is reduced and transmitted through the gear 52, the gear 53, the connecting shaft 54, the gear 55, and the gear 56 that are connected to the output shaft of the developing unit drive motor 51, and further connected to the gear 56. It is transmitted to the rotating shaft 45a of the discharge screw 45. As a result, the developer discharge regulating member 41 and the discharge screw 45 are rotationally driven together with the developing roller 22 and the stirring and conveying screws 23 and 24. By the rotational drive of the developer discharge regulating member 41 and the discharge screw 45, the developer in the protrusion 40 is discharged from the discharge opening 47. Thus, by sharing the drive source of the developer discharge regulating member 41 and the discharge screw 45 with the drive source of the developing roller 22 and the agitating / conveying screws 23 and 24, an independent drive source becomes unnecessary and the cost can be reduced.

  As shown in FIG. 16, the drive source for the developer discharge regulating member 41 and the discharge screw 45 is a discharge drive different from the developing unit drive motor 51 that is the drive source for the developing roller 22 and the stirring and conveying screws 23 and 24. The motor 61 can be used. That is, the developer discharge regulating member 41 and the discharge screw 45 may be rotationally driven by the discharge drive motor 61 independent of the developing unit drive motor 51. The developer discharge regulating member 41 and the discharge screw 45 are rotationally driven by the power of the independent discharge drive motor 61, whereby the developer in the protrusion 40 is discharged from the discharge opening 47. In this case, the discharge driving motor 61 can be independently driven and controlled by the control device 32. As a result, the intermittent drive and rotation time of the developer discharge regulating member 41 can be set finely. Therefore, finer developer discharge control is possible, and the developer amount in the developing tank 21 is easily kept constant. . Furthermore, the toner density in the developing tank 21 can be kept constant, and the copying image quality of the copying machine can be maintained well.

  Also, as shown in FIG. 17, the drive source of the developer discharge regulating member 41 and the discharge screw 45 is connected to the developer supply unit motor 71 which is the drive source of the carrier developer supply roller 31 of the carrier developer supply unit 30. It can also be shared. In this case, the power of the developer supply unit motor 71 is transmitted via the gear 72, the idle gear 73, and the gear 74 connected to the output shaft of the developer supply unit motor 71, and further connected to the gear 74. It is transmitted to the rotating shaft 45a of the discharge screw 45. As a result, the developer discharge regulating member 41 and the discharge screw 45 are driven to rotate in synchronization with the rotation of the carrier developer supply roller 31.

  In this case, a new carrier developer is transported through the developer transport pipe 75 by the rotational drive of the carrier developer replenishing roller 31, and is replenished to the developing tank 21 from the replenishment opening 21 a formed in the upper wall portion of the developing tank 21. Is done. In synchronization with this carrier developer replenishment timing, the developer in the protrusion 40 is discharged from the discharge opening 47 by the rotational drive of the developer discharge regulating member 41 and the discharge screw 45. That is, the carrier developer replenishment timing to the developing tank 21 and the developer discharge timing at the protruding portion 40 are equal. The rotational speeds of the developer discharge regulating member 41 and the discharge screw 45 are set by the gear 72, the idle gear 73, and the gear 74 so that the carrier developer replenishment amount is equal to the developer discharge amount at the protrusion 40. By doing so, it becomes possible to always keep the developer amount in the developing tank 21 constant and to keep the toner concentration in the developing tank 21 constant, and as a result, to maintain good copy image quality in the copying machine. be able to.

  Next, the discharge of the developer in the developing device 20 configured as described above will be described.

  A developer discharge opening 33 is formed on the side wall 21 c on the downstream side in the developer conveyance direction by the agitation conveyance screw 23 of the developing tank 21. Excess developer in the developing tank 21 is discharged from the developer discharge opening 33 to the protruding portion 40 by overflow according to the surface height of the developer stored in the developing tank 21. At this time, in the developing tank 21, the developer conveying direction by the rotation of the stirring and conveying screw 23 is a direction toward the side wall 21 c where the developer discharge opening 33 is formed. As described above, the developer discharge opening 33 is formed at a position where the developer flow by the rotation of the stirring and conveying screw 23 can be positively used when the developer is discharged to the protruding portion 40. Thereby, the developer discharge response with respect to the replenishment amount of the new carrier developer replenished from the replenishment opening 21a can be improved.

  The developer is discharged from the developer discharge opening 33 to the protruding portion 40 as follows. When the developer discharge opening 33 and the opening 42 of the developer discharge restriction member 41 communicate with each other due to the rotation of the developer discharge restriction member 41 provided in the protrusion 40, development from the developer discharge opening 33 to the protrusion 40 is performed. On the contrary, when the developer flows out and is not in communication with each other, the developer is discharged from the developer discharge opening 33 to the protruding portion 40 as a result of being blocked by a portion other than the opening 42 of the developer discharge regulating member 41. Not done. Then, the discharge amount and discharge time of the developer overflowing from the developer discharge opening 33 can be regulated according to the number of openings 42 and the opening area of the developer discharge restriction member 41, and the newly supplied replenishment The stirring time of a suitable carrier developer can be adjusted. That is, it is possible to prevent the replenished new carrier developer from being transported on the developer without being sufficiently stirred with the developer in the developer tank 21 and being discharged from the developer discharge opening 33 as it is. Thus, only the sufficiently stirred developer can be discharged.

  Further, since the opening area B of the opening 42 is the same as or larger than the opening area A of the developer discharge opening 33, the developer overflowing from the developer discharge opening 33 is more smoothly and reliably developed. It becomes possible to move to the opening 42 of the discharge regulating member 41.

  The movement of the developer in the protruding portion 40 is performed as follows. When the opening 42 of the developer discharge restricting member 41 and the opening 44 of the excessive discharge restricting member 43 communicate with each other due to the rotation of the developer discharge restricting member 41 provided in the projecting portion 40, the developer from the opening 42 to the opening 44. On the contrary, when they are not in communication with each other, they are blocked by a portion other than the opening 44 of the excessive discharge regulating member 43, so that the developer cannot be moved from the opening 42 to the opening 44. Then, it is possible to adjust the discharge amount and discharge time of the developer transferred from the developer discharge restriction member 41 according to the number of openings 44 and the opening area of the excessive discharge restriction member 43. Further, since the opening area C of the opening 44 is the same as or larger than the opening area B of the opening 42, the developer transferred from the developer discharge regulating member is more smoothly and reliably opened by the excessive discharge regulating member. It becomes possible to move to.

  Here, as described above, even if the developer discharge restricting member 41 rotates, all the openings 33, 42, and 44 do not communicate with each other at the same time, so that excessive developer discharge can be restricted. It becomes possible. That is, even when the developing tank 21 is inclined, only the developer discharged from the developing tank 21 to the developer discharge regulating member 41 is discharged. In other words, the developer in the developing tank 21 is intermittently discharged from the developer discharge opening 33. Therefore, excessive developer discharge can be regulated. As a result, the developer amount in the developing tank 21 can always be kept constant, and the toner concentration in the developing tank 21 can be kept constant. As a result, the copy image quality in the copying machine can be kept good. Can do.

  Further, in the protrusion 40, the developer flows into the space 46 from the opening 44 of the excessive discharge regulating member 43. The developer that has flowed into the space 46 is conveyed toward the discharge opening 47 by the rotation of the discharge screw 45, and is discharged from the discharge opening 47. Thus, by rotating the discharge screw 45 and forcibly moving the developer flowing into the space 46, the developer discharged from the opening 44 accumulates in the space 46 and closes the opening 44. Try to prevent. As a result, the excess developer in the developing tank 21 can always be recovered satisfactorily. In addition, there is a degree of freedom in the installation position of the developer collection container for collecting the developer.

  In the above, in the developing device 20, the case has been described in which the protruding portion 40 is arranged so that the axial center 40 a of the cylindrical inner wall of the protruding portion 40 coincides with the axial center of the rotation shaft 23 a of the stirring and conveying screw 23. A developing device 120 in which the protruding portion 40 is arranged at a position as shown in FIG. 18 is also possible.

  In the developing device 120 shown in FIG. 18, the protruding portion 40 is disposed so that the axial center 40a of the cylindrical inner wall of the protruding portion 40 is positioned as follows. That is, the distance from the axis 40a to the axis of the rotating shaft 23a of the stirring and conveying screw 23 is equal to the distance from the axis 40a to the axis of the rotating shaft 24a of the stirring and conveying screw 24. A protrusion 40 is provided. Further, the developer discharge opening 133 is formed at a position so as to be included in a region inside the protrusion 40 in a side view. By providing the protrusion 40 and the developer discharge opening 133 at such a position, the developer around the developer discharge opening 133 is less likely to be directly affected by the developer conveying force by the agitating and conveying screws 23 and 24. The developer surface is less uneven and stable. As a result, it is possible to stably overflow the overflow developer from the developer discharge opening 133.

1 is a diagram illustrating a schematic configuration of a copying machine to which a developing device according to an embodiment of the present invention is applied. It is a top view which shows the structure inside a developing device. It is sectional drawing similarly. It is a figure which shows a mode that the excess developer in a developing tank is discharged | emitted by overflow. FIG. 3 is a block diagram showing a control configuration of a copying operation in a copying machine. It is sectional drawing which shows a protrusion part inside. FIG. 6 is a cross-sectional view showing a developer discharge regulating member in a protrusion. FIG. 10 is a side view showing another example of a developer discharge regulating member. It is sectional drawing which shows the developer leakage prevention member of a developer discharge | emission control member. FIG. 10 is a cross-sectional view illustrating another example of a developer discharge regulating member. FIG. 10 is a cross-sectional view illustrating another example of a developer discharge regulating member. It is sectional drawing which shows the excessive discharge control member in a protrusion part. It is a side view which shows the other example of an excessive discharge control member. It is a figure which shows the positional relationship of the developer discharge opening of a developing tank, the opening of a developer discharge control member, and the opening of an excessive discharge control member. FIG. 6 is a top view showing a drive source for a developer discharge regulating member. FIG. 12 is a top view illustrating another example of a drive source for a developer discharge regulating member. FIG. 12 is a top view illustrating another example of a drive source for a developer discharge regulating member. It is explanatory drawing which shows the other example of a developing device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 4 Photoconductor 20 Developing device 21 Developing tank 22 Developing roller 23, 24 Agitating and conveying screw 30 Carrier developer replenishing unit 31 Carrier developer replenishing roller 32 Controller 33 Developer discharging opening 34 Toner density sensor 40 Protruding portion 41 Developer discharging regulation Member 42 Opening 43 Excess discharge restricting member 44 Opening 45 Discharge screw 47 Discharge opening

Claims (13)

A developer container that contains a developer composed of toner and a carrier therein, an agitating / conveying member that stirs and conveys the developer in the developer container, and a rotatable member facing the latent image carrier; and A developer carrying body for carrying and transporting the developer, the developer container having a replenishment opening for replenishing a new developer including a carrier, and a surface height of the developer contained in the developer container. In a developing device in which a developer discharge opening for discharging excess developer according to the size is formed,
The developer discharge opening is formed on a side wall of the developer container on the downstream side in the developer conveying direction by the stirring and conveying member, and the developer in the developer container is intermittently provided on the side wall from the developer discharge opening. And a developer discharge mechanism that can be discharged in an automatic manner. The developer discharge mechanism is provided with a space through which the developer in the developer container can flow from the developer discharge opening, and the developer discharge opening is formed in a region inside the developer discharge mechanism in a side view. Arranged in a position to be included,
Inside the developer discharge mechanism, a rotatable developer discharge restricting member adjacent to the side wall of the developer container and having an opening, and an opening formed adjacent to the developer discharge restricting member are formed. And an excess discharge regulating member that is provided,
When the developer discharge restriction member rotates and the developer discharge opening and the developer discharge restriction member communicate with each other, the developer moves from the developer discharge opening to the developer discharge restriction member. When the opening of the developer discharge restricting member and the opening of the excessive discharge restricting member communicate with each other, the developer can be moved from the opening of the developer discharge restricting member to the opening of the excessive discharge restricting member. Further, the developer discharge opening, the opening of the developer discharge regulating member, and the opening of the excessive discharge regulating member are all configured not to communicate with each other at the same time. Development device.   The opening of the developer discharge regulating member is formed as at least one through hole or notch, and the opening area of the through hole or notch is equal to or larger than the opening area of the developer discharge opening. The developing device according to claim 2, wherein the developing device is large.   The opening of the excessive discharge regulating member is formed as at least one through hole or notch, and the opening area of the through hole or notch is the same as or the same as the opening area of the developer discharge regulating member. The developing device according to claim 3, wherein the developing device is larger than the developing device.   In the space adjacent to the excessive discharge restricting member inside the developer discharge mechanism, the development rotates in conjunction with the developer discharge restricting member and is transferred from the opening of the excessive discharge restricting member into the space. The developing device according to claim 2, further comprising: a discharge unit configured to convey the developer toward a discharge opening formed at a bottom portion of the developer discharge mechanism and to discharge the developer from the discharge opening. .   The developing device according to claim 2, wherein the rotation of the developer discharge regulating member is performed by a developing unit driving source that rotationally drives the agitating and conveying member and the developer carrying member.   The rotation drive of the developer discharge regulating member is performed by an independent drive source different from a developing unit drive source that rotationally drives the agitating and conveying member and the developer carrying member. Development device.   The developing device according to claim 2, wherein the rotation of the developer discharge regulating member is performed by a drive source of a developer supply device that supplies a new developer including a carrier to the developer container.   The developer discharge mechanism portion is configured such that the rotation shaft of the developer discharge restriction member inside the developer discharge mechanism portion causes the developer to face the side wall of the developer container on which the developer discharge opening is formed. The developing device according to claim 2, wherein the developing device is disposed so as to be on the same straight line as a rotation axis of the agitating and conveying member to be conveyed.   The developer discharge mechanism conveys the developer from the rotation shaft of the developer discharge regulating member inside the developer discharge mechanism toward the side wall of the developer container where the developer discharge opening is formed. Of the second agitating and conveying member that conveys the developer in a direction opposite to the first agitating and conveying member from the distance to the rotating axis of the first agitating and conveying member and the rotation axis of the developer discharge regulating member. The developing device according to claim 2, wherein the developing device is disposed at a position where the distance to the rotation axis is equal.   The developing device according to claim 1, wherein the developer discharge regulating member is formed of a polyacetal resin.   When the developer moves to portions other than the front and back openings of the developer discharge restriction member, the developer discharge restriction member and the developer discharge restriction member and the side wall of the developer container and the developer discharge restriction member The developing device according to claim 1, further comprising a developer leakage preventing member that prevents the developer from entering between the excessive discharge regulating member.   An image forming apparatus comprising the developing device according to claim 1.

Images