Process cartridge, assembling method therefor and electrophotographic image forming apparatus

Information

  • Patent Grant
  • 6519431
  • Patent Number
    6,519,431
  • Date Filed
    Monday, May 22, 2000
    24 years ago
  • Date Issued
    Tuesday, February 11, 2003
    21 years ago
Abstract
A process cartridge detachably mountable to a main assembly of an electrophotographic image forming apparatus, includes a developing member for developing an electrostatic latent image formed on an electrophotographic photosensitive drum, a toner accommodation frame having a developer accommodating portion for accommodating a developer to be used by a developing member to develop the electrostatic latent image, a drum frame for supporting the electrophotographic photosensitive drum, a developing frame for supporting the developing member, the developing frame being swingably coupled with the toner accommodation frame, a first end cover connected with the drum frame and the developing frame at one longitudinal end of each of the drum frame and the developing frame, and a second end cover connected with the drum frame and the developing frame at the other longitudinal end of the drum frame and the developing frame.
Description




FIELD OF THE INVENTION AND RELATED ART




The present invention relates to a process cartridge, an assembling method therefor and an electrophotographic image forming apparatus.




Here, the electrophotographic image forming apparatus forms an image on a recording material through an electrophotographic image-formation type process. Examples of electrophotographic image forming apparatus include an electrophotographic copying machine, an electrophotographic printer (a laser beam printer, an LED printer or the like), a facsimile machine and a word processor.




The above-described process cartridge contains as a unit an electrophotographic photosensitive member and a charging means, a developing means or a cleaning means in the form of a cartridge that is detachably mountable to a main assembly of an image forming apparatus. The process cartridge may contain an electrophotographic photosensitive member and at least one of a charging means, a developing means and a cleaning means in the form of a cartridge that is detachably mountably to a main assembly of an image forming apparatus. The process cartridge may contain an electrophotographic photosensitive member and at least developing means in the form of a cartridge that is detachably mountably to a main assembly of an image forming apparatus.




With a process cartridge type apparatus, the servicing or maintenance operations can be in effect carried out by the users, so that the operativity is significantly improved, and therefore, the process cartridge type is widely used in the electrophotographic field.




As shown in

FIG. 23

, the process cartridge


45


comprises a developing device frame


43


supporting a developing roller


18


and a toner accommodating container


46


, which are welded with each other by ultrasonic welding. To the developing unit, a cleaning frame


47


which supports a photosensitive drum


11


, a charging roller


12


and a cleaning blade


14


, is coupled by a pin


49


. A compression coil spring


42


is provided between the cleaner frame


47


and developing device frame


43


. By this, the photosensitive drum


11


and the developing roller


18


are urged toward each other with spacer rollers therebetween.




In the electrophotographic image forming apparatus of the process cartridge type, there is a demand is for a large capacity developer (toner) accommodating container and a large removed toner container to extend the time period until the necessity of exchange of the process cartridge.




However, when the capacity of the developer accommodating container is increased, the weight of the developer increases. As a result, the loads imparted to the developing roller and the photosensitive drum are increased correspondingly.




Additionally, the loads change with consumption of the developer. Furthermore, the developer per se adjacent the developing roller


48


are influenced by the weight of the developer.




SUMMARY OF THE INVENTION




The present invention is directed to a solution to the problem.




Accordingly, it is a principal object of the present invention to provide a process cartridge and an electrophotographic image forming apparatus wherein the image quality is stabilized even if the accommodation capacity of the developer (toner) is increased.




It is another object of the present invention to provide a process cartridge, an assembling method for the process cartridge and an electrophotographic image forming apparatus in which the load imparted by the weight of a developer to a developing member and an electrophotographic photosensitive drum is reduced.




It is a further object of the present invention to provide a process cartridge, an assembling method for the process cartridge and an electrophotographic image forming apparatus in which the change in the load imparted by the weight of the developer to a process cartridge, the developing member, and the electrophotographic photosensitive drum, can be reduced.




According to an aspect of the present invention, there is provided a process cartridge detachably mountable to a main assembly of an electrophotographic image forming apparatus, comprising:




a developing member for developing an electrostatic latent image formed on the electrophotographic photosensitive drum;




a toner accommodation frame having an developer accommodating portion for accommodating a developer to be used by the developing member to develop the electrostatic latent image;




a drum frame for supporting the electrophotographic photosensitive drum;




a developing frame for supporting the developing member, the developing frame being swingably coupled with the toner accommodation frame;




a first end cover connected with the drum frame and the developing frame at one longitudinal end of each of the drum frame and the developing frame; and




a second end cover connected with the drum frame and the developing frame at the other longitudinal end of the drum frame and the developing frame.




These and other objects, features and advantages of the present invention will become more apparent upon a consideration of the following description of the preferred embodiments of the present invention taken in conjunction with the accompanying drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a sectional view of the process cartridge in the preferred embodiment of the present invention, at a plane perpendicular to the longitudinal direction of the cartridge.





FIG. 2

is a schematic vertical sectional view of the image forming apparatus in the preferred embodiment of the present invention, at a plane perpendicular to the process cartridge.





FIG. 3

is a schematic, perspective, and exploded view of the process cartridge in the preferred embodiment of the present invention, and depicts the general structure of the cartridge.





FIG. 4

is a schematic perspective view of the process cartridge in the preferred embodiment of the present invention, and shows the general structure of the cartridge.





FIG. 5

is a schematic perspective view of a disassembled essential portion of the process cartridge in the preferred embodiment of the present invention.





FIG. 6

is a schematic side view of the process cartridge in the preferred embodiment of the present invention.





FIG. 7

is a schematic side view of the process cartridge in the preferred embodiment of the present invention.





FIGS. 8



a


and


8




b


are schematic side views of an essential portion of the process cartridge in the preferred embodiment of the present invention.





FIG. 9

is a diagram which depicts the driving system of the process cartridge in the preferred embodiment of the present invention.





FIG. 10

is a vertical sectional view of the process cartridge in another embodiment of the present invention.





FIG. 11

is a plan view of the disassembled process cartridge in another embodiment of the present invention.





FIG. 12

is a horizontal sectional view of a portion of the process cartridge in another embodiment of the present invention.





FIG. 13

is a side view of the process cartridge in another embodiment of the present invention.





FIG. 14

is a front view of the sealing member in the preferred embodiment of the present invention.





FIG. 15

is a perspective view of the sealing member in another embodiment of the present invention.





FIG. 16

is a vertical sectional view of the process cartridge in another embodiment of the present invention.





FIG. 17

is a vertical sectional view of the process cartridge in another embodiment of the present invention.





FIG. 18

is a vertical sectional view of the process cartridge in another embodiment of the present invention.





FIG. 19

is a perspective drawing which shows the installation and removal of the process cartridge into and from the main assembly of an image forming apparatus.





FIG. 20

is a perspective view of the impeller equipped gear of the process cartridge.





FIG. 21

is a sectional view of the impeller equipped gear, at a plane B—B in FIG.


20


.





FIG. 22

is a sectional view of the impeller equipped gear, at a plane A—A in FIG.


20


.





FIG. 23

is a vertical sectional view of an example of a conventional process cartridge.











DESCRIPTION OF THE PREFERRED EMBODIMENTS




The preferred embodiments of the present invention will be described with reference to

FIGS. 1-9

.




In these embodiments, the term “longitudinal direction” refers to the direction which is perpendicular to the recording medium conveyance direction, and is parallel to the plane of the recording medium.




Process Cartridge ad Main Assembly of Electro-photographic Image Forming Apparatus





FIG. 1

is a sectional view of the essential portion of the process cartridge in accordance with the present invention.

FIG. 2

is a sectional view of the essential portion of an image forming apparatus in accordance with the present invention. This process cartridge is provided with an electrophotographic photosensitive member, and a processing means that acts on the electrophotographic photosensitive member. The processing means can comprise for example, a charging means for charging the peripheral surface of the electrophotographic photosensitive member, a developing means for developing an electrostatic latent image formed on the electro-photographic photosensitive member, and a cleaning means for removing the toner remaining on the peripheral surface of the electrophotographic photosensitive member.




As shown in

FIG. 1

, the process cartridge


15


in this embodiment comprises: an electrophoto-graphic photosensitive member


11


(hereinafter, “electrophotographic photosensitive drum”) in the form of a drum; a charge roller


12


as a charging member; a developing apparatus comprising a development roller


18


as a developing member, and a development blade


26


; a cleaning blade


14


as a cleaning member; and a housing in which the preceding components are integrally disposed. The process cartridge


15


is removably installable in the main assembly


27


of an electrophotographic image forming apparatus (hereinafter, “apparatus main assembly”).




The development roller


18


is a cylindrical member formed of metallic material such as aluminum, stainless steel, or the like, and contains a nonconducting magnetic roller (unillustrated).




Referring to

FIG. 2

, this process cartridge


15


is installed in an electrophotographic image forming apparatus C, for image formation.




A sheet S is fed out of a sheet cassette


6


in the bottom portion of the apparatus, by a conveyer roller


7


. In synchronism with the conveyance of this sheet S, the photosensitive drum


11


is exposed by an exposing apparatus


8


according to the image data. As a result, an electrostatic latent image is formed on the photosensitive drum


11


. Thereafter, the developer (hereinafter, “toner”) stored in a toner storage container


16


is triboelectrically charged by a development blade


26


, and this developer is borne on the peripheral surface of the development roller


18


. Then, as development bias is applied to the development roller


18


as a developing member, the toner is supplied to the photosensitive drum


11


. As a result, an image formed of toner (hereinafter, “toner image”) is formed on the photosensitive drum


11


, corresponding to the electrostatic latent image. Next, this toner image is transferred onto the sheet S, as a recording medium, by applying bias (voltage) to a transfer roller


9


. Then, the sheet S is conveyed to a fixing apparatus


10


, in which the toner image is fixed. Next, the sheet S is discharged by a discharge roller


1


into a delivery portion


2


provided on the top side of the apparatus. Meanwhile, the toner which remained on the photosensitive drum


11


after the image transfer is removed by a cleaning blade


14


as a cleaning member. The removed toner is moved rearward of a removed toner storage bin


5


by a removed toner conveying member


115


. It should be noted here that prior to the above-described, photosensitive-drum exposure, the photosensitive drum


111


is charged by a charge roller as a charging member.




Structure of Process Cartridge Frame





FIGS. 3 and 4

are perspective views which show the structure of the process cartridge frame.

FIG. 3

shows the process cartridge frame prior to its assembly, and

FIG. 4

shows the process cartridge after its assembly.




The process cartridge


15


comprises three frame pieces: a cleaning-means frame


13


as a drum frame that integrally supports the photosensitive drum


11


, a charge roller


12


, and a cleaning blade


14


; a developing-means frame


17


that integrally supports the development roller


18


, and a development blade (unillustrated in

FIG. 3

, and designated by a reference code


26


in FIG.


4


); and a toner-storage frame


16


provided with a toner-storage portion


16




d


in which toner is stored. Further, the process cartridge


15


in this embodiment comprises a pair of side covers


19


and


20


that are fixed to the longitudinal ends of the cleaning-means frame


13


and toner-storage frame


16


to hold the frames


13


and


16


together. The development-means frame


17


is supported by the cleaning-means frame


13


.




To the cleaning-means frame


13


, the cleaning blade


14


is fixed with the use of small screws. The charge roller


12


is rotatably supported by the longitudinal ends, by bearings (unillustrated). Referring again to

FIG. 1

, in the cleaning-means frame


13


, the removed toner conveying member


115


for conveying the toner removed by the cleaning blade


14


, into the removed toner bin


5


, is rotatably disposed. In addition, in the cleaning-means frame


13


, the photosensitive drum


11


is rotatably supported, with the flange portions, that is, the longitudinal end portions, of the photosensitive drum


11


, supported by a pair of bearings


22




a


and


22




b


. The toner-storage frame


16


stores toner therein, and comprises a pair of toner conveying members


113


and


114


(

FIG. 1

) for conveying the stored toner toward the development roller


18


. These toner conveying members may be provided with a toner stirring function.




The detailed description of the development means frame


17


will be given later.




The aforementioned side covers


19


and


20


are large enough to match in size the primary cross section (cross section at a plane perpendicular to the longitudinal direction of the photosensitive drum


11


) of the process cartridge


15


. They are positioned at the longitudinal ends of the process cartridge


15


(end portion in terms of the longitudinal direction of the photosensitive drum


11


), one for one, covering, and being fixed to, both the cleaning-means frame


13


and the toner-storage frame


16


. With this arrangement, the side covers


19


and


20


integrally hold together the cleaning-means frame


13


and the toner-storage frame


16


. The holes


19




a


and


20




a


with which the side covers


19


and


20


are provided, respectively, are aligned with the rotational axis of the photosensitive drum


11


in the the cleaning-means frame


13


. In the hole


13




a


of the side cover


19


, that is, the side cover illustrated on the front side of the drawing, with which cleaning-means frame


13


is provided, the bearing


22




a


is press fitted. Also, a shaft


25


is put through the hole


19




a


of the side cover


19


, the bearing


22




a


, and the center hole


11




a




1


of the flange


11




a


, to rotatably support one of the longitudinal encls of the photosensitive drum


11


by the cleaning-means frame


13


. With this arrangement, the side cover


19


is precisely positioned by the bearing


22




a


, improving the accuracy in terms of the positional relationship of the side cover


19


with respect to the photosensitive drum


11


. Further, a positioning member


19




b


, with which the side cover


19


is provided, and which is located so that its position becomes as far away as possible from the photosensitive drum


11


after the attachment of the side cover


19


, is engaged with a positioning portion


13




b


with which the side wall


13




c


of the cleaning means frame


13


is provided. As a result, the position of the side cover


19


, in terms of the rotational direction of the side cover


19


with respect to the center, or the axial line, of the photosensitive drum


11


, is fixed. Then, the side cover


19


is fixed to the side wall


13




c


, that is, the wall at the longitudinal end, of the cleaning-means frame


13


. The toner-storage frame


16


is provided with a pair of cylindrical positioning portions


16




a


and


16




b


, which project from one of the side walls


16




d


, that is, the wall at the longitudinal end, of the toner-storage frame


16


, in the longitudinal direction of the toner-storage frame


16


. These positioning portions


16




a


and


16




b


are fitted in the positioning portion


19




c


and


19




d


, that is, holes, respectively, with which the side cover


19


is provided, accurately positioning the toner-storage frame


16


relative to the side cover


19


. Then, the toner-storage frame


16


and side cover


19


are fixed to each other. The other side cover


20


is similarly fixed to the toner-storage frame


16


and the cleaning-means frame


13


, being accurately positioned relative to each other. The developing-means frame


17


is positioned using a method that will be described later. The bearings


22


(


22




a


and


22




b


) double as members for positioning the process cartridge


15


relative to the apparatus main assembly


27


.




Joining of Toner Storage Frame and Developing Means Frame




In order to supply toner from the toner-storage frame


16


to the development roller


18


, the toner-storage frame


16


and the development-means frame


17


are provided with opening


16




c


(

FIG. 1

) and


17




a


. Further, the development-means frame


17


and the toner-storage frame


16


are joined with each other in such a manner that their internal spaces become connected to each other through the openings


17




a


and


16




c


, with a sealing means


21


as a flexible sealing means disposed between the two frames. As described above, the position of the toner-storage frame


16


is fixed relative to the side covers


19


and


20


, whereas the position of the development-means frame


17


is fixed relative to the cleaning-means frame


13


. Therefore, the frames


16


and


17


are attached to each other in a manner to allow them to pivot relative to each other to absorb the dimensional errors of the two frames. When installed into the apparatus main assembly


17


, the position of the process cartridge


15


is fixed relative to the cartridge installation space of the apparatus main assembly


27


, by the cleaning-means frame


13


, which supports the photosensitive drum


11


. The toner-storage frame


16


is substantially different in weight between the beginning of its usage when it contains toner, and the end of its usage when it is empty. Therefore, flexible material is used as the material for the sealing member


21


. With this setup, even if a deformation occurs to the toner-storage frame


16


, or one or both of the side covers


19


and


20


, the deformation can be absorbed.





FIG. 18

is a vertical sectional view of a process cartridge equipped with a flexible sealing member different from the above described sealing member


21


.




A sealing member


60


as a flexible sealing means is formed of elastic material such as foamed synthetic resin (for example, foamed urethane), rubber with a low degree of hardness, silicon rubber, or the like. This sealing member


60


is in the form of a piece of plate with a large opening


60




a


. After the installation of the sealing member


60


, the opening


60




a


aligns with both the openings


17




a


and


16




c


. The size of the opening


60




a


is approximately the same as those of the openings


17




a


and


16




c


. The sealing member


60


is pasted to either to the surface of the development-means frame


17


or the surface of the toner-storage frame


16


, which face each other, or both of the surfaces. The sealing member


60


is not pasted to the portion of the toner-storage frame


16


, corresponding to the area through which the toner seal


24


is passed when the toner seal


24


is pulled out.




The thickness of the sealing member


60


is greater than the distance, after the completion of the assembly of the process cartridge


15


, between the surface


17




g


of the developing-means frame


17


and the surface


16




f


of the toner-storage frame


16


.




Therefore, after the completion of the assembly of the process cartridge


15


, the sealing member


60


is compressed by the mutually facing surfaces


17




g


and


16




f


as shown in FIG.


18


. The reactive force generated by the compression of the sealing member


60


acts as the pressure which keeps the spacer rollers


18




b


of the development roller


18


pressed upon the photosensitive drum


11


. Therefore, the reactive force which the sealing member


60


generates is desired to be as small as possible.




With the provision of the above described structure, the load generated by the weight of the toner applies to the side covers


19


and


20


, instead of applying to the development roller supported by the development means frame


17


. Thus, the photosensitive drum


11


is not subjected to the load generated by the weight of the toner, and therefore, a stable image can be formed, even if the amount of the toner in the toner-storage frame


16


increases.




Structure of Developing Means Frame




Referring to

FIGS. 3

,


5


,


6


and


7


, the structure of the developing means frame will be described.

FIG. 3

represents the state of the developing-means frame prior to assembly.

FIGS. 5

,


6


and


7


are drawings for describing the structure of the developing-means frame involved in the pressure application to the developing-means frame.




To the development-means frame


17


, the development roller


18


, which contains the magnetic roller


18




a


, the development blade


26


(FIG.


1


), and a magnetic seal (unillustrated) are attached. A magnetic roller


18




a


is put through the longitudinal center hole of the development roller


18


, and is nonrotationally supported by a developing-means frame


17


, at each of the longitudinal ends. There is maintained a gap between the development roller


18


and magnetic roller


18




a


. The development roller


18


is rotationally supported by the developing-means frame


17


, at each of the longitudinal ends. For the power supply to the development roller


18


, electrical contacts are provided within the development roller


18


. Further, both of the longitudinal end portions of the development roller


18


are fitted with a ring


18




b


(spacer rig) (

FIG. 3

) for maintaining a predetermined distance between the peripheral surfaces of the photosensitive drum


11


and development roller


18


.




The developing-means frame


17


is provided with an arm portion


17




c


, which is on the driven side, that is, one of the longitudinal ends of the development roller


18


, from which the development roller


18


is driven. The end portion of this arm portion


17




c


is provided with a hole


17




d


, the center of which functions as the pivotal center. The developing-means frame


17


is pivotally supported by a cleaning-means frame


13


, in such a manner that the central axes of the photosensitive drum


11


and development roller


18


remain parallel to each other. More specifically, a pin


17




d




1


is fitted in the hole


17




d


of the development-means frame


17


and the hole (unillustrated) of the cleaning-means frame


13


, so that the development-means frame


17


becomes pivotable about the center of the hole


17




d


. In addition, as described above, the cleaning-means frame


13


and toner-storage frame


16


are immovably fixed to each other. Thus, the development-means frame


17


is movable relative to the toner-storage frame


16


. Next, referring to

FIG. 16

, the hooks of a tensional coil spring


36


are fitted around the spring anchoring projections


13




d


and


17




f


of the cleaning-means frame


13


and development-means frame


17


, respectively, to provide such force that keeps the development roller


18


pressed toward the photosensitive drum


11


, by their longitudinal ends. It should be noted here that in terms of the longitudinal direction of the photosensitive drum


11


, the hole


17




d


is located on the driven side of the photosensitive drum


11


. The drive side means the side by which the driving force is received when the process cartridge


15


is in the apparatus main assembly


27


. The non-driven side means the side opposite to the driven side in terms of the longitudinal direction of the electrophotographic photosensitive drum


11


.




Furthermore, the non-driven side of the developing-means frame


17


is provided with a projecting member


17




e


, which is fixed to the development-means frame


17


with the use of screws


17




e




2


and projects in the direction of the rotational axis of the development roller


18


. This projecting member


17




e


is under the pressure which keeps it pressed toward the photosensitive drum


11


while keeping the rotational axes of the photosensitive drum


11


and development roller


18


parallel to each other. The longitudinal ends of the cleaning-means frame


13


and toner-storage frame


16


, on the non-driven side, are covered with a side cover


19


, which is attached thereto with the use of screws


100


.




The longitudinal ends of the cleaning means frame


13


and toner storage


16


, on the other side, or the driven side, are covered with a side cover


20


, which is attached thereto with the use of screws


100


(FIG.


3


).




Conversely, the cleaning-means frame


13


and toner-storage frame


16


are fixed to the side covers


19


and


20


. Further, the development-means frame


17


is movable relative to the cleaning-means frame


13


and the toner-storage frame


16


, with one of the longitudinal ends of the development-means frame


17


being supported by the cleaning-means frame


13


and the other being supported by the side cover


19


.




Development Roller Pressing System




The end


17




e




1


of the projecting member


17




e


is inserted in a groove


19




e


, as a guiding portion, with which the side cover


19


is provided. The groove


19




e


extends toward the rotational axis of the photosensitive drum


11


, allowing the projecting member


17




e


to move toward the rotational axis of the photosensitive drum


11


. In the groove


19




e


, a compression coil spring


23




b


as an elastic member, and a slide piece


23




a


as a pressing member, slidable in the longitudinal direction of the groove


19




e


, are disposed so that pressure is applied to the projecting member


17




e


through the slide piece


23




a.






Further, this groove


19




e


functions as a positioning member for regulating the direction in which the development roller


18


(developing means frame


17


) is allowed to move. In other words, the development roller


18


is allowed to displace only in the direction parallel to the longitudinal direction of this groove


19




e


, since the moving direction of the projecting member


17




e


is regulated by the internal surface of the groove


19




e.






As the process cartridge


15


receives a driving force from the apparatus main assembly


27


, the force is applied to the gears


105




b


and


107




b


(FIG.


9


), which are attached to the longitudinal ends of the photosensitive drum


11


and development roller


18


, respectively, in a direction parallel to the central axis of the hole


17




e


to move the gears


105




b


and


107




b


so that they engage each other (it does not occur that the force is applied in the direction to separate the gears


105




b


and


107




b


from each other). In other words, the gears


105




b


and


107




b


are disposed so that the extension of the transverse line of action between the gears


105




b


and


107




b


runs adjacent to the hole


17


d. Further, the center line of the hole


17




d


and the rotational axis of the photosensitive drum


11


are disposed on the same side with respect to the transverse line of action. Furthermore, the development roller


18


is under the force from the aforementioned compression coil spring


23




b


, being kept pressed toward the photosensitive drum


11


.




The above description of this embodiment may be summarized as follows.




The process cartridge


15


removably installable in the main assembly


27


of an image Forming apparatus comprises: the electrophotographic photosensitive drum


11


; the development roller


18


as a developing member for developing the electrostatic latent image formed on the electrophotographic photosensitive drum


11


; the cleaning-means frame


13


as a frame for supporting the electrophotographic photosensitive drum


11


; and the developing-means frames


17


for supporting the development roller


18


. The developing-means frame


17


is provided with the projecting member


17




e


, which is attached to one of the longitudinal ends of the development roller


18


, and projects in the longitudinal direction of the development roller


18


. The projecting member


17




e


is fitted in the groove


19




e


as a guiding portion, being enabled to move in the groove


19




e


toward, or away from, the cleaning-means frame


13


. The developing-means frame


17


is pivotally joined with the cleaning-means frame


13


, at the other longitudinal end of the development roller


18


. The development roller


18


is supported by the development-means frame


17


, being enabled to move in the direction perpendicular to its rotational axis. The process cartridge


15


further comprises the compression coil spring


23




b


as an elastic member for generating such pressure that keeps the projecting member


17




e


pressed toward the cleaning-means frame


13


while allowing the projecting member


17




e


to move in the groove


19




e


in a direction perpendicular to the central axis of the projecting member


17




e.






The groove


19




e


as a guiding member is provided with a recess


19




e




1


, in which the end


17




e




1


of the projecting member


17




e


is fitted. Within the recess


19




e




1


, the coil spring


23




b


, as an elastic member, is fitted in such a manner that the projecting member


17




e


is kept pressed toward the cleaning means frame


13


by the elastic force of the coil spring


23




b


. With this arrangement, the development roller


18


is pressed upon the electrophotographic photosensitive drum


11


with the interposition of a pair of spacer rollers


18




b


between the peripheral surfaces of the development roller


18


and the electrophotographic photosensitive drum


11


. The spacer rollers are fitted around the longitudinal ends of the development roller


18


, one for one.




To the end of the coil spring


23




b


, the slide piece


23




a


as a pressing member is attached. The slide piece


23




a


makes contact with the flat portion


17




e




3


of the projecting member


17




e


, pressing the projecting member


17




e


due to the elastic force of the coil spring


23




b


. The coil spring


23




b


is fitted in the groove


19




e


, being allowed to slide within the groove


19




e.






The projecting member


17




e


is disposed so that its axial line approximately aligns with the rotational axis of the development roller


18


.




The development-means frame


17


is rotationally supported by the cleaning-means frame


13


, by the other longitudinal end of the development roller


18


, at a position away from the rotational axis of the development roller


18


rotationally supported also by the developing-means frame


17


, with the pin


17




d




1


fitted through the developing means frame


17


and cleaning-means frame


18


.




Further, at the other longitudinal end of the development roller


18


, the tension spring


36


is stretched between the development-means frame


17


and cleaning-means frame


13


, with one end of the tension spring


36


attached to the development-means frame


17


and the other end attached to the cleaning-means frame


13


.




The groove


19




e


is provided in the inwardly facing surface of the side cover


19


, as a first side cover, attached to the longitudinal ends of the cleaning-means frame


13


and development-means frame


17


, at each of their longitudinal ends.




It is necessary that the toner-storage frame


16


and development-means frame


17


are joined so that toner does not leak from the joint between the opening


16




c


of the toner-storage frame


16


and the opening


17




a


of the development-means frame


17


. On the other hand, the development-means frame


17


and the toner-storage frame


16


need to be pivotable relative to each other. Therefore, in this embodiment, a sealing member


21


, the size of which matches the size of the moving ranges of both opening portions, is placed between the opening portion of the toner-storage frame


16


and the opening portion of the development-means frame


17


, to prevent the toner leakage. This sealing member


21


is pinched between the two opening portions, with the opening of the sealing member


21


aligning with the openings


16




c


and


17




a


. The sealing member


21


is desired to be shaped not to generate such force that impedes the movement of the development means frame


17


; more specifically, it is provided with at least one fold, or it is in the form of a bellows. It is possible that the surface surrounding the opening


16




c


or


17




a


is provided with a groove which surrounds the opening, and in which an O-ring is fitted to seal the joint between the toner-storage frame


16


and the development-frames frame


17


while allowing the gap between the two frames to be variable.




In this embodiment, the sealing member


21


is formed of elastomer, and is provided with two folds (unillustrated), to reduce the overall resiliency of the sealing member


21


. However, the material for the sealing member


21


does not need to be limited to the elastomer. It may be any material superior in flexibility, for example, foamed urethane, rubber with a low degree of hardness, silicone rubber, or the like. If the material used for the sealing member


21


is small in reactive force, the same effects at those obtained with the provision of the folds, that is, the shaping of the sealing member


21


in the form of a bellows, can be obtained without such provision or shaping.




Driving System





FIG. 9

is a diagram which depicts the drive train in this embodiment.




An arrow mark X indicates the direction in which the process cartridge


15


is installed into the apparatus main assembly


27


.




The driving force sources


101


and


102


(for example, an electric motor) provided in the apparatus main assembly


27


are connected to couplings


103


and


104


. As the process cartridge


15


is installed into the apparatus main assembly


27


, the couplings


103


and


104


are engaged with couplings


105




a


and


16




a


, respectively, with which the process cartridge


15


is provided. The couplings


105




a


and


106




a


rotate with the input gears


105




b


and


106




b


, respectively. The coupling


106




a


is supported by a bearing


116




c


. The coupling


105




a


is integral with the gear


105




b


, or is an integral part of a gear flange


105


. The gear flange


105


is supported by a bearing


116




b.






Next, the driving system of the process cartridge will be described.




To one of the longitudinal ends of the photosensitive drum


11


, the gear flange


105


is fixed. To one of the longitudinal ends of the development roller


18


, a gear flange


107


is fixed. The gear flanges


105


is integrally formed with the gear


105




b


. Similarly, the gear flange


107


is integrally formed with the gear


107




b


. To the other longitudinal end of the photosensitive drum


11


, a bearing flange


119


is fixed, and to the other longitudinal end of the development roller


18


, a bearing flange


120


is fixed. The photosensitive drum


11


are development roller


18


being to their own units. The gear


105




b


is in mesh with the sleeve gear


107




b.






As the coupling


103


is rotated by the driving force from the driving force source


101


provided in the apparatus main assembly


27


, the photosensitive drum


11


and development roller


18


are rotated. The photosensitive drum unit is rotationally supported by the bearings


116




b


and


117




b


. The development roller


18


is rotationally supported by the development-means frame


17


. Further, the development roller


18


is rotated while maintaining an optimal gap, which is provided by the aforementioned spacer rollers


18




b


, from the peripheral surface of the photosensitive drum


11


. The bearings


116




b


and


117




b


are the surfaces themselves of the holes with which the cleaning-means frame


13


is provided, or the bearings


22


(

FIG. 3

) fixed to the cleaning-means frame


13


. In the bearings


116




b


and


117




b


, the journal portions


105




c


and


119




b


of the flanges


105


and


109


, respectively, are fitted.




Next, the driving of toner conveying members


113


and


114


will be described.




To the toner conveying member


114


, a driving force is transmitted from the input gear


106




b


. The toner conveying member


114


is directly connected to the shaft of the gear


106




b


. The driving force is transmitted to the toner conveying member


113


through an idler gear


108


meshed with the input gear


106




b


, and a toner conveyance gear


109


meshed with the idler gear


108


. The idler gear


108


is rotationally supported by the shaft


108




a


. Thus, as the input gear


106




b


rotates, the toner conveyance gear members


114


and


113


follow the rotation of the input gear


106




b


because their journal portions are rotationally supported by the bearings


116




b


and


116




e


, and the bearings


117




c


and


117




d


, respectively.




Further, in a removed toner bin


5


, with which the cleaning means frame


13


is provided to collect the removed toner, a feather-shaped toner conveying member


115


for conveying the toner removed from the photosensitive drum


11


is disposed. This removed toner conveying member


115


is rotationally supported by the cleaning means frame


13


, with the use of bearings


116




a


and


117




a


. To one of the longitudinal ends of the toner conveying member


115


, an input gear


112


fixed. This gear


112


is indirectly meshed with an output gear


110


, through idler gears


111




c


,


111




b


and


111




a.






To the other longitudinal end (non-driven side) of the toner conveying member


114


, the output gear


110


is fixed. The idler gears


11




a


,


11




b


and


11




c


are rotationally supported by the bearing portions


117




e


,


117




f


,


117




g


, by their shaft portions. Thus, as the toner conveying member


114


rotates, the removed toner conveying member


115


follows the rotation of the toner conveying member


114


. In other words, the driving force received by the gear


106




b


is transmitted to the other longitudinal end of the toner conveying member through the toner conveying member


114


. Then, it is transmitted to the conveying member


115


through the gears


111




a


,


111




b


,


111




c


and


112


, at the other longitudinal end (on the non-driven side). The above positional arrangement of the components of the driving system assures that the driving force is efficiently delivered to both the driven and non-driven sides through the driving system.




As described above, the transmission of the driving force throughout the process cartridge


15


is separately shared by a driving system for transmitting the driving force to the photosensitive drum


11


and development roller


18


, and another driving system for transmitting the driving force to the toner conveying members and removed toner conveying members, to which the driving force is delivered from the driving force source


101


and


102


, respectively.




In addition to the above described structural arrangement, according to which the driving force is transmitted from the output portion of the toner conveying member


114


to the removed toner conveying member


115


, the following arrangements are conceivable: (1) the removed toner conveying member


115


is driven by transmitting the driving force by way of the toner conveying member


113


with the provision of the similar structure; (2) the removed toner conveying member


115


is driven by transmitting the driving force by way of any of the input gears


106




b


and


109


, and the idler gear


108


, through the gear trains; or (3) the removed toner conveying member


115


is driven by an idler gear attached to the end of the shaft of the idler gear


108


extended to the non-driven side.




The above described embodiment may be summarized as follows.




The process cartridge


15


removably installable in the main assembly


27


of an electrophotographic image forming apparatus comprises: the electrophotographic photosensitive drum


11


; the development roller


18


as a developing member for developing the electrostatic latent image formed on the electrophotographic photosensitive drum


11


; the toner-storage portion


16




d


as a developer storage portion for storing the developer t used for developing the electrostatic latent image; the toner conveying members


113


and


114


as a developer conveying member for conveying the toner t stored in the toner-storage portion


16




d


, toward where the development roller


18


is disposed; a combination of the coupling


105




a


and input gear


105




b


as the first driving force transmitting means for receiving the driving force for rotating the electrophotographic photosensitive drum


11


from the apparatus main assembly


27


and transmitting the received driving force to the electrophotographic photosensitive drum


11


, as the process cartridge


15


is installed into the electrophotographic photosensitive member main assembly


27


; and a combination of the coupling


106




a


and input gear


106




b


as the second driving force transmitting means for receiving the driving force for driving the toner conveying member from the apparatus main assembly


27


and transmitting the received driving force to the toner conveying member, as the process cartridge


15


is installed into the electrophotographic image forming apparatus main assembly


27


, wherein the driving system for driving the coupling


106




a


and gear


106




b


, and the driving system for driving the coupling


105




a


and gear


106




b


, are independent from each other.




The position at which the coupling


105




a


and coupling


106




a


receive the driving force from the apparatus main assembly


27


is the leading end of the process cartridge in terms of the direction in which the process cartridge


15


is installed into the apparatus main assembly


27


, provided that the process cartridge


15


is installed into the apparatus main assembly


27


in the direction parallel to the longitudinal direction of the electrophotographic photosensitive drum


11


.




Further, the process cartridge


15


comprises the cleaning blade


114


as a cleaning member for removing the developer remaining on the electro-photographic photosensitive drum


11


, and the removed toner conveying member


115


as a removed developer conveying member for conveying the developer removed from the electrophotographic photosensitive drum


11


by the cleaning blade


114


. The removed toner conveying member


115


is rotated by the driving force which the coupling


106




a


received from the apparatus main assembly


27


.




The driving force which the coupling


106




a


received from the apparatus main assembly


27


is transmitted to the other longitudinal end of the toner conveying member


114


through the toner conveying member


114


, and then, is transmitted to the removed toner conveying member


115


, at the other longitudinal end of the toner conveying member


114


.




At the other longitudinal end of the toner conveying member


114


, the plurality of gears


111




a


,


111




b


,


111




c


and


112


are disposed, and the driving force which was transmitted to this side through the toner conveying member


114


is transmitted to the removed toner conveying member


115


through the plurality of gears


111




a


,


111




b


,


111




c


and


112


.




The driving force which the coupling


105




a


received from the apparatus main assembly


27


is transmitted to the development roller


18


through the gear


107




b


. By this driving force, the development roller


18


is rotationally driven. Further, as the process cartridge


15


is installed into the apparatus main assembly


27


, the coupling


106




a


as the aforementioned cartridge coupling engages with the coupling


104


as the main assembly coupling of the apparatus main assembly


27


to receive the driving force, whereas the coupling


105




a


as the aforementioned cartridge coupling engages the coupling


103


as the main assembly coupling of the apparatus main assembly


27


to receive the driving force.




The apparatus main assembly


27


is provided with the coupling


103


as the first driving force transmitting member of the main assembly, and the coupling


104


as the second driving force transmitting member of the main assembly.




With the provision of the above structural arrangement, it does not occur that the rotational irregularity and vibration of the driving system involved in the conveyance of the toner for development, and the removed toner, are directly transmitted to the driving system for rotationally driving the photosensitive drum and development roller directly involved in image formation. Therefore, it is possible to prevent the formation of an image which suffers from irregularities traceable to pitch irregularity or vibration, or blurring.




In particular, as the capacity of the toner storage container is increased (for example, to a capacity equivalent to the amount of toner sufficient to produce approximately 30000 A4 type standard copies), the amount of load that is applied to the system for driving the toner conveying member increases. Further, there is a possibility that as the number of the toner conveying members is increased to three, four, and so on, it becomes easier for the irregularities traceable to driving force transmission to occur. Thus, a driving system structure such as the above described one in which the driving system is divided into a plurality of sub-systems is advantageous.




Further, with the increase in the capacity of the toner storage container, the load that is applied to the removed toner conveying member also increases. Also, the driving system in which the driving system is divided into a plurality of sub-systems becomes advantageous as the cleaning-means frame becomes virtually filled up with the removed toner.




Furthermore, the driving force input system for driving the removed toner conveying member and the driving force input system for driving the developmental toner, are integrated into a single unit, simplifying the structure of the coupling for connecting the apparatus main assembly and the process cartridge, which in turn makes it easier to arrange the gears and the like, providing an advantage from the viewpoint of space saving.




Conventionally, the toner conveying system and toner stirring system are driven by directly meshing the gear of the development roller with the gears of the toner conveying system and toner stirring system. However, in this embodiment, such direct engagement between the gears of the former and latter does not occur. Therefore, even if the load that is applied to the toner conveying system and toner stirring system increases due to the increase in the toner storage container capacity, it is unnecessary to increase the strength of the gears


105




b


and


107




b


for driving the development roller


18


. Therefore, it is possible to use low module gears for driving force transmission. With this arrangement, it does not occur that an image suffering from the aforementioned irregularities is produced due to the irregularity in the pitch that occurs as the drum gear


105




b


and sleeve gear


107




b


mesh with each other.




Further, in this embodiment the cleaning-means frame and the toner-storage frame are integrally fixed to each other by the side covers. Therefore, the removed toner conveying member and developmental toner conveying member can be precisely connected and driven.




Further, only the developing means frame which supports the developing member such as the development roller is pivotally supported so that it is enabled to pivot following the photosensitive drum. Therefore, it is easy to connect the drum gear


105




b


and sleeve gear


107




b


to each other by driving them.




The force for rotationally driving the removed toner conveying member


115


is transmitted from the driving system for driving the toner conveying member. Therefore, even when the photosensitive drum is rotated at a high velocity, it is easy to continue to convey the removed toner at the conventional rotational velocity.




Structure of Air Passage for Cooling





FIG. 8

is a schematic drawing of the gear train positioned along the photosensitive drum.

FIG. 8

, (


a


) is a side view of the process cartridge, with the side cover removed, and

FIG. 8

, (


b


) is a side view of the process cartridge, in which the contour of the side cover is indicated by an imaginary line. Within the cleaning means frame


13


, the conveying member


115


for conveying the recovered removed toner toward the rear of the removed toner bin


5


is disposed. When the structural arrangement of the process cartridge


15


is such that the conveying member


115


receives the driving force from photosensitive drum


11


, and the rotational velocity must be reduced by a large ratio. However, if the arrangement is such that the driving force is transmitted from the toner conveying member


114


, the velocity reduction by a large ratio is unnecessary. Therefore, it is easy to attain a proper rotational velocity. In this case, the gears


111




b


and


111




c


are disposed in the adjacencies of the photosensitive drum


11


, penetrating the toner storage frame


16


and developing-means frame


17


(

FIG. 8

(


a


)).




In this embodiment, in order to prevent the temperature increase in the adjacencies of the photosensitive drum, it is assured that an air passage


19




f


is secured in the side cover


16


, in the adjacencies of the photosensitive drum (

FIG. 8

(


b


)). More specifically, the gear


111




b


and


111




c


are provided with a plurality of slits


24




a


and


24




b


, respectively, the interval portions of which form a plurality of axial flow vanes, to forcefully exhaust, or take in, the air through an air passage


19




b


. With this arrangement, it does not occur that the air passage


19


for cooling the interior is blocked by the gears


111




b


and


111




c.






Next, referring to

FIGS. 20

,


21


and


23


, the structure of the cooling air passage will be described.

FIG. 20

is a perspective view of the gear


11




c


. The structure of the gear


111




b


is the same as that of the gear


111




c


, except that the former is opposite to the latter in the direction of the helical teeth, and the direction of the helical air passages. Therefore, the air passage structure is described referring to the gear


111




c


as an example.

FIG. 21

is a development of the section of the B—B portion of the gear


111




c


illustrated in

FIG. 20

, at a cylindrical plane perpendicular to the rotational axis of the gear


111




c


, and

FIG. 22

is a sectional view of the gear


111




c


illustrated in

FIG. 20

, at a plane A—A.




The gear


111




c


is a helical gear. In a disk portion


111




c




3


, which connects the rim portion


11




c




2


comprising the helical teeth, and the hub portion


111




c




1


, a plurality of through slits


24




a


are provided, which extend in the radial direction of the gear


111




c


, at equal intervals. There is also provided a certain amount of distance between the surface of the disk portion


111




c




3


and the inwardly facing surface


19




h


of the side cover


19


. Thus, the air passage


19




f


of the side cover


19


and the slits


24




a


are rendered continuous through the space


29


. The gear


111




c


is rotationally supported by a shaft


19


G, which extends inward from the inwardly facing surface of the side cover


19


, perpendicular to the longitudinal direction of the photosensitive drum


15


; the shaft


19


G is put through the center hole of the hub


111




c




1


. The end portion of the shaft


19


G is fitted with a retainer ring (unillustrated) to prevent the gear


111




c


from moving in the shaft direction. The outwardly facing surface


111




c




4


of the rim portion


111




c




2


is very close to the inwardly facing surface


19




h


of the side cover


19


. The inwardly facing surface


19




h


of the side cover


19


, and the outwardly facing surface


111




c




4


of the rim portion, are required to make the amount of the air flow between them as small as possible. Thus, they may be intricately formed in such a manner that the gap between them forms a labyrinth.




The length and position of each slit


24




a


in terms of the radial direction of the gear


111




c


matches those of the air passage


19




f.






Referring to

FIG. 21

, the interval between the adjacent two slits


24




a


is occupied by a helical vane


24




g


; the adjacent two slits


24




a


are separated by a helical vane. The slit


24




a


is desired to be shaped like an interval space between adjacent two vanes of an axial flow fan so that the gear


111




c


is rendered aerodynamically effective in moving air. However, the gear


111




c


is relatively slow in rotational velocity, and therefore, the vanes of the gear


111




c


may be simply angled. With the provision of these slits


24




a


, the disk portion


111




c




3


of the gear


111




c


, that is, the portion of the gear


111




c


on the inward side of the rim


111




c




2


in terms of the radial direction of the gear


111




c


, constitutes an impeller.




Referring to

FIGS. 20 and 21

, as the gear


111




c


rotates in the direction indicated by an arrow mark


24




c


, air flows in the axial direction as indicated by an arrow mark


24




d


. Then, the air moves toward the air passage


19




f


through the space


29


, and is exhausted out of the process cartridge


15


through the air passage


19




f


of the side cover


19


.




As is evident from the drawings, the cooling air passage is structured so that the air currents from all the slits


24




a


are allowed to simultaneously flow through the space


29


. Therefore, all the vanes


24




d


contribute to the generation of the air flow.




If the direction of the surface


24




f


of the vane


24




g


is reversed, the direction of the air flow reverses even if the rotational direction of the gear


111




c


is kept the same. Thus, the direction of the surface


24




f


should be determined to be advantageous in terms of cooling efficiency, in consideration of the positional arrangement of the components, and the general configuration of the cooling air passage.




The twist angle of teeth


24




e


of the helical gear


111




c


is rendered parallel to the twist angle of the surfaces


24




f


of the vanes


24




g


. With this arrangement, the teeth


24




e


and vanes


24




g


become the same in terms of the air flow in the axial direction of the gear


111




c


. Further, such an arrangement is advantageous in terms of mode formation, in a case that the gear


111




c


is molded of resin. In a case that the teeth


24




e


and vanes


24




g


of the gear


111




c


are constructed so that they become the same in terms of in which direction they send air in terms of the axial direction of the gear


111




c


, a gap for allowing the air to pass is provided between the outwardly facing surface of the rim


111




c




2


and the inwardly facing surface of the side cover


119


. Also, a cover which follows the peripheral surface of the gear


111




c


, except for the portion where the gear


111




c


meshes with its counterpart, is provided as a member which functions like the casing of an air blower.




As described above, during an image forming operation, the gears


111




b


and


111




c


rotate, and therefore, the internal space of the process cartridge


15


is ventilated. Also, the heat generated by the fixing apparatus and the like is removed. Further, the apparatus main assembly


27


is provided with ventilation holes through which the apparatus main assembly


27


is naturally ventilated, or ventilating means such as a fan (unillustrated), or the like is provided.




Other Embodiments of Process Cartridge




Referring to

FIGS. 10

,


11


and


21


, the embodiments of the process cartridge in accordance with the present invention, different from the preceding embodiment, will be described.





FIGS. 11 and 12

are schematic drawings of one of the embodiments of a process cartridge in accordance with the present invention, and show the structure of the cartridge as seen from above.




Referring to

FIG. 11

, a toner storage frame


116


provided with a toner storage portion is accurately positioned relative to side covers


119




a


and


119




b


, and fixed thereto, by fitting the pins


119




c


of the side covers


119


(


119




a


and


119




b


) into the holes or corresponding positioning bosses


116




a


of the toner-storage frame


116


. The cleaning-means frame


113


is accurately positioned relative to the side covers


119




a


and


119




b


, and fixed thereto, by engaging the positioning bosses


113




b


with the positioning pins


119




d


of the side covers


119




a


and


119




b


. Consequently, the cleaning-means frame


113


and toner-storage frame


116


are integrally fixed to each other.




Referring to

FIG. 10

, the developing-means frame


117


of a developing apparatus D is supported by the pins inserted in the holes


113




a


of the cleaning-means frame


113


, being enabled to pivot about the center of the holes


113




a


while holding a development roller


118


and a development blade


112


. Between the spring anchoring projection


113




c


of the cleaning-means frame


113


, and the spring anchoring projection


117




f


of the developing-means frame


117


, a tensional coil spring


112


is stretched as shown in FIG.


13


. With the resiliency of the tensional coil spring


122


, the spacer rings


118




b


are kept pressed upon the photosensitive drum


11


, outside the image formation region. The spacer rings


18




b


are provided at the longitudinal ends of the development roller


118


, one for one, and are greater in radius by a value equivalent to a development gap (approximately 300 μm) than the development roller


118


.




With this arrangement, a gap is provided between the developing-means frame


117


and toner-storage frame


116


. Further, the toner-storage frame


116


is structured so that its bottom well is approximately horizontal when the process cartridge is in the apparatus main assembly.




In this embodiment, the gap between the developing apparatus D and toner storage frame


116


is sealed. More specifically, the openings


117




b


and


116




c


of the developing apparatus D and frame


116


, respectively, for allowing toner to pass, are connected by a flexible member


120


, as a sealing member, shaped like a bellows. The flexible member


120


as a flexible seal is welded or glued to the frames


116


and


117


, by the connective portions


120




a


and


120




b


, respectively.




The flexible member


120


has to be connected only to prevent toner from leaking while toner is passing between the openings


116




c


of the frame


116


, and the opening


117




b


of the frame


117


. Therefore, the frames


116


and


117


may be provided with a male and a female coupler, which surround the openings


116




c


and


117




b


, respectively, and the joint between them is sealed with a sealing member, provided that the couplers can absorb the displacement of the frames


116


and


117


relative to each other.




Referring to

FIG. 14

, the flexible member


120


is shaped like a belt which surrounds the openings


117




b


and


116




c.






The surfaces


116




d


and


117




c


of the frames


116


and


117


, respectively, which face each other, are flat surfaces approximately parallel to each other. They surround the openings


116




c


and


117




b


, respectively. To the surface


116




d


, a connective portion


120




a


of the flexible member


120


is fixed, and to the surface


117




c


, the connective portion


120




b


of the flexible member


120


is fixed. The method used to fix these connective portions


120




a


and


120




b


to the surfaces


116




d


and


117




c


is thermal welding, or gluing. It is also possible to clasp the connective portions


120




a


and


120




b


with the use of clasping members (unillustrated), for example, a wear plate, and screw the clasping members to the surfaces


116




d


and


117




c.






The flexible member


120


is uniform in terms of the shape of the cross section perpendicular to the surfaces


120




a


and


120




b


. More specifically, referring to

FIGS. 10 and 15

, in terms of cross section, the L-shaped outward sheath portion


120




c


and L-shaped inward sheath portion


120




d


of the flexible member


120


are connected by a zigzag portion. Further, the inward sheath portion


120




d


and outward sheath portion


120




c


overlap each other in terms of the direction parallel to the planes of the openings


116




d


and


117




c


. In other words, the flexible member


120


has two folds k. With the provision of this structural arrangement, even if the distance between the mutually facing surfaces


116




d


and


117




c


varies, or the surfaces


116




d


and


117




c


become displaced relative to each other in the direction parallel to their planes, or the surfaces


116




d


and


117




c


become nonparallel to each other, or the preceding displacements occur in combination, the flexible member


120


bends like a bellows, absorbing the displacements to keep sealed the passage between the openings


116




c


and


117




d


. Further, since the flexible member


120


is in the form of a bellows, it is very small in the resistance it generates as one or a plurality of the aforementioned displacements occur. Therefore, the flexible member


120


does not affect the contact pressure generated between the spacer rings


118




b


and photosensitive drum


111


by the tensional coil spring


122


.




Further, when the frame


116


is full of toner, there is a possibility that the weight of the toner within the frame


116


will deform the side cover


119


, and as a result, the mutually facing surfaces


116




d


and


117




c


will be displaced relative to each other. The flexible member


120


is capable of dealing with this type of situation. This type of deformation changes as the amount of the toner within the frame


116


is reduced. As a result, the positional relationship between the opposing surfaces


116




d


and


117




c


also changes. However, this displacement can also be dealt with by the flexible member


120


.




The front and rear walls of the apparatus main assembly


27


are provided with a guide (unillustrated).




On the other hand, the process cartridge


115


is provided with a pair of shaft-like, cylindrical projections (unillustrated), which project outward from the cleaning-means frame


113


through the holes


119




e


and


119




f


of the side covers


119


, one for one, and the axial lines of which are in alignment with the rotational axis of the photosensitive drum


111


. When the process cartridge


115


is installed into the apparatus main assembly


27


, the position of the process cartridge


15


relative to the apparatus main assembly


27


is fixed as these cylindrical projections engage with the positioning portions (unillustrated) of the apparatus main assembly


27


. Since the frame


116


is relatively large, and the distance from the center of the photosensitive drum


111


to the center of gravity of the frame


116


is relatively large, a large amount of moment is generated in the direction to rotate the process cartridge


115


about the rotational axis of the photosensitive drum


111


in the clockwise direction. As a result, the point of the process cartridge


115


, indicated by an arrow mark A in

FIG. 10

, comes into contact, and remains in contact, with the apparatus main assembly


27


, fixing the maintaining the attitude of the process cartridge


115


.




Regarding the preceding description, the material for the flexible member


120


is desired to be such elastomer that is similar in properties to the material used for the frames


113


and


116


. In this embodiment, styrene resin was used as the frame material, and styrene elastomer was used as the material for the flexible member


120


. This combination was excellent in terms of bonding. Other material such as rubber, urethane, silicon rubber, and the like may be also used as the material for the flexible member


120


. As for the means for attaching the flexible member


120


, adhesive or double-shaped adhesive tape may be used. Instead of these adhering means, a mechanically attaching means may be used. For example, the flexible member


120


may be clasped by a clasping member. Obviously, both connective means may be used in combination.




As for the molding method for the flexible member, injection molding or compression molding may be used. Further, material in the form of a sheet may be heat-pressed.




In order to minimize the reactive force of the flexible member


120


, the direction of which is approximately parallel to the conveyance direction of the sheet S, the flexible member


120


is structured so that the portion between the folds k and k, the portion between the fold k and the connective portion


120




a


, and the portion between the fold k and the connective portion


120




b


, become parallel to the sheet conveyance direction, as shown in FIG.


10


. However, the flexible member


120


may be folded so that the above described portions become perpendicular to the sheet conveyance direction.




Further, a fold width W, or the distance between the opposing two folds, of the flexible member


120


is determined so that the flexibility of the flexible member is not lost within a range in which the frames


117


and


116


are allowed to move relative to each other. The opening of the flexible member


120


, which faces the opening


116




c


, is greater in both the horizontal and vertical directions than the opening


116




c


, and the opening of the flexible member


120


, which faces the opening


117




b


, is smaller in both the horizontal and vertical direction than the opening


117




b.







FIG. 17

shows an example of the flexible member


120


, which has only a single fold k. Even if the flexible member


120


is provided with only one fold k, it can deal with the displacement of the frames


116


and


117


relative to each other, as long as the width W from the connective portion


120




b


to the fold k is rendered generous.




In the preceding description of the embodiments of the present invention, the bellows portion of the flexible member


120


was described with reference to its vertical sectional view. However, when shown in a horizontal sectional view, the direction in which the fold k projects is opposite to the direction in which it projects in the vetical sectional view. For example, the fold projecting inward in

FIG. 16

projects ouward when seen in the horizontal sectional view.




The above described embodiments of the present invention may be summarized as follows.




The process cartridge


15


(


115


) removably installable in the main assembly


27


of an electrophotographic image forming apparatus, comprises:




the electrophotographic photosensitive drum


11


(


111


);




the development roller


18


(


118


) as a developing member for developing an electrostatic latent image formed on the electrophotographic photosensitive member


11


(


111


);




the toner storage frame


16


(


116


) provided with the toner storage portion


16




a


(


116




a


) as a developer storing portion for storing the developer used for developing the electrostatic latent image with the use of the development roller


18


(


118


);




the cleaning means frame


13


(


113


) as a drum frame for supporting the electrophotographic photosensitive drum


11


(


111


);




the developing means frame


17


(


117


) which supports the development roller


18


(


118


) and is pivotally attached to the toner storage frame


16


(


116


);




the side covers


19


(


119




a


) as the first end cover for holding together the cleaning means frame


13


(


113


) and developing means frame


17


(


117


), at each of the longitudinal ends of the cleaning means frame


13


(


113


) and developing means frame


17


(


117


); and




the side cover


20


(


119




b


) as the second end cover for holding together the cleaning means frame


13


(


113


) and developing means frame


17


(


117


), at each of the other longitudinal ends of the cleaning means frame


13


(


113


) and developing means frame


17


(


117


).




The developing-means frame


17


(


117


) and toner-storage frame


16


(


116


) are connected to each other, with the interposition of the sealing member


21


to


60


, or the flexible member


120


, and the flexible sealing member is pasted to the developing-means frame


17


(


117


) and toner-storage frame


16


(


116


).




The sealing member


60


is a hollow member and has a through hole


60




a


. One end of the through hole


60




a


faces the opening


16




c


, as a supply outlet, with which the toner-storage frame


16


is provided, and the other end of the through hole


60




a


faces the opening


17




a


, as a supply inlet, with which the developing-means frame


17


is provided. The opening


16




c


is an opening through which the developer t stored in the toner storage portion


16




a


is conveyed toward the development roller


18


. The opening


17




a


is an opening through which the developer t is received into the developing means frame


17


after passing through the opening


16




c


. As for the sealing member


60


, one end of its through hole


60




a


is pasted to the toner-storage frame


16


, by the surface that surrounds the opening of the hole


60




a


, and the other end of the through hole


60




a


is pasted to the developing-means frame


17


by the surface that surrounds the opening of the hole


60




a.






The sealing member


21


and flexible member


120


have at least one fold k between the surface b which they are pasted to the developing-means frames


17


and


117


, respectively, and the surface by which they are pasted to the toner-storage frame


16


and


116


, respectively. The sealing member


21


and flexible member


120


are in the form of a bellows, one end of which is pasted to the toner-storage frame


16


and


116


, respectively, and the other end of which is pasted to the developing-means frame


17


and


117


, respectively.




The flexible sealing members


21


and


60


are formed of elastic material, sheet, or film.




The material for the sealing members


21


and


60


, and the material for the flexible member


120


, are foamed urethane, ester resin, or polyurethane resin.




The side cover


19


is provided with a handle


29


, which is grasped by an operator when the process cartridge


15


(


115


) is installed into, or removed from, the apparatus main assembly. The process cartridge


15


(


115


) is installed into, or removed from, the apparatus main assembly


27


in a direction parallel to the longitudinal direction of the electrophotographic photosensitive drum


11


(


111


).




The side cover


19


(


119


) is provided with the hole


19




a


(


119




f


), through which the shaft


25


(


125


) of the electrophotographic photosensitive member


11


(


111


) projects. One of the longitudinal ends of the electrophotographic photosensitive member


11


(


111


) is supported by the cleaning-means frame


13


(


113


), by the shaft


25


(


125


). The position of the process cartridge


15


(


115


) relative to the apparatus main assembly


27


is fixed as the process cartridge


15


(


115


) is installed into the apparatus main assembly


27


.




The top surface of the toner-storage frame


16


(


116


) is provided with a handle


30


. The top surface refers to the surface that faces upward when the process cartridge


15


(


115


) is in the apparatus main assembly


27


. The handle


30


is a portion that is grasped by an operator when the process cartridge


15


(


115


) is moved.




The side covers


19


and


20


(


119




a


and


119




b


) are fixed to the cleaning-means frame


13


(


113


) and toner-storage frame


16


(


116


) with the use of screws


100


.




The cleaning means frame


13


(


113


) has an exposure opening


131


(


1131


), which is an opening through which a beam of light modulated with image formation data is projected onto the electro-photographic photosensitive drum


11


(


111


) from the apparatus main assembly


27


after the installation of the process cartridge


15


(


115


) into the apparatus main assembly


27


.




In the cleaning means frame


13


(


113


), the charge roller


12


(


112


), as a charging member for charging the electrophotographic photosensitive drum


11


(


111


), and the cleaning blade


14


(


114


) as a cleaning member for removing the developer remaining on the electrophotographic photosensitive drum


11


(


111


), are disposed.




The side covers


19


and


20


(


119




a


and


119




b


) are fixed to the cleaning-means frame


13


(


113


) and toner-storage frame


16


(


116


) with the use of resin.




The side cover


19


is provided with the groove


19




e


in which the projecting member


17




e


, provided at one of the longitudinal ends of the developing means frame


17


, is movably supported. The projecting member


17




e


formed of resinous material is an integral portion of the developing-means frame


17


. The toner storage portion


16


(


116


) contains the developer t.




The assembly method for the process cartridge


15


(


115


) is as follows.




The assembly method for the process cartridge


15


(


115


) removably installable in the main assembly


27


of an electrophotographic image forming apparatus comprises:




(a) a drum attachment step for attaching the electrophotographic photosensitive drum


11


(


111


) to the cleaning-means frame


13


(


113


) as a drum frame;




(b) a frame joining step for joining the developing-means frame


17


(


117


) and toner storage frame


16


(


116


) in a manner to allow them to pivot relative to each other;




(c) a developing member attachment step for attaching the development roller


18


(


118


) as a developing means to the development means frame


17


(


117


), the development roller


18


(


118


) being a means for developing an electrostatic latent image formed on the electrophotographic photosensitive drum


11


(


111


);




(d) a developer filling step for filling the toner-storage frame


16


(


116


) with the developer t;




(e) a first end cover joining step for attaching the side cover


19


(


119




e


) as the first end cover to the cleaning-means frame


13


(


113


) and the development-means frame


17


(


117


), at each of the longitudinal ends of the frames


13


(


113


) and


17


(


117


);




(f) a second end cover joining step for attaching the side cover


20


(


119




b


) as the second end cover to the cleaning-means frame


13


(


113


) and the development-means frame


17


(


117


), at each of the other longitudinal ends of the frame


13


(


113


) and


17


(


117


).




In the frame joining step, the development-means frame


17


(


117


) and toner-storage frame


16


(


116


) are joined with each other in a manner to allow them to pivot relative to each other, with the interposition of the sealing member


21


(


60


) or the flexible sealing member


120


, as a flexible member, between the two frames, so that one end of the flexible member is attached to the development-means frame


17


(


117


) and the other end of the flexible member is attached to the toner-storage frame


16


(


116


).




In the first end cover joining process and second end cover joining step, the side covers


19


(


119




a


) and side cover


20


(


119




b


) are attached to the cleaning-means frame


13


(


113


) and development-means frame


17


(


117


) with the use of screws.




In the first end cover joining step and second end cover joining step, the side covers


19


(


119




a


) and side cover


20


(


119




b


) are attached to the cleaning-means frame


13


(


113


) and development-means frame


17


(


117


) with the use of resin.




In the developer filling step, the developer t is filled into the developer storage portion of the toner-storage frame


16


(


116


) through the developer filling opening (unillustrated) provided at one of the longitudinal ends of the toner storage frame


16


(


116


).




Cartridge Installing Space in Main Assembly





FIG. 19

is a perspective view of the cartridge installing space provided in the apparatus main assembly


17


. As the front door (unillustrated) of the apparatus main assembly


17


is opened, the entrance to the cartridge installing space


71


becomes visible.




In the opposing sidewalls of this cartridge installing space


71


, a pair of guide rails


72


and


73


are provided one for one, which extend in a direction perpendicular to the direction in which the sheet S is conveyed, and parallel to the surface of the sheet S. The guide rails


72


and


73


are disposed virtually parallel to each other, and also at virtually the same levels, that is, in a virtually horizontal plane.




The process cartridge


15


(


115


) is advanced into, or retracted out of, the above described cartridge installing space


71


, in the longitudinal direction of the process cartridge


15


(


115


); the process cartridge


15


(


115


) is removably installed into the apparatus main assembly


17


, with the guide portions


15




a


(


115




a


) and


15




b


(


115




b


) engaged in the corresponding guide rails


72


and


73


of the cartridge installing space


71


.




As described in the foregoing, according to the present invention, the image quality is stabilized.




While the invention has been described with reference to the structures disclosed herein, it is not confined to the details set forth and this application is intended to cover such modifications or changes as may come within the purposes of the improvements or the scope of the following claims.



Claims
  • 1. A process cartridge detachably mountable to a main assembly of an electrophotographic image forming apparatus, comprising:an electrophotographic photosensitive drum; a developing member for developing an electrostatic latent image formed on said electrophotographic photosensitive drum; a toner accommodation frame having a developer accommodating portion for accommodating a developer to be used by said developing member to develop the electrostatic latent image; a drum frame for supporting the electrophotographic photosensitive drum; a developing frame for supporting said developing member, said developing frame being swingably coupled with the toner accommodation frame; a first end cover connected with said drum frame and said developing frame at one longitudinal end of each of said drum frame and said developing frame; and a second end cover connected with said drum frame and said developing frame at the other longitudinal end of said drum frame and said developing frame.
  • 2. An apparatus according to claim 1, wherein said developing frame and said toner accommodation frame are connected by a flexible seal with each other, and said flexible seal is bonded to said developing frame and said toner accommodation frame.
  • 3. A process cartridge according to claim 2, wherein said flexible seal is provided with a through-hole having an end facing a supply opening provided in said toner accommodation frame and having the other end facing a receiving opening provided in said developing frame, wherein said supply opening permits a developer accommodated in said developer accommodating portion to move toward said developing member, and said receiving opening receives the developer having passed through said supply opening, and wherein said flexible seal is bonded to said toner accommodation frame around an end of said through-hole, and is bonded to said developing frame around the other end of said through-hole.
  • 4. A process cartridge according to claim 2, wherein said flexible seal has at least one fold between a portion bonded to said developing frame and a portion bonded to said toner accommodation frame, wherein said flexible seal is bellow-like having an end bonded to said toner accommodation frame and the other end bonded to said developing frame.
  • 5. A process cartridge according to claim 2, wherein said flexible seal is made of an elastic member, a sheet member, or a film member.
  • 6. A process cartridge according to claim 5, wherein said flexible seal is made of urethane foam, ester resin material or polyurethane resin material.
  • 7. A process cartridge according to claim 1, wherein said first end cover is provided with a grip that facilitates handing of said process cartridge by an operator, wherein said process cartridge is mounted to and demounted from the main assembly of the apparatus in a longitudinal direction of said electrophotographic photosensitive drum.
  • 8. A process cartridge according to claim 1 or 7, wherein said first end cover is provided with a hole through which a shaft of said electrophotographic photosensitive drum extends out, said shaft supporting an end of said electrophotographic photosensitive drum on said drum frame, and said shaft is positioned to the main assembly of the apparatus when said process cartridge is mounted to the main assembly of said apparatus.
  • 9. A process cartridge according to claim 1, wherein said toner accommodation frame is provided on its top surface, when said process cartridge is mounted to the main assembly of said apparatus, with a grip for facilitating handling of said process cartridge by an operator.
  • 10. A process cartridge according to claim 1, wherein said drum frame is provided with an exposure opening which permits information light from the main assembly of the apparatus to be projected on said electrophotographic photosensitive drum to pass, when said process cartridge is mounted to the main assembly of the apparatus.
  • 11. A process cartridge according to claim 1 or 10, wherein said drum frame further supports a charge member for charging said electrophotographic photosensitive drum and a cleaning member for removing a residual developer from said electrophotographic photosensitive drum.
  • 12. A process cartridge according to claim 2, 3, 4, 7, 9, or 10, wherein said first end cover and said second end cover are fastened to said drum frame and said toner accommodation frame by screws.
  • 13. A process cartridge according to claim 2, 3, 4, 7, 9, or 10, wherein said first end cover and said second end cover are bonded with said drum frame and said toner accommodation frame by resin material.
  • 14. A process cartridge according to claim 1 or 7, wherein said first end cover is provided with a groove for movably supporting a projection provided at one longitudinal end of said developing frame, and wherein said projection and said developing frame are of integrally molded resin material.
  • 15. A process cartridge according to claim 1, wherein said developer accommodating portion contains a developer.
  • 16. An assembling method for a process cartridge which is detachably mountable to a main assembly of an electrophotographic image forming apparatus, said method comprising:(a) a drum mounting step of mounting an electrophotographic photosensitive drum to a drum frame; (b) a frame coupling step of swingably coupling a developing frame and a toner accommodation frame with each other; (c) a developing member mounting step of mounting a developing member to the developing frame, wherein said developing member is effective to develop an electrostatic latent image formed on the electrophotographic photosensitive drum; (d) a developer filling step of filling the developer into the toner accommodation frame; (e) a first end cover coupling step of coupling a first end cover to said drum frame and said developing frame at one longitudinal end of each of said drum frame and said developing frame; and (f) a second end cover coupling step of coupling a second end cover to said drum frame and said developing frame at the other longitudinal end of each of said drum frame and said developing frame.
  • 17. A method according to claim 16, wherein in said frame coupling step, said developing frame and said toner accommodation frame are swingably coupled by mounting a flexible member between said developing frame and said toner accommodation frame.
  • 18. A method according to claim 16 or 17, wherein in said first end cover coupling step and said second end cover coupling step, the first end cover and the second end cover are fastened to said drum frame and said developing frame by screws.
  • 19. A method according to claim 16 or 17, wherein in said first end cover coupling step and said second end cover coupling step, the first end cover and the second end cover are bonded by resin material to the drum frame and the developing frame.
  • 20. A method according to claim 16 or 17, wherein the toner accommodation frame has a developer accommodating portion, wherein in said developer filling step, the developer is supplied into said developer accommodating portion through a developer filling opening provided at one longitudinal end of said toner accommodation frame.
  • 21. An electrophotographic image forming apparatus for forming an image on a recording material, to which a process cartridge is detachably mountable, said apparatus comprising:(a) a mounting portion for detachably mounting the process cartridge, which includes: an electrophotographic photosensitive drum; a developing member for developing an electrostatic latent image formed on said electrophotographic photosensitive drum; a toner accommodation frame having a developer accommodating portion for accommodating a developer to be used by said developing member to develop the electrostatic latent image; a drum frame for supporting said electrophotographic photosensitive drum; a developing frame for supporting said developing member, said developing frame being swingably coupled with said toner accommodation frame; a first end cover connected with said drum frame and said developing frame at one longitudinal end of each of said drum frame and said developing frame; and a second end cover connected with said drum frame and said developing frame at the other longitudinal end of said drum frame and said developing frame; (b) a main assembly side driving force transmitting member for transmitting a driving force to the electrophotographic photosensitive drum provided in the process cartridge mounted to said mounting portion; and (c) feeding means for feeding the recording material.
  • 22. A process cartridge detachably mountable to a main assembly of an electrophotographic image forming apparatus, comprising:an electrophotographic photosensitive drum; a developing member for developing an electrostatic latent image formed on said electrophotographic photosensitive drum; a toner accommodation frame having a developer accommodating portion for accommodating a developer to be used by said developing member to develop the electrostatic latent image; a drum frame for supporting said electrophotographic photosensitive drum; a drum shaft supporting said electrophotographic photosensitive drum on said drum frame, wherein said drum shaft is positioned relative to the main assembly of the electrophotographic image forming apparatus adjacent one longitudinal end of the electrophotographic photosensitive drum when said process cartridge is mounted to the main assembly of the electrophotographic image forming apparatus; a developing frame for supporting said developing member, said developing frame being swingably coupled with said toner accommodation frame; a first end cover connected with said drum frame and said toner accommodation frame at one longitudinal end of each of said drum frame and toner accommodation frame, wherein a portion of said drum shaft adjacent said one longitudinal end extends outwardly through a hole formed in said first end cover; and a second end cover connected with said drum frame and said toner accommodation frame at the other longitudinal end of said drum frame and said toner accommodation frame.
  • 23. An apparatus according to claim 22, wherein said developing frame and said toner accommodation frame are connected by a flexible seal with each other, and said flexible seal is bonded to said developing frame and said toner accommodation frame.
  • 24. A process cartridge according to claim 23, wherein said flexible seal is provided with a through-hole having an end facing a supply opening provided in said toner accommodation frame and having the other end facing a receiving opening provided in said developing frame, wherein said supply opening permits a developer accommodated in said developer accommodating portion to move toward said developing member, and said receiving opening receives the developer having passed trough said supply opening, and wherein said flexible seal is bonded to said toner accommodation frame around an end of said through-hole, and is bonded to said developing frame around the other end of said through-hole.
  • 25. A process cartridge according to claim 23 or 24, wherein said flexible seal has at least one fold between a portion bonded to said developing frame and a portion bonded to said toner accommodation frame, and said flexible seal is bellow-like having an end bonded to said toner accommodation frame and the other end bonded to said developing frame.
  • 26. A process cartridge according to claim 25, wherein said flexible seal is made of an elastic member, a sheet member or a film member.
  • 27. A process cartridge according to claim 22, wherein said first end cover is provided with a grip which facilitates handling of said process cartridge by an operator, wherein said process cartridge is mounted to and demounted from the main assembly of the electrophotographic image forming apparatus in a longitudinal direction of said electrophotographic photosensitive drum.
  • 28. A process cartridge according to claim 22, 24, or 27, wherein said toner accommodation frame is provided on its top with a surface with a grip for facilitating handling of said process cartridge by an operator when said process cartridge is mounted to the main assembly of said apparatus.
  • 29. A process cartridge according to claim 22, wherein said first end cover and said second end cover are fastened to said drum frame and said toner accommodation frame by screws.
  • 30. A process cartridge according to claim 22, wherein sad first end cover and said second end cover are bonded with said drum frame and said end by resin material.
  • 31. A process cartridge according to claim 25, wherein said first end cover is provided with a groove for movably supporting a projection provided at one longitudinal end of said developing frame, and wherein said projection and said developing frame are made of integrally molded resin material.
  • 32. A process cartridge according to claim 22, wherein said developer accommodating portion contains a developer.
  • 33. An assembling method for a process cartridge which is detachably mountable to a main assembly of an electrophotographic image forming apparatus, said method comprising:(a) a drum mounting step of mounting an electrophotographic photosensitive drum to a drum frame; (b) a frame coupling step of swingably coupling a developing frame and a toner accommodation frame with each other; (c) a developing member mounting step of mounting a developing member to the developing frame, wherein said developing member is effective to develop an electrostatic latent image formed on the electrophotographic photosensitive drum; (d) a developer filling step of filling the developer into the toner accommodation frame; (e) a first end cover coupling step of coupling a first end cover to said drum frame and said toner accommodation frame at one longitudinal end of each of said drum frame and said toner accommodation frame; and (f) a second end cover coupling step of coupling a second end cover to said drum frame and said toner accommodation frame at the other longitudinal end of each of said drum frame and said toner accommodation frame.
  • 34. A method according to claim 33, wherein in said frame coupling step, said developing frame and said toner accommodation frame are swingably coupled by mounting a flexible member extending between said developing frame and said toner accommodation frame.
  • 35. A method according to claim 33 or 34, wherein in said first end cover coupling step and said second end cover coupling step, the first end cover and the second end cover are fastened to said drum frame and said toner accommodation frame by screws.
  • 36. A method to claim 33 or 34, wherein in said first end cover coupling step and said second end cover coupling step, the first end cover and the second end cover are bonded by resin material to the drum frame and said toner accommodation frame.
  • 37. A method coupling to claim 33, wherein in said developer filling step, the developer is supplied into a developer accommodating portion through a developer filling opening provided at one longitudinal end of said toner accommodation frame.
  • 38. An electrophotographic image forming apparatus for forming an image on a recording material, to which a process cartridge is detachably mountable, said apparatus comprising:(a) a mounting portion for mounting the process cartridge, which includes: an electrophotographic photosensitive drum; a developing member for developing an electrostatic latent image formed on said electrophotographic photosensitive drum; a toner accommodation frame having a developer accommodating portion for accommodating a developer to be used by said developing member to develop the electrostatic latent image; a drum frame for supporting said electrophotographic photosensitive drum; a drum shaft supporting said electrophotographic photosensitive drum on said drum frame, wherein said drum shaft is positioned relative to a main assembly of the electrophotographic image forming apparatus adjacent one longitudinal end of the electrophotographic photosensitive drum when said process cartridge is mounted to the main assembly of the electrophotographic image forming apparatus; a developing frame for supporting said developing member, aid developing frame being swingably coupled with said toner accommodation frame; a first end cover connected with said drum frame and said toner accommodation frame at one longitudinal end of each of said drum frame and toner accommodation frame, wherein a portion of said drum shaft adjacent said one longitudinal end extends outwardly through a hole formed in said first end cover; and a second end cover connected with said drum frame and said toner accommodation frame at the other longitudinal end of said drum frame and said toner accommodation frame; (b) a main assembly side driving force transmitting member for transmitting a driving force to the electrophotographic photosensitive drum provided in the process cartridge mounted to said mounting portion; and (c) feeding means for feeding the recording material.
Priority Claims (3)
Number Date Country Kind
11-139420 May 1999 JP
11-139900 May 1999 JP
2000-143252 May 2000 JP
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