JP3150812B2 - Developing device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-component developer comprising a toner and a carrier for visualizing an electrostatic latent image on the surface of a photoreceptor in an electrophotographic apparatus such as a copying machine. The present invention relates to a developing device for supplying a surface.

[0002]

2. Description of the Related Art For example, in a dry copying machine, a developing device for visualizing (developing) an electrostatic latent image on a photoreceptor surface with a two-component developer comprising a carrier and a toner is often used. In such a developing device, the toner is consumed by the developing operation, while the carrier is not consumed and remains in the developing device. Therefore, the carrier stirred with the toner in the developing device, as the stirring frequency increases,
A situation such as peeling of the resin coat layer on the surface or sticking of the toner to the surface occurs to cause deterioration, and as a result, the charging performance of the developer gradually decreases.

Therefore, apart from replenishment of toner consumed by the developing operation, a device in which the carrier is replenished little by little into the developing device so as to suppress the deterioration of the charging performance is disclosed, for example, in Japanese Patent Publication No. 2-15991. It is disclosed in the gazette. In the apparatus, the developer in the developer tank that has become excessive due to the replenishment of the carrier overflows from a developer overflow port provided on the wall surface of the developer tank, is discharged, and is collected in a developer collection container. By repeating such supply and discharge sequentially, the deteriorated developer in the developing tank is
The toner and the carrier are newly supplied, whereby the charging performance is maintained and the deterioration of the copy image quality is suppressed.

[0004]

However, in the above-mentioned apparatus, the discharge of the deteriorated developer in the developing tank is performed by overflow from the developer overflow on the wall of the developing tank. Cannot be controlled accurately. Therefore, the replacement ratio of fresh developer supplied is not maintained as intended, and therefore, there is a problem that the charging performance fluctuates and the copy image quality is reduced.

In the above-described developing device, the developer overflow is formed by opening a part of the side wall of the developing tank, and as described above, the developer overflowing from the developing tank is simply collected by the developer collecting container. It is a natural discharge structure received by. Therefore, if the copying machine provided with the developing device is one that is not frequently moved after being installed at a predetermined position, for example, a large console machine, the copying machine and the developing device are leveled when the copying machine is installed. , The developer is relatively stably discharged from the developer overflow port, and the copier itself easily operates so that the image quality as intended by the designer can be obtained until the end of its life. . In contrast, copiers
For example, in the case of a small personal machine, which can be easily moved by the user and is frequently moved, the developer overflows from the developer overflow to the developing tank in the developing tank due to a tilt or impact during the movement. A situation in which a large amount of the agent is discharged easily occurs. When such a situation occurs, the amount of the developer in the developing tank becomes insufficient, so that the charging performance of the developer becomes unstable and the image quality changes. Therefore, there is a problem that it is difficult to obtain stable image quality over a long period of time.

Therefore, according to the present invention, it is possible to discharge the developer in the developing tank in an accurate amount corresponding to the replenishment of the carrier developer containing the carrier, and to reduce the inclination or the external impact. It is an object of the present invention to provide a developing device capable of preventing a large amount of developer from being discharged, thereby suppressing deterioration in charging performance and maintaining good and stable image quality.

[0007]

In order to solve the above-mentioned problems, a developing device according to the present invention includes a developer tank containing a developer including a toner and a carrier, and a stirring roller and a developer for stirring the developer. In a developing device provided with a developer replenishing unit for sequentially replenishing a carrier developer containing a carrier to the developing tank from above while a developing roller for supplying the photoreceptor is provided rotatably, A developer tank discharge opening for discharging the developer is formed on a side wall portion that is in contact with the stored developer, and a developer storage container that can store a fixed amount of developer, and a developer storage container that is The developing tank portion discharge opening is covered from the outer surface side of the developing tank side wall portion, and the accumulated state in which the developer flowing from the developing tank portion discharge opening is accumulated therein, and the developer accumulated in the developer accumulating container portion is container Together and a storage and discharge switching means for switching to the discharge state to discharge from the discharge opening, the upper from the developing tank unit discharge opening in the discharge state
It is characterized in that it is provided with a discharge suppressing section for suppressing the outflow of the developer into the developer storage container section .

[0008]

According to the above construction, when the developer storage container is switched to the storage state, the developing tank discharge opening of the developing tank is covered by the developer storage container from the outer surface side of the developing tank side wall. Then, the developer for discharge flowing out from the developer tank discharge opening gradually accumulates inside the developer storage container. When the developer storage container is filled with the developer, a certain amount of the developer corresponding to the volume of the developer storage container is stored in the developer storage container. When the developer storage container is switched to the discharge state, the fixed amount of developer in the developer storage container is discharged from the container discharge opening. At this time, since the discharge suppressing section prevents the new outflow of the developer from the developing tank section discharge opening to the developer accumulation container section , the above-mentioned fixed amount or more of the developer is discharged from the container section discharge opening. There is no.

Therefore, the developer in the developer tank can be discharged in a reliable and accurate amount, and the replacement ratio of replacing the deteriorated developer in the developer tank with fresh developer to be newly supplied can be controlled as intended. It becomes possible to go. As a result, the charging performance can be kept substantially constant, and good image quality can be maintained.

Further, it is possible to prevent a situation in which a large amount of developer is discharged from a developing tank even when an impact is applied to the copying machine when the copying machine is moved or the copying machine is inclined. Can be. As a result, a decrease in the charging performance of the developer in the developing tank can be suppressed, good image quality can be maintained over a long period, and the overall consumption of the developer for this purpose is reduced as much as possible. Can be.

[0011]

EXAMPLES will be hereinafter explained with reference to an embodiment in FIGS. 1 to 4 of EXAMPLES present invention. As shown in FIG. 2, in a copying machine configured by applying the present invention, a document table 1 is provided on the upper surface, and an exposure optical system 2 is provided below the document table 1. . The exposure optical system 2 includes a light source lamp 3 that scans a document (not shown) placed on the document table 1 while irradiating the document with light, and a plurality of reflecting mirrors that guide reflected light from the document to the photoconductor 4. 5 and a lens unit 6 arranged in the optical path of the reflected light.

A charger 7 for charging the surface of the photoconductor 4 to a predetermined potential, an inter-image eraser (not shown), and a developing device for developing an electrostatic latent image formed on the surface of the photoconductor 4 are provided. 8, a transfer charger 9 for transferring a toner image on the surface of the photoreceptor 4 to a sheet, a cleaning device 10 for collecting residual toner on the surface of the photoreceptor 4, a static eliminator (not shown), and the like are provided. A timing roller 11, a feeding roller 12, a paper feed cassette 13, and a paper feed roller 14 for supplying paper at a predetermined timing are provided on the paper input side with respect to the photoreceptor 4, and on the paper output side with respect to the photoreceptor 4. Is provided with a fixing device 15 for fixing the toner image transferred onto the sheet to the sheet.

As shown in FIG. 3, the developing device 8 has a container-like developing tank 16, in which a developing roller 17 composed of a magnet roller and a stirring roller 18 are rotatable. It is arranged in. The developer contained in the developing tank 16 is composed of a carrier and a toner, and the carrier composed of a magnetic material has a resin coat layer on its surface for suppressing adhesion of the toner. When the carrier and the toner are stirred by the stirring roller 18, the toner is charged by friction. Further, the stirring roller 18 is arranged as shown in FIG.
As shown in the figure, a spiral stirring blade 18a is provided around the central axis.
In the above-described stirring operation, the developer is transported in the direction of arrow C. The developing roller 17 attracts the carrier by magnetic force, forms a magnetic brush, and conveys the toner. The toner adhered to the carrier by Coulomb force is supplied to the photoconductor 4 and is attracted to the electrostatic latent image on the photoconductor 4. Then, development is performed. Incidentally, the height of the ears of the magnetic brush is regulated by the doctor 19.

A developer supply opening is formed in the upper wall 16a of the developing tank 16, and a developer supply unit (developer supply section) 20 is fitted into the supply opening from above. The inside of the developer supply unit 20 is partitioned into two chambers, a toner storage chamber 20a and a carrier developer storage chamber 20b. In one toner storage chamber 20a, toner is stored, and in the other carrier developer storage chamber 20b, a developer consisting of only a carrier or a developer in which toner is mixed with a carrier at a predetermined ratio (hereinafter, referred to as carrier) is used. Developer).

A toner supply roller 21 and a carrier developer supply roller 22 are provided at the bottom of each of the storage chambers 20a and 20b, respectively. When the carrier developer supply roller 22 is driven to rotate, the carrier developer in the carrier developer storage chamber 20b flows down by an amount corresponding to the driving time of each roller 21/22. And supplied into the developing tank 16.

On the other hand, a container-like collection container 23 having an open upper surface is detachably attached to the bottom wall 16b of the developing tank 16 from below. Further, as shown in FIG. 1A, a portion of the side wall portion 16c of the developing tank 16 which is in contact with the developer in the developing tank 16 and which is located on the C direction side which is the side of the developer conveying direction by the stirring roller 18. A developing tank part discharge opening 16d is formed in the portion. The developing tank part discharge opening 16d has a shape extending outward from the lower edge of the developing tank part discharge opening 16d, and has a tip end slightly extending upward. An emission suppression part 16e for suppressing natural emission is formed.

On the outer surface of the side wall portion 16c at the portion where the developing tank discharge opening 16d is formed, a developer storage container 41 for accumulating a fixed amount of the developer discharged from the developing tank discharge opening 16d is provided. It is formed so as to surround the partial discharge opening 16d. A container discharge opening 41 a for discharging the developer stored in the developer storage container 41 is formed in the bottom wall of the developer storage container 41. The collecting container 23 is provided to cover the container opening 41a from below. The opening / closing mechanism 25 for opening and closing the container discharge opening 41a is provided on the bottom wall 16b.
Is provided along the lower surface of the.

As shown in FIGS. 1 (a) and 1 (b), the opening / closing mechanism 25 includes a plate-shaped opening / closing lid 26 slidably disposed along the lower surface of the bottom wall 16b. A guide plate 27 is provided on both sides of the opening / closing lid 26 so as to guide the sliding operation of the opening / closing lid 26, and a discharge solenoid 28 connected to the opening / closing lid 26 at the tip of a plunger 28a. When the discharge solenoid 28 is de-energized (OFF), the plunger 28a is held at the advanced position, whereby the opening / closing lid 26 is held in a closed state that covers the container discharge opening 41a from below. This state is an accumulation state in the developer accumulation container section 41. On the other hand, when the discharge solenoid 28 is energized (ON), the plunger 28a is retracted, whereby the opening / closing lid 26 is opened.
Is retracted from the position covering the container part discharge opening 41a, and the container part discharge opening 41a is switched to the open state. This state is a discharge state in the developer storage container section 41. In this open state, the developer in the developer storage container 41 is discharged by its own weight into the collection container 23 through the container discharge opening 41a. The operation of the opening / closing mechanism 25, that is, the operation of the discharge solenoid 28 is controlled by a control device 32 including a microcomputer shown in FIG. Therefore, the opening / closing lid 26, the discharge solenoid 28, and the control device 32 constitute a storage / discharge switching means.

Next, a copying operation in the copying machine having the above configuration will be described. Power switch (not shown) is ON
Then, a warm-up process is performed first. After this is completed, a copy start switch 31 described later
Is turned on, the original placed on the original placing table 1 is scanned by the light source lamp 3 of the exposure optical system 2. The reflected light from the original at this time is irradiated on the photoconductor 4 via the reflecting mirrors 5 and the lens unit 6, and an electrostatic latent image is formed on the surface of the photoconductor 4 charged to a predetermined potential by the charging charger 7. It is formed. Next, this electrostatic latent image is developed with toner supplied from the developing device 8. The toner image on the surface of the photoconductor 4 is transferred by the transfer charger 9 to the sheet cassette 13.
Is transferred to a sheet supplied from the printer, and is thermally fixed on the sheet by the fixing device 15. As a result, a copy image corresponding to the document image is formed on the sheet.

To control such a series of copying operations, a control device 32 is provided in the copying machine, as shown in FIG. A signal is input. Further, a copy counter 33 for counting the cumulative number of copy operations is further provided.
The copy count value (n) is also input to the control device 32.

When the above-described copying operation is repeated, the toner in the developer contained in the developing tank 16 of the developing device 8 is gradually consumed, and the ratio of the toner to the carrier, that is, the toner concentration decreases. To go. The toner concentration sensor 34 for detecting the change in the toner concentration is
The drive control of the toner replenishing roller 21 based on the toner density sensor 34 is performed by the control device 3.
2 further. That is, when it is detected that the detection signal from the toner density sensor 34 has fallen to the lower limit of the appropriate range required for development, the toner replenishing roller 2
1 is started. Thereby, the toner storage chamber 20a
Is supplied to the developing tank 16, and the toner concentration in the developing tank 16 increases. When it is detected that the toner concentration has reached the upper limit of the above-described appropriate range, the driving of the toner supply roller 21 is stopped. By such control, the toner concentration in the developing tank 16 is maintained within the above-mentioned appropriate range.

The toner replenished as described above is agitated with the developer in the developing tank 16 and controlled to a constant charge amount, supplied to the photoreceptor 4, and used for development. on the other hand,
Since the carrier in the developer does not decrease and is used repeatedly, the carrier gradually deteriorates due to stirring by the developing roller 17 and the stirring roller 18 and contact with the photoconductor 4. When the carrier deteriorates in this manner, a predetermined charge amount cannot be given to the toner, and the image quality deteriorates. Thus, by additionally replenishing the carrier in the developing tank 16 and replacing the carrier with the deteriorated carrier in the developing tank 16, the above-described decrease in the charging performance can be suppressed. For this purpose, the control device 32 also controls supply / discharge of supplying the carrier developer from the carrier developer storage chamber 20b and discharging the developer in the developing tank 16.

In the replenishment / discharge control, the developing tank 1
The developer amount in 6 is controlled to maintain a constant amount. At this time, the carrier developer replenishing roller 22 is controlled to operate for a predetermined time, for example, at every constant copy count value n counted by the copy counter 33, and the developer in the developer storage container 41 is discharged. The discharge solenoid 28 is controlled so that the opening / closing lid 26 is opened only for a time necessary to discharge all the liquid. The copy count value n for activating the carrier developer supply roller 22 and the copy count value n for activating the discharge solenoid 28 may be set to be different depending on the capacity of the developer storage container 41 or the like. .

In the above-described developer discharging operation, the developer that is moved by the rotation of the stirring roller 18 is gradually and surely accumulated in the developer storage container portion 41 every time the stirring roller 18 rotates. Then, when the opening / closing lid 26 is opened at the timing when the developer is reliably filled in the developer storage container portion 41, that is, at the copy count value n and when the stirring roller 18 is stopped, the developing is started. An amount of the developer substantially corresponding to the volume of the agent storage container portion 41 is discharged from the container portion discharge opening 41 a and collected in the collection container 23. Therefore, the amount of the developer discharged by each opening operation of the opening / closing lid 26 becomes accurate. The amount of the developer discharged is measured at the timing when the stirring roller 18 is stopped as described above.
As a result, the developer in the developing tank 16 is discharged from the developing tank section discharge opening 16.
d and the container part discharge opening 41a are prevented from being directly discharged, and the discharge suppressing part 16e suppresses the developer from flowing out of the developing tank part discharge opening 16d while the opening / closing lid 26 is open. By having
It is more accurate.

As described above, in the developing device 8 of this embodiment, after the developer to be discharged is accumulated in the developer accumulation container portion 41, the opening / closing lid 26 is opened to open the inside of the developer accumulation container portion 41. Is discharged, the amount of the discharged developer can be accurately controlled. For example, in the case where the total amount of the developer in the developing tank 16 fluctuates and the surface height changes, Even if there is, the developer in the developing tank 16 can be reliably and accurately discharged. Therefore, the replacement ratio when sequentially replacing the deteriorated developer in the developing tank 16 with fresh developer to be replenished can be controlled as intended.

Further, even when the copying machine is moved, for example, when an impact is applied to the copying machine or the copying machine is inclined, a situation in which a large amount of developer is discharged from the developing tank 16 is prevented. be able to. As a result, the developing tank 16
It is possible to suppress the deterioration of the charging performance of the developer therein, to maintain good image quality for a long period of time, and to minimize the overall consumption of the developer for this purpose.

In the above embodiment, the developing tank 16
The developer inside is discharged from the developing tank portion discharge opening 16d by the rotation of the stirring roller 18 and accumulated in the developer accumulation container portion 41.
The developer may be accumulated in the developer accumulation container 41 by natural discharge from the developer container. In this case, in order to promote the outflow of the developer from the developing tank section discharge opening 16d, it is better to adopt a configuration in which the discharge suppressing section 16e is not provided. Is not limited to the side wall portion 16c in the C direction shown in FIG. 3A, and may be any portion of the side wall portion 16c of the developing tank 16 that is in contact with the developer in the developing tank 16.

Reference Example A reference example of the present invention will be described below with reference to FIGS. For convenience of explanation, members having the same functions as the members described in the above embodiment are denoted by the same reference numerals, and description thereof will be omitted.

The present embodiment of the developing device 8, as shown in FIG. 5, instead of the developer storage container 41 and the opening and closing mechanism portion 25 shown in the above embodiment, the rotation cylinder 51 and the rotating cylindrical body And a discharge suppressing portion 1 provided in a developing tank portion discharge opening 16d.
6e is not provided.

As shown in FIG. 6, the rotary cylindrical body 51 has, for example, four developer storage portions 51a. Is formed. These developer accumulation sections 51a ...
Is such that the opening width in the outer peripheral direction of the rotating cylindrical body 51 matches the opening width in the height direction of the developing tank part discharge opening 16 d formed in the developing tank 16, and the opening width in the width direction of the rotating cylindrical body 51 is The width corresponds to the width of the discharge opening 16d in the horizontal direction. The rotating cylinder 51 is rotatable about a rotating shaft 51b, and each developer accumulating section 51a is rotated by the rotating operation.
As shown in FIG. 7, the developing tank 16 is provided at a developer accumulation position which communicates with the developing tank discharging opening 16 d and covers the developing tank discharging opening 16 d from the outer surface side of the developing tank 16.

Rotating cylinder 5 by the above-described cylinder rotating mechanism
The rotation direction 1 is the D direction in which the developer accumulation part 51a moves upward with respect to the developing tank part discharge opening 16d. The cylindrical body rotating mechanism includes a rotating body drive motor 5 shown in FIG.
2, and a developer accumulating portion position sensor 53 for detecting that the developer accumulating portion 51a of the rotating cylinder 51 has reached the developer accumulating position. The operation of the rotating body drive motor 52 is performed by the developer accumulating portion position sensor 53. Is controlled by the control device 32 based on the detection operation of. Therefore, in this reference example ,
The rotating / driving motor 52, the developer accumulating portion position sensor 53, and the control device 32 constitute an accumulating / discharging switching means.

In the operation of discharging the developer from the developing tank 16 by the rotating cylinder 51, the developer accumulation section 51a of the rotating cylinder 51 stores the developer under the control of the control device 32 as shown in FIG. When placed in the position, the stirring roller 18
The developer in the developing tank 16 moved by the rotation of the developer is gradually and surely accumulated in the developer accumulating section 51a through the developing tank section discharge opening 16d. Thereafter, at a predetermined timing when the developer is filled in the developer storage section 51a, the rotary cylinder 51 is rotated so that the next developer storage section 51a is disposed at the developer storage position. In the process of rotating the rotary cylinder 51, the peripheral wall of the rotary cylinder 51 (discharge suppression)
Portion) closes the developing tank portion discharge opening 16d.
The discharge of the developer from the developing tank portion discharge opening 16d is prevented. Thereafter, similarly, when the rotating cylindrical body 51 is sequentially rotated, when the developer accumulating portion 51a faces downward, the developer contained therein is completely discharged, and the collection container 2
Collected in 3.

In the same manner as in the above embodiment , in the supply and discharge control of the developer, the carrier developer supply roller 22 and the rotating body drive motor 52 are controlled so that the developer amount in the developing tank 16 is maintained at a constant amount. Are controlled, and the supply / discharge operation is performed, for example, for each fixed copy count value n. Note that the copy count value n for replenishment and the copy count value n for discharge may be set to be different depending on the volume of the developer accumulation unit 51a and the like. Further, the rotation of the rotary cylinder 51 for switching the developer accumulation section 51a to the next developer accumulation section 51a is performed by stopping the stirring roller 18 in order to surely prevent excess developer from being discharged. It is better to do it at the timing you are doing.

As described above, in the developing device 8 of the present embodiment , the rotating cylinder 51 is rotated so that the developer accumulating section 51 is rotated.
a is arranged at the developer accumulation position, and after the developer to be discharged is accumulated in the developer accumulation section 51a of the rotating cylinder 51, the rotating cylinder 51 is rotated to store the next developer accumulation section 51a in the developer accumulation section 51a. Since the developer is discharged at the storage position, the discharge amount of the developer can be accurately controlled. Therefore, the replacement ratio when sequentially replacing the deteriorated developer in the developing tank 16 with fresh developer to be replenished can be controlled as intended. Further, even when the copying machine is shocked or moved when the copying machine is moved, a situation in which a large amount of the developer is discharged from the developing tank 16 can be prevented. . As a result, a decrease in the charging performance of the developer in the developing tank 16 can be suppressed, and good image quality can be maintained for a long period of time, and the overall consumption of the developer for this purpose is reduced as much as possible. be able to.

In this embodiment , the developer in the developing tank 16 is discharged from the developing tank section discharge opening 16d by the rotation of the stirring roller 18, and is stored in the developer storing section 51a. The developer may be accumulated in the developer accumulation section 51a by natural discharge from the developing tank section discharge opening 16d. In this case, the formation position of the developing tank part discharge opening 16d is not limited to the side wall part 16c in the C direction shown in FIG. 5, but may be any part of the side wall part 16c of the developing tank 16 that contacts the developer in the developing tank 16. I just need.

[0036]

As described above, according to the developing device of the present invention, the developing tank discharge opening for discharging the developer is formed in the side wall portion in contact with the developer contained in the developing tank, while the developer is discharged. Container portion capable of accumulating a predetermined amount of the developer, and the developer accumulation container portion covering the developing tank portion discharge opening from the outer surface side of the developing tank side wall portion to allow the developer flowing out from the developing tank portion discharge opening. A storage / discharge switching means for switching between an accumulation state in which the developer is accumulated in the inside and a discharge state in which the developer accumulated in the developer accumulation container is discharged from the container discharge opening, and the developing tank in the discharge state Part discharge opening
And a discharge suppressing portion for suppressing the outflow of the developer from the developer into the developer storage container .

As a result, the developer in the developing tank can be discharged in a reliable and accurate amount, and the replacement ratio for replacing the deteriorated developer in the developing tank with freshly supplied fresh developer is controlled as intended. It becomes possible to do. As a result,
The charging performance can be kept almost constant, and good image quality can be maintained.

Further, for example, even when the copying machine is moved and the copying machine is shocked or tilted, it is possible to prevent a large amount of developer from being discharged from the developing tank. Can be. As a result, a decrease in the charging performance of the developer in the developing tank can be suppressed, good image quality can be maintained over a long period, and the overall consumption of the developer for this purpose is reduced as much as possible. This has the effect that it can be performed.

[Brief description of the drawings]

FIGS. 1A and 1B show a main part of a developing device according to an embodiment of the present invention, in which FIG. 1A is a longitudinal sectional view, and FIG. 1B is a line II in FIG. FIG.

FIG. 2 is a schematic diagram showing an overall configuration of a copying machine in which the developing device is built.

FIG. 3 is an enlarged sectional view showing a developing device in the copying machine.

FIG. 4 is a control block diagram of the copying machine.

FIG. 5 is a longitudinal sectional view illustrating a main part of a developing device according to a reference example of the present invention.

FIG. 6 is a view of the rotary cylinder in FIG.

FIG. 7 is a control block diagram of a copying machine provided with the developing device.

[Explanation of symbols]

Reference Signs List 4 photoreceptor 8 developing device 16 developing tank 16c side wall 16d developing tank discharge opening 16e discharge suppression unit 17 developing roller 18 stirring roller 20 developer supply unit (developer supply unit) 26 opening / closing lid (storage / discharge switching means) 25 Opening / closing mechanism 28 Discharge solenoid (storage / discharge switching means) 32 Controller (storage / discharge switching means) 41 Developer storage container (developer storage container part) 41a Container discharge opening 51 Rotating cylinder 51a Developer storage part 52 Rotating body drive motor (storage / discharge switching means) 53 Developer accumulation section position sensor (storage / discharge switching means)

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hideo Yamasa 22-22 Nagaikecho, Abeno-ku, Osaka-shi, Osaka Inside Sharp Corporation (56) References JP-A-4-66984 (JP, A) JP-A-4 -29271 (JP, A) JP-A-5-100562 (JP, A) Japanese Utility Model Application Sho 58-13540 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G03G 15/08 G03G 21/10

Claims (1)

(57) [Claims] An agitating roller for agitating a developer and a developing roller for supplying a developer to a photoreceptor are rotatably provided in a developing tank for accommodating a developer comprising a toner and a carrier, while containing a carrier. In a developing device provided with a developer replenishing section for sequentially supplying carrier developer from above to the developing tank, a developing tank section for discharging the developer is discharged to a side wall section in contact with the developer housed in the developing tank. While the opening is formed, a developer accumulating container portion capable of accumulating a fixed amount of the developer, and the developer accumulating container portion is covered with the developing tank portion discharge opening from the outer surface side of the developing tank side wall portion. Storage / discharge switching means for switching between a storage state in which the developer flowing out of the developer discharge opening is stored therein and a discharge state in which the developer stored in the developer storage container is discharged from the container discharge opening. And a step from the developer tank discharge opening in the discharge state.
A developing device, comprising: a discharge suppression unit that suppresses a developer from flowing into an image agent storage container unit .