Patent Grant
11782383
The present disclosure relates to a process cartridge detachably attached to an electrophotographic image forming apparatus main body.
In an image forming apparatus, such as a copier and a printer, that uses an electrophotographic system, an apparatus configuration where a photosensitive member and a processing unit that acts on the photosensitive member are integrated as a process cartridge, and this process cartridge is detachably attached to the electrophotographic image forming apparatus main body. In such a process cartridge type apparatus configuration, it is widely proposed that a developing apparatus is configured to be oscillatable around a photosensitive drum, and the developing roller is contacted to the photosensitive drum by pressing the developing apparatus toward the photosensitive drum side using a pressing unit. Further, Japanese Patent Application Publication No. 2012-137790 proposes a configuration that an Oldham's coupling is used for an end portion of a developing roller, and a pressing member is used to hold the Oldham's coupling at a predetermined position when the process cartridge is inserted into the image forming apparatus main body.
The present invention is to further advance the above mentioned conventional technique, and an object thereof is to provide a process cartridge that is capable of stably pressing the developing roller against the photosensitive drum.
To achieve this object, the process cartridge detachably attached to the image forming apparatus main body according to the present invention, comprising:
a drum unit including a photosensitive drum and a drum frame configured to rotatably support the photosensitive drum; and
a developing unit, the developing unit including:
the developing frame and the driving transmission member are configured to be integrally movable between a contacted position and a separated position to/from the drum frame in the direction intersecting with the rotational axial line,
the developing roller is contacted with the photosensitive drum in a case where the developing frame and the driving transmission member are at the contacted position, and
the developing roller is separated from the photosensitive drum in a case where the developing frame and the driving transmission member are at the separated position, wherein
the support member includes a positioned portion, wherein
the drum frame includes a positioning portion, where the positioning portion positions the support member with respect to the drum frame by contacting with the positioned portion in the direction intersecting with the rotational axial line, wherein
the process cartridge includes an urging member that is engaged with both the support member and the drum frame, so that the urging force is applied in the direction where the positioned portion of the support member and the positioning portion of the drum frame contact.
According to the present invention, a process cartridge that is capable of stably pressing the developing roller against the photosensitive drum can be proposed.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
In the following embodiment, examples of the present disclosure will be described. The configuration disclosed in the following embodiment, such as the function, material, shape and relative position of each component, indicates an example of an aspect related to the claims, and is not intended to limit the scope of the claims to the configuration disclosed in the embodiment. Further, the problems solved by the configuration disclosed in the following embodiment or the functions or effects acquired by the disclosed configuration are not intended to limit the scope of the claims.
An electrophotographic image forming apparatus according to Embodiment 1 of the present disclosure will be described with reference to the drawings. Here the electrophotographic image forming apparatus (hereafter image forming apparatus) is an apparatus that forms an image on a recording material using the electrophotographic image forming system. Examples of the image forming apparatus include a copier, facsimile, printer (e.g. laser printer, LED printer) and a composite machine thereof (multi-function printer) and the like. The recording material includes recording paper, and a sheet type recording medium, such as a plastic sheet. Further, the image forming apparatus according to the present embodiment is a cartridge system-based image forming apparatus. The cartridge is a unit detachably attached to the image forming apparatus, and includes a photosensitive member and a process unit (e.g. charging member, developing member, cleaning member) that acts on the photosensitive member. In the following embodiment, a laser beam printer, to which four process cartridges (cartridges) are detachably attached, will be described as an example of the image forming apparatus. A number of process cartridges attached to the image forming apparatus is not limited to this, and may be set appropriately as required.
A general configuration of an electrophotographic image forming apparatus M (hereafter image forming apparatus M) according to an embodiment of the present invention will be described with reference to
The image forming apparatus M according to the present embodiment is a four-color type full color laser printer using the electrophotographic process, and forms color images on a recording material S. The image forming apparatus M is a process cartridge type, where the process cartridge 1 is detachably attached to the image forming apparatus main body (apparatus main body) 100, so as to form a color image on the recording material S. In the present embodiment, the process cartridge 1 and the toner cartridge 13 are removable attached to the apparatus main body 100 of the image forming apparatus M.
Here it is assumed that the right side of the illustration in
The driving side of the process cartridge 1 is the side where the later mentioned drum coupling member (photosensitive coupling member) is disposed with respect to the photosensitive drum axial line direction (rotational axial line direction of the photosensitive drum). The driving side of the process cartridge 1 is the side where a later mentioned developing coupling member is disposed with respect to the developing roller (developing member) shift line direction (rotational axial line direction of the developing roller). The photosensitive drum axial line direction and the developing roller axial line direction are parallel with each other, and the longitudinal direction of the process cartridge 1 (photosensitive drum, developing roller) is also parallel therewith.
In the present embodiment, the process cartridge is provided for each of the four colors (yellow (Y), magenta (M), cyan (C) and black (K)) of toner, in order to form color images, and constitutes each of the first to fourth image forming portions respectively. The configuration and operation of the first to fourth image forming portions are substantially the same, except the color of the image to be formed is different. Therefore unless a special differentiation is required, the suffixes Y, M, C and K are omitted in the following description.
The first to fourth process cartridges 1 are disposed side by side in the horizontal direction. Each process cartridge 1 includes a drum unit (also called a cleaning unit) 4 and a developing unit 6. The drum unit 4 includes a photosensitive drum 7 (an image bearing member), a charging roller 8 (a charging member) that uniformly charges the surface of the photosensitive drum 7, and a cleaning blade 10 (a cleaning member). The developing unit 6 includes a developing portion that houses a developing roller 11 and developer T (hereafter toner), and develops an electrostatic latent image on the photosensitive drum 7. The drum unit 4 and the developing unit 6 support each other, so as to be oscillatable from each other. A first process cartridge 1Y contains yellow (Y) toner in the developing unit 6. In the same manner, a second process cartridge 1M contains magenta (M) toner, a third process cartridge 1C contains cyan (C) toner, and a fourth process cartridge 1K contains black (K) toner.
The process cartridge 1 is detachably attached to the apparatus main body 100 via an attaching member, such as an attachment guide (not illustrated) and a positioning member (not illustrated) disposed on the apparatus main body 100. A scanner unit 12, to form an electrostatic latent image, is disposed below the process cartridge 1. Further, a waste toner conveying unit 23 is disposed behind the process cartridge 1 in the apparatus main body 100 (downstream side in the insertion direction of the process cartridge 1).
The first to fourth toner cartridges 13 are disposed below the process cartridges 1, and are disposed side by side in the horizontal direction in the sequence corresponding to the color of the toner contained in each process cartridge 1. The first toner cartridge 13Y contains the yellow (Y) toner. In the same manner, the second toner cartridge 13M (contains the magenta (M) toner, the third toner cartridge 13C contains the cyan (C) toner, and the fourth toner cartridge 13K contains the black (K) toner. Each toner cartridge 13 replenishes the toner to the process cartridge 1 containing the corresponding color of toner.
The toner cartridge 13 is replenished when a residual amount detecting portion (not illustrated) disposed in the apparatus main body 100 of the image forming apparatus M detects that a residual amount of toner in the process cartridge 1 is insufficient. The toner cartridge 13 is detachably attached to the apparatus main body 100 via attaching member, such as an attaching guide (not illustrated) and a positioning member (not illustrated) disposed in the apparatus main body 100. The process cartridge 1 and the toner cartridge 13 will be described in detail later.
The first to fourth toner conveying units 14 are disposed below the toner cartridges 13, so as to correspond to each toner cartridge 13. Each toner conveying apparatus 14 conveys toner, received from each toner cartridge 13, upward, and supplies the toner to each developing unit 6.
An intermediate transfer unit 19 (intermediate transfer member) is disposed above the process cartridge 1. The intermediate transfer unit 19 is disposed approximately in the horizontal position with a primary transfer portion S1 side downward. An intermediate transfer belt 18, which faces each photosensitive drum 7, is a rotatable endless belt, and is stretched over a plurality of stretching rollers. A primary transfer roller 20 (primary transfer member) is disposed on the inner surface of the intermediate transfer belt 18 at a position where each primary transfer roller 20 and each photosensitive drum 7 form the primary transfer portion S1 via the intermediate transfer belt 18. A secondary transfer roller 21 (secondary transfer member) contacts with the intermediate transfer belt 18 and forms a secondary transfer portion S2 with a roller on the opposite side via the intermediate transfer belt 18. Further, an intermediate transfer belt drum unit 22 is formed on the opposite side of the secondary transfer portion S2 in the left and right directions (directions in which the intermediate transfer belt is stretched on the second transfer portion S2).
Further, a fixing unit 25 is disposed above the intermediate transfer unit 19. The fixing unit 25 is constituted of a heating unit 26 and a pressure roller 27 that press-contacts with the heating unit 26. A discharging tray 32 is disposed on the upper face of the apparatus main body 100, and a waste toner collecting container 24 is disposed between the discharging tray 32 and the intermediate transfer unit 19. Further, a paper feeding tray 2, to house recording material 3, is disposed at the lowest portion of the apparatus main body 100.
An image forming operation of the image forming apparatus M of the present embodiment will be described with reference to
When an image is formed, each photosensitive drum 7 is rotary-driven at a predetermined speed in the arrow A direction indicated in
First the surface of the photosensitive drum 7 is uniformly charged by the charging roller 8. Then the surface of the photosensitive drum 7 is scanned and exposed with the laser light emitted from the scanner unit 12, whereby an electrostatic image based on the image information is formed on the photosensitive drum 7. The electrostatic latent image formed on the photosensitive drum 7 is developed as a toner image by the developing unit 6. At this time, the developing unit 6 is pressed by a developing pressure unit (not illustrated) disposed on the apparatus main body 100 side, and is maintained in a predetermined contacting state to the drum unit 4 to develop the toner image. The toner image formed on the photosensitive drum 7 is primarily transferred onto the intermediate transfer belt 18 by the primary transfer roller 20.
For example, when a full color image is formed, the above mentioned process is sequentially performed in the image forming portions S1Y to S1K (first to fourth primary transfer portions), whereby a toner image of each color is sequentially superimposed on the intermediate transfer belt 18.
The recording material 3 housed in the paper feeding tray 2, on the other hand, is fed at a predetermined control timing, and is conveyed to the secondary transfer portion S2 synchronizing with the movement of the intermediate transfer belt 18. Then the four-color toner images on the intermediate transfer belt 18 are secondarily transferred onto the recording material 3 in batch by the secondary transfer roller 21, which is contacted to the intermediate transfer belt 18 via the recording material 3.
Then the recording material 3, on which the toner image is transferred, is conveyed to the fixing unit 25. The toner image is fixed to the recording material 3 by the fixing unit 25 heating and pressing the recording material 3. Then the fixed recording material 3 is conveyed to the discharging tray 32, thereby the image forming operation completes.
Here the primary untransferred toner (waste toner) remaining on the photosensitive drum 7 after the primary transfer step is removed by the cleaning blade 10. The secondary untransferred toner (waste toner) remaining on the intermediate transfer belt 18 after the secondary transfer step is removed by the intermediate transfer belt drum unit 22. The waste toner removed by the cleaning blade 10 and the intermediate transfer belt drum unit 22 is conveyed by a waste toner conveying unit 23 disposed on the apparatus main body 100, and is stored in the waste toner collecting container 24.
The image forming apparatus M of the present embodiment can form a single color image or a multi-color image using only a desired single or a few (not all) of the image forming portions.
A general configuration of each process cartridge 1 that is attached to the apparatus main body 100 of the image forming apparatus M according to the present embodiment will be described with reference to
The process cartridge 1 includes the drum unit 4 and the developing unit 6.
The drum unit 4 includes a drum unit frame (drum frame) 5 that supports various members in the drum unit 4. The drum unit 4 includes a waste toner screw 15 that extends in a direction which is parallel with the rotational axial direction of the photosensitive drum 7, in addition to the photosensitive drum 7, the charging roller 8 and a cleaning blade 10. In the drum unit frame 5, a drum support member 33, which is a bearing member that rotatably supports the photosensitive drum 7 and includes a gear train to transmit driving from the photosensitive drum 7 to the waste toner screw 15, is disposed on both ends of the drum unit 4 in the longitudinal direction.
The charging roller 8 disposed in the drum unit 4 is urged by a charging roller pressure spring 80 in the arrow C direction toward the photosensitive drum 7. The charging roller 8 is disposed so as to follow the movement of the photosensitive drum 7, and rotates in the arrow D direction (forward direction of the rotation of the photosensitive drum 7) when the photosensitive drum 7 is rotary-driven in the arrow A direction when an image is formed.
The cleaning blade 10 disposed on the drum unit 4 is constituted of an elastic member 10a to remove untransferred toner (waste toner) remaining on the surface of the photosensitive drum 7 after the primary transfer, and a support member 10b to support the elastic member 10a. The waste toner, which the cleaning blade 10 removed from the surface of the photosensitive drum 7, is contained in a waste toner container 9 constituted of the cleaning blade 10 and a drum unit frame 5. The waste toner contained in the waste toner container 9 is conveyed by the waste toner screw 15, which is disposed inside the waste toner container 9, in the direction toward the rear side (downstream side in the insertion direction of the process cartridge 1) of the apparatus main body 100. The conveyed waste toner is discharged from a waste toner discharging portion (not illustrated), and is transferred to the waste toner conveying unit 23 of the apparatus main body 100.
The developing unit 6 includes a developing frame 16 that supports various members inside the developing unit 6. The inner space of the developing frame 16 is separated into a developing chamber 16a in which the developing roller 11 and a feeding roller 17 are disposed, and a toner container 16b (developer containing portion) in which the toner is contained and a stirring member 29 is disposed.
The developing roller 11, the feeding roller 17 and a developing blade 28 are disposed in the developing chamber 16a. The developing roller 11 carries the toner, and when an image is formed, the developing roller 11 conveys toner to the photosensitive drum 7 by rotating in the arrow E direction and contacting with the photosensitive drum 7. The developing roller 11 is also rotatably supported on the developing frame 16 at both end portions of the longitudinal direction (rotational axial line direction) by a developing bearing unit 34. The feeding roller 17 is rotatably supported on the developing frame 16 by a developing bearing unit 34 while contacting with the developing roller 11, and rotates in the arrow F direction when an image is formed. Further, a developing blade 28 (layer thickness regulating member), to regulate the thickness of the toner layer formed on the developing roller 11, is disposed so as to contact with the surface of the developing roller 11.
The stirring member 29, to stir the contained toner T and convey the toner to the feeding roller 17 via a developing chamber connecting opening 16c, is disposed in the toner container 16b. The stirring member 29 includes a rotating shaft 29a which is parallel with the developing roller 11 in the rotational axial line direction, and a stirring sheet 29b (conveying member) which is a flexible sheet. One end of the stirring sheet 29b is mounted on the rotating shaft 29a, the other end of the stirring sheet 29b is a free end, and the toner is stirred by the stirring sheet 29b by the rotating shaft 29a, rotating and turning the stirring sheet 29b in the arrow G direction.
The developing unit 6 includes the developing chamber connecting opening 16c which connects the developing chamber 16a and the toner container 16b. In the present embodiment, the developing chamber 16a is located above the toner container 16b in a state where the developing unit 6 is normally used (state during operation). The toner inside the toner container 16b drawn up by the stirring member 29 is supplied to the developing chamber 16a via the developing chamber connecting opening 16c.
Further, a toner receiving port 40 is disposed on one end of the developing unit 6 in the insertion direction (
When the process cartridge 1 is attached to the apparatus main body 100, the receiving port seal member 45 contacts with the toner feeding port (not illustrated) of the apparatus main body 100, and is compressed in the W direction indicated in
As illustrated in
The developing unit 6 and the drum unit 4 described above are connected to be oscillatable around a predetermined rotational axial line. Specifically, as illustrated in
In the process cartridge 1, a pressed portion 38 is formed in the process cartridge to perform the oscillating operation by the above mentioned shaft support configuration, and the photosensitive drum 7 and the developing roller 11 are configured to be contacted or separated by the operating force from the apparatus main body 100. In other words, when an image is formed, the pressed portion 38 formed in the developing frame 16 is pressed by a pressing mechanism (not illustrated) disposed in the apparatus main body 100, so that the rotation moment in the K direction indicated in
The toner cartridge 13 according to the present embodiment will be described with reference to
The toner cartridge 13 includes a replenishing frame 50 that supports various members in the toner cartridge 13, and a replenishing toner container 51 that contains toner therein. A replenishing toner stirring member 53 and a replenishing toner conveying screw 54 are disposed inside the replenishing toner container 51.
The replenishing toner stirring member 53 is disposed parallel with the longitudinal direction of the toner cartridge 13, and is rotatably supported in the replenishing frame 50. The replenishing toner stirring member 53 includes a rotating shaft 53a and a replenishing stirring conveying sheet 53b made of a flexible sheet. Toner is conveyed to the replenishing toner conveying screw 54 by the rotating shaft 53a, which rotates and makes the replenishing stirring conveying sheet 53b rotate.
The replenishing toner conveying screw 54 is disposed parallel with the rotational axial line of the replenishing toner stirring member 53, and is rotatably supported on the replenishing frame 50. By rotating, the replenishing toner conveying screw 54 conveys the toner inside the replenishing toner container 51 from the front side to the rear side (from the upstream side to the downstream side in the insertion direction of the toner cartridge). The conveyed toner is discharged from the toner discharging port disposed on the downstream side of the replenishing toner conveying screw 54 to the toner conveying path inside the apparatus main body 100. As mentioned above, the toner discharged to the toner conveying path inside the apparatus main body 100 is replenished into the developing unit 6 via the toner receiving port 40 indicated in
The coupling configuration on the end portion of the feeding roller according to the present embodiment will be described with reference to
As indicated in
The process cartridge 1 is inserted into a process cartridge container portion of the apparatus main body 100, such that the driving side end portion in the longitudinal direction, where the coupling is disposed, enters first. Thereby, as indicated in
The drum coupling 67 is disposed on one end side of the photosensitive drum 7 in the longitudinal direction, in order to transmit the driving force to the photosensitive drum 7. The drum coupling 67 engages with the main body side drum driving coupling 107 (drum driving output portion) of the apparatus main body 100. Then the driving force of a driving motor (not illustrated) of the apparatus main body 100 is transmitted to the photosensitive drum 7 via the above mentioned couplings, whereby the photosensitive drum 7 is rotated in the arrow A direction (see
The coupling member 48 is disposed on a side of one end portion of the developing unit 6 in the longitudinal direction, in order to transmit the driving force to the developing unit 6. The coupling member 48 is a member which engages with the main body side development driving coupling 104 (developing driving output portion) of the apparatus main body 100, and is rotated by the rotary-driving force received from a driving motor (not illustrated) of the apparatus main body 100. The driving force received by the coupling member 48 is transmitted to the feeding roller 17, and is also transmitted to the developing roller 11 via a drive train (driving transmission gear 77, idler gear 76, developing roller driving gear 71), which is a driving transmission unit disposed in the developing unit 6. Thereby the developing roller 11 can be rotated in the arrow E direction indicated in
As indicated in
The driving transmission member 46 is configured such that one end thereof is engaged with an edge core metal portion 17a of the feeding roller 17, and the other end thereof has a protruding portion 46a and is engaged with a first groove portion 47a of the intermediate member 47. An engaging portion (not illustrated) of the driving transmission member 46, which is engaged with the edge core metal portion 17a, has a shape to engage with the edge core metal portion 17a, so that the rotary driving force is transmitted to the edge core metal portion 17a. The intermediate member 47 includes the first groove portion 47a and a second groove portion 47b, which is formed in a direction perpendicular to the first groove portion 47a. The intermediate member 47 engages with both the coupling member 48 and the driving transmission member 46. The protruding portion 46a of the driving transmission member 46 engages with the first groove portion 47a, and a protruding portion 48a, formed on the coupling member 48, engages with the second groove portion 47b. These engaging portions are configured such that the direction in which the first groove portion 47a and the protruding portion 46a can slide with each other (second direction), and the direction in which the second groove portion 47b and the protruding portion 48a can slide with each other (first direction) intersect perpendicular to each other in the phase around the axial line that is parallel with the rotational axial line M3 of the feeding roller 17.
The coupling member 48 includes a driving force transmitted portion 48b (driving force receiving portion) on the opposite end portion of the end portion where the protruding portion 48a, which engages with the second groove portion 47b of the intermediate member 47, is formed, in the axial line direction, parallel with the rotational axial line M3. A driving force is transmitted from the main body side development driving coupling 104 of the apparatus main body 100 to the driving force transmitted portion 48b. The coupling member 48 includes a supported portion 48c, which is a shaft portion having the driving force transmitted portion 48b at the tip, and the supported portion 48c is rotatably inserted into a shaft hole 49a of the coupling support member 49. In other words, the coupling member 48 is supported by the coupling support member 49, so as to be rotatable around the axial line that is parallel with the rotational axial line M3.
The coupling support member 49 is installed on a side cover member 52 using engaged portions 49b and 49d, so as to be movable in a predetermined movable range in a direction perpendicular to the rotational axial line M3. The side cover member 52 is fixed at the driving side end portion of the developing frame 16 of the developing unit 6 in the longitudinal direction.
The engaged portion 49b, which is a boss portion (protruding portion) protruding in a direction parallel with the rotational axial line M3, is inserted into an engaging portion 52a, which is an arc-shaped long hole guide portion formed in the side cover member 52, in the direction parallel with the rotational axial line M3. The direction in which the engaging portion 52a guides the engaged portion 49b is a direction H along an arc track of which center is the rotation center (rotation support pin 30) of oscillation between the developing unit 6 and the drum unit 4. The relationship between the engaged portion 49b and the engaging portion 52a may be the reverse of the configuration of the present embodiment. In other words, a protruding portion as the engaged portion may be disposed on the side cover member 52, and a guide portion, in which the protruding portion fits, may be disposed in the coupling support member 49. In this configuration as well, the guiding track of the guiding portion becomes an arc track, of which center is the rotation center (rotation support pin 30) of oscillation between the drum unit 4 and the developing unit 6, in the state where a contact portion 49c of the coupling support member 49 is held by a later mentioned coupling holding portion 33a (positioned by being pressed against the coupling holding portion 33a).
The engaged portion 49b, which is a plate-shaped portion protruding in a direction perpendicular to the rotational axial line M3, and is inserted in the same direction into an engaging portion 52b, which is a groove-shaped guide portion which is depressed in the same direction. By this engaging configuration, the coupling support member 49 is configured to engage with the side cover member 52, and to be relatively movable to the side cover member 52 (developing frame 16) within a movable range in each engaging configuration, in the direction intersecting with the rotational axial line M3.
In other words, the coupling member 48 can relatively move to the feeding roller 17 in an arbitrary direction on a virtual plane that is perpendicular to the rotational axial line M3, by sliding on concave-convex interfitting portions connecting the driving transmission member 46, the intermediate member 47, and the coupling member 48 respectively. This relative movement is performed such that the rotational axial line M4 of the coupling member 48 shifts from the rotational axial line M3 in the direction intersecting with the rotational axial line M3, while maintaining the state of being parallel with the rotational axial line M3 of the feeding roller 17. Further, in the state where the process cartridge 1 is removed from the apparatus main body 100, the coupling support member 49 remains in the state of being pressed against the coupling holding portion 33a (being positioned) by the pressing force of the coupling pressing member 37, even if the relative position of the drum unit 4 and the developing unit 6 changes due to oscillation, as described later. In the state where the process cartridge 1 is attached to the apparatus main body 100, the coupling member 48 engages with the main body side development driving coupling 104, whereby the coupling support member 49 is separated from the coupling holding portion 33a. While the feeding roller 17 changes position depending on whether the developing roller 11 and the photosensitive drum 7 are separated (
As illustrated in
The coupling pressing member 37 is installed between a support portion 49e of the coupling support member 49 and the support portion 33b of the drum support member 33 after the developing unit 6 is supported by the drum unit 4, so as to be oscillatable. In the present embodiment, the tension spring is used as the coupling pressing member 37. The coupling pressing member 37, of which one end is connected with the drum support member 33 and the other end is connected with the coupling support member 49, applies the pressing force to press the coupling support member 49 against the coupling holding portion 33a in the direction intersecting with the rotational axial line M2 of the developing roller 11. Using the pressing force applied by the coupling pressing member 37, the coupling support member 49 is held and positioned by the above mentioned coupling holding portion 33a (positioning portion) in the state where the process cartridge 1 is removed from the apparatus main body 100. Thereby, as illustrated in
The coupling pressing member 37 is not limited to such an urging member as the tension spring. Other configurations may be used as long as the configuration can generate a pressing force (urging force) to press the contact portion 49c of the coupling support member 49 against the coupling holding portion 33a in a direction intersecting with the rotational axial line M2, between the drum support member 33 and the coupling support member 49. Further, the direction in which the pressing force of the coupling pressing member 37 is applied to the coupling support member 49 is a direction to make the coupling member 48 move closer to the drum coupling 67 here, but [the present invention] is not limited to this configuration.
As described above, the Oldham's coupling method is used in the present embodiment, hence the coupling member 48 is movable in the direction intersecting with the rotational axial line of the feeding roller 17. Therefore as illustrated in
In a conventional configuration, the pressing force (urging force), which is applied in the direction of pressing the coupling support member 49 against the coupling holding portion 33a, is generated by disposing a torsion coil spring between the side cover member 52 (developing frame 16) and the coupling support member 49, for example. Here in the state where the process cartridge 1 is attached to the apparatus main body 100, the drum unit 4 and the coupling member 48 are positioned (supported) by the apparatus main body 100. This means that the urging force of the torsion coil spring is applied to the developing frame 16. If the contacting/separating operation is performed in this state, the position of the developing unit 6, with respect to the coupling member 48 positioned in the apparatus main body 100, changes, and the operating state of the torsion coil spring changes due to the relative displacement of the coupling support member 49 and the developing frame 16, whereby a moment force is generated when the contacting/separating operation is performed. In the present embodiment, on the other hand, the pressing force (urging force) applied in a direction of pressing the contact portion 49c of the coupling support member 49 to the coupling holding portion 33a is applied using the tension spring, which is engaged with both the drum support member 33 (drum unit frame 5) and the coupling support member 49. If this configuration is used, the amount of change of the operating state of the coupling pressing member 37 (tension spring) is small, compared with the change in the orientation of the developing unit 6 caused by the contacting/separating operation. Therefore the movement force mentioned above is not generated very much. As a result, the contacting/separating operation of the developing roller 11 to/from the photosensitive drum 7 can be stabilized, and the developing roller 11 can be pressed against the photosensitive drum 7 stably.
In the description of the present embodiment, the present invention is applied to the process cartridge having a configuration in which the Oldham's coupling is disposed at the end portion of the feeding roller, but the configuration of the process cartridge is not limited to this. In other words, the present invention can also be suitably applied to the process cartridge having a configuration in which the Oldham's coupling is disposed at the end portion of the developing roller.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2021-167625, filed on Oct. 12, 2021, which is hereby incorporated by reference herein in its entirety.
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