JP3793624B2 - Rotating developer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a rotary developing device of an image forming apparatus such as a copying machine, a facsimile machine, and a printer.
[0002]
[Prior art]
Conventionally, a rotatable developing unit having a plurality of developing units disposed around a rotation axis, and a developer receiving port configured integrally with the developing unit so as to communicate with the inside of the developing unit A developer containing portion having a developer replenishing port opposite to the developer receiving port, and a developer containing the developer replenished in the developer containing portion through the developer replenishing port and the developer receiving port A developer container, and a developer replenished from the developer container to the developer container by displacing an arbitrary developer to a developing position facing the photosensitive member as a latent image carrier by rotation of the developer unit. There is known a rotary developing device that performs development while circulating the toner between the developer accommodating portion and the developing device.
[0003]
By the way, in order to perform stable development in this rotary developing device, the developer replenished from the developer container to the developer accommodating portion is smoothly circulated between the developer accommodating portion and the developing device. For this purpose, the developer container is sufficiently replenished from the developer container to the developer accommodating portion in a state where the developer is displaced to the predetermined development position and stopped, and the developer accommodating The inside of the part must always be filled with a sufficient amount of developer.
[0004]
However, in this type of rotating type developing device, the developer formed in the developer accommodating portion is developed because the developing unit is rotated to displace an arbitrary developing device to a developing position facing the photosensitive member. There is a state in which the receiving port is positioned above the developer supply port of the developer container, that is, below the developer accommodating portion, by the rotation of the developing unit. As described above, in a state where the developer receiving port of the developer containing unit is displaced to a position below the developer containing unit, the developer contained in the developer containing unit is transferred from the developer receiving port to the developer receiving unit. The developer flows back into the developer container through the developer replenishing port, and the developer in the developer container is temporarily insufficient.
[0005]
The developer that has flowed back into the developer container is displaced in the developer container by rotating the developer unit so that the developer receiving port of the developer container is displaced above the developer supply port of the developer container. Although it will be replenished, it takes some time to replenish the developer from the developer container to the developer container.
[0006]
Therefore, for example, if the rotation speed of the developer unit at the time of switching to the development position of each developer is slowed down, a sufficient time margin is provided for supplying the developer from the developer container to the developer container. The developer container can be filled with a sufficient amount of developer, and stable development can be performed at all times. In this way, the rotation speed of the developer unit at the time of switching to the development position of each developer unit can be reduced. Decreasing the speed is not preferable because the developing processing speed of each developing device is delayed to lower the processing capability of the image forming apparatus itself.
[0007]
However, if the rotation speed of the developer unit is increased in order to increase the development processing capacity of the developer unit, a little developer is supplied to the developer container in the developer unit during the rotation of the developer unit. First, when a predetermined developing device reaches the developing position, a large amount of developer remains in the developer container.
[0008]
In view of this, the present applicant has determined that the developer receiving port of the developer container of the developer unit is positioned below the developer supply port of the developer container with the developer unit being displaced to a predetermined development position. In addition, the developer container and the developer container are disposed, and the developer in the developer container in a state where the developer container is displaced to the development position at the edge of the developer supply port of the developer container on the downstream side in the rotation direction of the developer unit. A rotary developing device provided with a partition member for storing the developer in a portion above the developer supply port has been proposed (Japanese Patent Laid-Open No. 8-328346).
[0009]
According to this rotary type developing device, in the state where the developing device is displaced to the developing position and stopped, the developer in the developer container is allowed to move above the developer supply port of the developer container by the action of the partition member. Since it can be stored in the region, even if the rotation speed of the developing unit is increased, the developer accommodating portion can be filled with sufficient developer, and stable development can be performed.
[0010]
[Problems to be solved by the invention]
However, even in the rotary type developing device provided with the screen member as described above, when the rotational speed of the developing unit exceeds a certain speed, the developing unit rotates and the predetermined developing unit is stopped at the developing position. At this time, the developer once stored in the upper portion of the developer supply port of the developer container by the action of the partition member gets over the partition member by the inertia force at the time of rotation of the developer unit, and the developer container It will remain inside. For this reason, there is a case where a sufficient amount of developer cannot be replenished in the developer accommodating portion even though the amount of developer in the developer container is not insufficient.
[0011]
The present invention has been made in view of the above problems, and an object of the present invention is to provide the inertial force of the developer stored in the upper portion of the developer supply port of the developer container by the action of the partition member. It is an object of the present invention to provide a rotary developing device that can prevent overcoming from a partition member.
[0012]
[Means for Solving the Problems]
  In order to achieve the above object, claim 1 is provided.Thru 3According to the present invention, there is provided a developer container having a plurality of developing units disposed around a rotation axis and a developer receiving port configured integrally with the developing unit so as to communicate with the developing unit. And a developer container that has a developer replenishing port opposite to the developer receiving port and contains the developer replenishing port and a developer replenished to the developer accommodating portion through the developer receiving port, A rotating type developing device that performs development by rotating any of the developing devices to a developing position facing the latent image carrier by rotation of the plurality of developing devices, wherein the developing device is displaced to a predetermined developing position. The developer containing portion and the developer container are arranged such that the developer receiving port of the developer containing portion of the developing device is located below the developer supply port of the developer container, and At the edge of the developer supply port of the developer container downstream of the developer rotation direction, the development position In the rotary developing device provided with a partition member for storing the developer in the developer container in a displaced state in a portion above the developer replenishing port, at least the tip of the partition member is attached to the developer. The developer contained in the container is formed so as to be bent or curved toward the circumferential direction upstream of the developing device rotation direction rather than the direction perpendicular to the inertial force when the developing device rotates..
  thisBasic configurationIn this case, at least the front end of the partition member is directed toward the circumferential direction upstream of the developing device rotation direction with respect to the direction perpendicular to the inertia force of the developer contained in the developer container when the developing device rotates. Since it is formed so as to be bent or curved, the action of the partition member prevents the developer member stored in the upper part of the developer supply port of the developer container from getting over the partition member. .
[0013]
  AndClaim 1Or 2The invention ofBasic configurationIn the above, the capacity of the developer stored in the upper portion of the developer supply port of the developer container by the action of the partition member is equal to or larger than the capacity of the developer accommodated in the developer accommodating portion. It is what.
  According to this,Since the capacity of the developer stored in the upper portion of the developer supply port of the developer container by the action of the partition member is equal to or larger than the capacity of the developer stored in the developer storage portion, at least the partition While the developer is stored in the upper part of the developer supply port of the developer container by the member, the developer accommodating portion at the development position is always filled with the developer.
[0014]
  The invention of claim 3Basic configurationThe partition member is formed of a material capable of charging the developer to a polarity opposite to the polarity of the developer carrying member of the developing device.
  According to thisSince the partition member is formed of a material capable of precharging the developer when the developer is replenished, the occurrence of reverse charging due to friction between the developers in the developer accommodating portion is reduced.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments in which the present invention is applied to a rotary developing device of a color image forming apparatus will be described. FIG. 1 is a front view showing a schematic configuration of a developing unit 6 as the rotary developing device. In the developing unit 6, a casing 60 that forms a rotating body in the unit case 600 is provided to be rotatable about a rotation center O, and the casing 60 is moved in the direction of arrow C by a drive mechanism that is not shown. It is rotated. The casing 60 is integrally formed so as to divide the developing device into three parts, thereby forming the color developing devices 62Y, 62M, and 62C.
[0016]
Each of the developing devices 62Y, 62M, and 62C is provided with cylindrical developing rollers 63Y, 63M, and 63C as developer carriers. Each of the developing rollers 63Y, 63M, and 63C is disposed so that a part of the developing roller 63Y, 63M, and 63C is exposed to the outside from the opening 60a provided in the casing 60. It rotates to develop the corresponding electrostatic latent image.
[0017]
Since each of the color developing devices 62Y, 62M, and 62C has the same form and the same operation, only the yellow developing device 62Y will be described below.
In FIG. 1, the developing device 62 </ b> Y is disposed below the photosensitive belt 1 rotated in the direction of arrow A by a pair of rotating rollers 2 and 3, and is formed on the photosensitive belt 1. A toner as a non-magnetic one-component developer is supplied to the electrostatic latent image.
[0018]
In FIG. 1, an opening 600 a is provided in a portion of the unit case 600 that faces the photosensitive belt 1. When the developing device 62Y is positioned at a developing position where the opening 60a formed in the upper portion of the developing device 62Y corresponds to the opening 600a of the unit case 600, as shown in FIG. The developing roller 63Y in the device 62Y is configured to be exposed to the outside and to face the photosensitive belt 1. The developing roller 63Y facing the photoconductor belt 1 rotates in the same direction as the photoconductor movement direction with a predetermined peripheral speed ratio with the photoconductor belt 1. Below the developing roller 63Y, a supply roller 64Y as a toner supply member made of an elastic body such as polyurethane foam slides on the developing roller 63Y and has a predetermined peripheral speed ratio with respect to the developing roller 63Y. It is provided to rotate in the same direction at the rubbing portion with 63Y.
A blade 65Y made of an elastic material such as urethane rubber is provided in the vicinity of the opening 60a on the downstream side in the moving direction of the developing roller 63Y so that the vicinity of one end thereof is in contact with the developing roller 63Y.
[0019]
Here, as shown in FIG. 3, toner storage portions 610Y, 610M, and 610C for storing different color toners are provided on the front side of each developing device. In addition, toner cartridges 611Y, 611M, and 611C serving as developer containers for storing toner to be replenished to the respective toner storage portions are detachably attached to these outer peripheries. The developing device 62, the toner storage unit 610, and the toner cartridge 611 are all integrally rotated about the rotation axis.
[0020]
In FIG. 1 described above, the screw-shaped first toner that conveys the toner from the toner storage portion 610Y on the front side of the apparatus toward the back so as to face the sliding position between the developing roller 63Y and the supply roller 64Y. A conveying member 66Y is provided below the supply roller 64Y, and a screw-shaped second toner conveying member 67Y that conveys toner from the back of the apparatus toward the front side is provided. The first toner conveying member 66Y is positioned above the supply roller 64Y at the development position, and the toner moves to the supply roller 64Y side by its own weight while being conveyed in the longitudinal direction of the toner conveying member by the toner conveying member 66Y. The toner is supplied to the surface of the supply roller 64Y.
[0021]
FIG. 4 is a longitudinal sectional view of the yellow developing device. The right side in the figure shows the front side of the apparatus, and the left side in the figure shows the back side of the apparatus. The first toner conveying member 66Y and the second toner conveying member 67Y are connected to the developing roller 63Y and the supply roller 64Y described above from the toner accommodating portion 610Y to the other longitudinal end portion (left end portion in the drawing) of the yellow developing device 62Y. They are arranged in parallel, interlocked with the developing roller 63Y and the supply roller 64Y, and rotated with a predetermined peripheral speed ratio.
[0022]
Further, as shown in FIG. 1 described above, a part of the casing 60 is formed so as to be in contact with the supply roller 64Y. The developing roller 63Y, the supply roller 64Y, and the casing 60 form the first toner conveying member 66Y. A toner conveyance space S surrounding the toner is formed.
[0023]
The first toner conveying member 66Y rotates in a predetermined direction, thereby conveying the toner from the toner container 610Y into the toner conveying space and supplying the toner onto the supply roller 64Y. The toner supplied on the supply roller 64Y is supplied while being frictionally charged on the surface of the developing roller 63Y by the supply roller 64Y, and is carried on the surface of the developing roller 63Y. The toner carried on the surface of the developing roller 63Y is made into a uniform and thin toner layer with a predetermined thickness by the blade 65Y, and the electrostatic latent image formed on the surface of the photoreceptor belt 1 is developed.
[0024]
Further, the toner that has not been used in the developing step is transported by the first toner transport member 66Y to the end of the developing device 62Y on the opposite side of the toner storage unit 610Y. A toner circulating portion 69Y is provided outside the effective diameter portion in the axial direction of the developing roller 63Y and the supply roller 64Y. The toner transported to the toner circulating portion 69Y by the first toner transport member 66Y falls to the lower portion of the yellow developing device 62Y due to gravity.
[0025]
At the bottom of the yellow developing device 62Y, the second toner transporting member 67Y is rotated so as to transport the toner in the direction opposite to the first toner transporting member 66Y, and toner that has not been used in the developing process is removed from the toner container. Transport to 610Y.
[0026]
As described above, the toner is supplied to the developing roller 63Y while being circulated and used for the developing operation.
[0027]
Next, a mechanism for supplying toner from the toner cartridge to the toner container will be described. 5A to 5D are diagrams showing the toner cartridges 611Y, 611M, and 611C and the toner storage portions 610Y, 610M, and 610C of the developing unit 6. FIG. FIG. 5A shows the home position (reference position) of the developing device unit 6. The developing device unit 6 is in the home position before and after the developing operation other than during the image forming operation. Waiting and stopped. As a developer receiving port for receiving toner supplied from the toner supply port 613Y (see FIG. 6) of the toner cartridge 611Y into the toner storage unit 610Y on the upper wall surface of the toner storage unit 610Y at the position of FIG. A toner receiving port 612Y is formed. When the developing operation is performed, the toner container 610Y is displaced from FIG. 5A to FIG. 5D by the rotation of the developing unit 6. FIG. 5B shows the positional relationship during development. In the state shown in the figure, the yellow (Y) developer is located at the development position. After completion of the Y development, the rotary developing device rotates, and the other developing devices are sequentially moved to the developing position in the order of M → C, and the developing operation in each developing device is performed. FIG. 5C shows a state where the magenta (M) developer is located at the development position, and FIG. 5D shows a state where the cyan (C) developer is located at the development position. Along with the rotation, the toner accommodated in the toner cartridge 611Y mounted on the toner accommodating portion 610Y of the yellow developing device 62Y moves in the toner cartridge 611Y by gravity. Then, when the developing unit 6 is located at the position shown in FIG. 5D, the toner collects in the vicinity of the toner replenishing port of the toner cartridge 611 and the toner receiving port 612Y of the toner containing portion 610Y. Then, at the toner replenishment position located until the developing unit 6 is located at the home position in FIG. 5A, the toner accumulated in the vicinity of the toner receiving port 612Y is as shown by the arrow. The toner falls through the receiving port 612Y into the toner storage unit 610Y. In this way, the toner supply to the toner storage portion 2Y located at the development position is satisfactorily performed, and the toner in the toner storage portion 610Y is supplied to the yellow developing device 62Y by the first toner transport member 66Y. . The other toner storage units 610C and 610M are also supplied with toner when the toner storage units 610C and 610M are positioned at the toner replenishment positions, and the toner is developed by the first toner transport members 66C and 66M. Supplied to the vessel. As a result, the toner is replenished satisfactorily to the developing device during development. Thereafter, the home position shown in FIG.
(Hereinafter, blank space)
[0028]
The toner cartridges 611Y, 611M, and 611C are configured to be detachable from the toner storage portions 610Y, 610M, and 610C of the color developing devices 62Y, 62M, and 62C, respectively, so that the toner in the toner cartridges runs out. When the developer end detection means (not shown) detects that there is no toner in the toner cartridge, the toner cartridge that has run out of toner is removed from the toner storage portion, and the toner storage portion contains toner. A new toner cartridge is loaded.
[0029]
By the way, as shown in FIG. 5C, the toner that has flowed back into the toner cartridge 611Y has the developer receiving port 612Y of the toner container 610Y as shown in FIG. In addition, when the toner cartridge 611Y is displaced above the developer replenishing port, the toner container 610Y is replenished. However, the toner is transferred from the toner cartridge 611Y to the toner container 610Y. It requires a certain amount of time.
[0030]
Accordingly, for example, the rotation speed of the developing device unit 6 is slowed at the time of switching to the developing position of each developing device, which is sufficient for supplying toner from the toner cartridges 611Y, 611M, 611C to the toner storage portions 610Y, 610M, 610C. If a sufficient time margin is provided, the toner containing portions 610Y, 610M, and 610C can be filled with sufficient toner, and stable development can be always performed. However, slowing down the rotation speed of the developing unit 6 at the time of switching to the developing position of each developing device in this way slows down the developing processing speed of each developing device and lowers the processing capability of the image forming apparatus itself. This is not preferable.
[0031]
However, if the rotation speed of the developer unit 6 is increased in order to increase the development processing capability of the developer unit 6, the toner in the toner cartridges 611Y, 611M, and 611C is transferred to the toner container in the rotation process of the developer unit 6. Only a small amount of toner is supplied to 610Y, 610M, and 610C, and a large amount of toner remains in the toner cartridges 611Y, 611M, and 611C when the predetermined developing device reaches the developing position.
[0032]
In order to solve such a problem, for example, as shown in FIG. 6, when the yellow developing device 62Y is displaced to a predetermined developing position, the toner receiving port 612Y of the toner accommodating portion 610Y of the developing device 62Y is The toner container 610Y and the toner cartridge 611Y are disposed so as to be positioned below the toner supply port 613Y of the toner cartridge 611Y, and at the edge of the toner supply port 613Y of the toner cartridge 611Y on the downstream side in the rotation direction of the developer unit. There has been proposed a developer unit provided with a partition member 614Y for storing the toner in the toner cartridge 611Y in a state displaced to the developing position in a region above the toner supply port 613Y.
[0033]
According to this developing unit, in a state where the developing device 62Y is displaced to the developing position and stopped, the toner in the toner cartridge 611Y is moved by the action of the partition member 614Y to the upper part of the toner supply port 613Y of the toner cartridge 611Y. Therefore, even if the rotation speed of the developing unit is increased, the toner container 610Y can be filled with sufficient toner, and stable development can be performed constantly.
[0034]
However, even in the developing unit provided with such a partition member 614Y, when the rotating speed exceeds a certain speed, the developing unit rotates to temporarily stop the developing unit 62Y at a predetermined developing position. The toner stored in the upper portion of the toner supply port 613Y of the toner cartridge 611Y by the action of the partition member 614Y is caused by the inertial force during the rotation of the developing unit as shown by the arrow B in FIG. And the toner cartridge 611Y remains in the toner cartridge 611Y. For this reason, in this developing unit, there is a case where sufficient toner cannot be replenished in the toner storage portion 610Y even though the amount of developer in the toner cartridge 611Y is not insufficient.
[0035]
Therefore, in the rotary developing device according to the present embodiment, as shown in FIG. 7, the tip of the partition member 614Y is perpendicular to the inertia force of the toner contained in the toner cartridge 611Y when the developing device rotates. It is formed so as to curve toward the circumferential direction upstream of the developing device rotation direction.
[0036]
Thus, by curving the tip of the partition member 614Y, the direction in which the inertial force of the toner stored in the upper portion of the toner supply port 613Y of the toner cartridge 611Y acts is the curved portion of the partition member 614Y. The toner cartridge 611Y is deflected toward the toner supply port 613Y, and the developer is prevented from getting over the partition member 614Y.
[0037]
Therefore, according to this developing unit, the toner in the toner cartridge 611Y is supplied to the toner cartridge 611Y by the action of the curved portion of the partition member 614Y when the developing device 62Y is displaced to the developing position and stopped. Since the toner can be reliably stored in the upper portion of the opening 613Y, the toner container 610Y can be filled with sufficient toner even when the rotation speed of the developing device unit is increased, and stable development can always be performed. become able to.
[0038]
Here, the illustrated partition member 614Y is formed in a curved shape at the tip thereof, but the tip of the partition member 614Y is at the time of rotation of the developer contained in the toner cartridge 611Y. It may be bent so as to be bent toward the circumferential direction upstream of the developing device rotation direction with respect to the direction perpendicular to the inertia force. Further, the partition member 614Y may have a curved or bent starting point as an edge of the toner supply port 613Y of the toner cartridge 611Y on the downstream side in the developing unit rotation direction.
[0039]
The capacity of the toner stored in the upper portion of the toner supply port 613Y of the toner cartridge 611Y by the action of the partition member 614Y is preferably larger than the capacity of the toner stored in the toner storage unit 610Y.
That is, by setting the toner capacity above the toner supply port of the toner cartridge 611Y stored by the action of the partition member 614Y to be equal to or greater than the toner capacity stored in the toner storage unit 610Y, the developing device 62Y is positioned at the development site. In this state, at least while the toner is stored in the upper portion of the toner supply port of the toner cartridge 611Y by the partition member 614Y, the toner storage portion 610Y at the development position can be always filled with the toner.
[0040]
Further, the partition member 614Y is preferably formed of a material capable of charging the toner to a polarity opposite to the polarity of the developing roller 63Y of the developing device 63Y.
That is, the partition member 614Y is formed of a material capable of charging the toner to a polarity opposite to the polarity of the developing roller 63Y of the developing unit 63Y, so that the toner can be precharged when the toner is replenished. In addition, it is possible to reduce the occurrence of reverse charging due to the friction between the toners in the toner storage unit 610Y.
[0041]
【The invention's effect】
  According to the first to third aspects of the present invention, at least the distal end portion of the partition member is curved or bent so that the curved portion of the partition member is stored in the upper portion of the developer supply port of the developer container. Since the developer can be prevented from getting over from the partition member due to the inertial force, the developer replenishment port of the developer container is acted on by the action of the partition member in a state where the developer is displaced to the developing position and stopped. It is possible to reliably store the developer in the upper part. Therefore, even if the rotation speed of the developing device unit is increased at the time of changing the developing device, the developer containing portion can be filled with sufficient developing agent, and the developer can be smoothly circulated in each developing device. Therefore, stable development can always be performed.The
[0042]
  In particular,Claim1 or 2According to the invention, the developer capacity in the upper portion of the developer supply port of the developer container stored by the action of the partition member is greater than or equal to the developer capacity accommodated in the developer accommodating portion, so that the developer is While the developer is stored at the position above the developer supply port of the developer container at least by the partition member in the state where the developer is located, the developer container at the development position is always filled with the developer. Therefore, there is an excellent effect that the image to be developed can be stabilized.
[0043]
  In particular,Claim3According to the invention, since the partition member is formed of a material capable of charging the developer to a polarity opposite to the polarity of the developer carrying member of the developing device, the developer is precharged when the developer is replenished. Therefore, it is possible to alleviate the occurrence of reverse charging due to friction between the developers in the developer accommodating portion, and it is possible to form an excellent image.
[Brief description of the drawings]
FIG. 1 is a front view illustrating a schematic configuration of a developing unit of a rotary developing device according to an embodiment.
FIG. 2 is a schematic configuration diagram of a yellow developing unit of the developing unit.
FIG. 3 is a perspective view showing an appearance of the developing unit.
FIG. 4 is a longitudinal sectional view of a yellow developing unit of the developing unit.
FIGS. 5A to 5D are explanatory views for explaining a movement state of a developer in a toner cartridge and a toner storage unit when each color developing device is rotated;
FIG. 6 is a cross-sectional view showing a main part of a developing device as a comparative example of the rotary developing device according to the embodiment.
FIG. 7 is a cross-sectional view showing a main part of the developing device of the rotary developing device according to the embodiment.
[Explanation of symbols]
1 Photoconductor belt
6 Developer unit
62Y Yellow developer
63Y Development roller for yellow developer
64Y Yellow developer supply roller
65Y Yellow developer blade
66Y First toner conveying member of yellow developing device
67Y Second toner conveying member of yellow developing device
610Y Toner container for yellow developer
611Y Yellow developer toner cartridge
612Y Yellow developer container toner receiving port
613Y Yellow developer unit toner supply port
Screen member of 614Y yellow developer

Claims (3)

A plurality of developing units disposed around the rotation axis, a developer containing portion having a developer receiving port configured integrally with the developing unit so as to communicate with the developing unit, and the developing unit; A developer replenishing port opposite to the developer receiving port, and a developer container containing the developer replenishing port and a developer container replenished to the developer containing portion through the developer receiving port. A rotary developing device that performs development by rotating an arbitrary developing device to a developing position facing the latent image carrier by rotation of the developing device, and the developing device is displaced to a predetermined developing position. The developer container and the developer container are disposed such that the developer receiving port of the developer container of the container is positioned below the developer supply port of the developer container, and the developer container The developer replenishment port is displaced to the developing position at the edge downstream of the developer rotation direction. The rotary type developing device shielding member is provided in order to reservoir the developer in the developer container in the state above the site of the developer supply port,
At least the front end of the partition member is bent toward the circumferential direction upstream of the developer rotation direction with respect to the direction perpendicular to the inertia force of the developer contained in the developer container during rotation of the developer. The volume of the developer that is formed to be curved and that is stored in the upper portion of the developer supply port of the developer container by the action of the partition member is the amount of developer stored in the developer storage section. A rotary developing device having a capacity greater than or equal to the capacity . The rotary developing device according to claim 1 ,
A rotary developing device, wherein the partition member is formed of a material capable of charging the developer to a polarity opposite to the polarity of a developer carrying member of the developing device.   A plurality of developing units disposed around the rotation axis; a developer containing portion having a developer receiving port configured integrally with the developing unit so as to communicate with the developing unit; and the developing unit A developer replenishing port opposite to the developer receiving port, and a developer container that contains the developer replenishing port and a developer container that replenishes the developer replenishing portion through the developer receiving port. A rotary type developing device that performs development by displacing an arbitrary developing device to a developing position facing the latent image carrier by rotation of the developing device, with the developing device being displaced to a predetermined developing position. The developer container and the developer container are arranged so that the developer receiving port of the developer container of the container is positioned below the developer supply port of the developer container, and the developer container At the edge of the developer replenishment port on the downstream side of the developer rotation direction, the developer is displaced to the developing position. The rotary type developing device shielding member is provided in order to reservoir the developer in the developer container in the state above the site of the developer supply port,
At least the front end of the partition member is bent toward the circumferential direction upstream of the developer rotation direction with respect to the direction perpendicular to the inertial force of the developer contained in the developer container when the developer rotates. A rotary developing device, wherein the partition member is formed of a material which is formed to be curved and can charge the developer to a polarity opposite to the polarity of the developer carrying member of the developing device.

Images