The following disclosure relates to an image forming apparatus.
There has been known an electrophotographic image forming apparatus in which a process cartridge including a photoconductive drum and a toner container is removably mounted to a drawer. The image forming apparatus of this type requires replacement of the process cartridge when the toner container becomes empty of toner. However, the photoconductive drum has not reached the end of its useful life at this time, and thus the photoconductive drum is discarded before the end of the useful life, resulting in increase in running costs.
To solve this problem, an image forming apparatus is devised in which the process cartridge is separated into a drum cartridge including the photoconductive drum and a toner cartridge including the toner container to enable individual replacement of the drum cartridge and the toner cartridge.
In such an image forming apparatus, unfortunately, the drum cartridge is mounted to the drawer, and the toner cartridge is mounted to the drum cartridge, but the toner cartridge moves relative to the drawer in removal of the toner cartridge from the drum cartridge, making it difficult to remove the toner cartridge.
Accordingly, an aspect of the disclosure relates to an image forming apparatus capable of making a drum cartridge immovable relative to a drawer when a toner cartridge is removed from the drum cartridge mounted to the drawer.
In one aspect of the disclosure, an image forming apparatus includes: a housing; a process cartridge including a photoconductive drum and a developing roller; a toner cartridge containing toner; and a drawer movable between an inner position and an outer position, the process cartridge being located in the housing when the drawer is located at the inner position in a state in which the process cartridge is mounted to the drawer, at least a portion of the process cartridge being exposed to an outside of the housing when the drawer is located at the outer position in the state in which the process cartridge is mounted to the drawer. The process cartridge includes a lock member movable between a lock position at which the lock member locks the process cartridge to the drawer in the state in which the process cartridge is mounted to the drawer, and a release position at which a lock between the process cartridge and the drawer is released. The lock member is located at the lock position in a state in which the process cartridge is mounted to the drawer, and the toner cartridge is mounted to the process cartridge. The lock member is located at the release position in a state in which the process cartridge is mounted to the drawer, and the toner cartridge is removed from the process cartridge.
The objects, features, advantages, and technical and industrial significance of the present disclosure will be better understood by reading the following detailed description of the embodiment, when considered in connection with the accompanying drawings, in which:
Hereinafter, there will be described one embodiment by reference to the drawings. It is to be understood that the following embodiment is described only by way of example, and the disclosure may be otherwise embodied with various modifications without departing from the scope and spirit of the disclosure.
In the following description, the left side in
The image forming apparatus 1 includes: a housing 2; a sheet-supply tray 10 capable of supporting the sheet S; and an image forming device 5 configured to form an image on the sheet S.
The housing 2 has a substantially rectangular parallelepiped shape and houses the sheet-supply tray 10 and the image forming device 5. A front surface 21 of the housing 2 has an opening 2A. The housing 2 includes a front-surface cover 22 capable of exposing and closing the opening 2A.
A pivot shaft 22a is provided at a lower end portion of the front-surface cover 22. The front-surface cover 22 is pivotable about the pivot shaft 22a. The opening 2A is exposed and closed by pivotal movement of the front-surface cover 22 about the pivot shaft 22a. A sheet-discharge tray 23a is provided on an upper surface 23 of the housing 2. The sheet-discharge tray 23a is inclined so as to be lower at its rear portion than its front portion.
A conveyance path P for the sheet S is formed in the housing 2 so as to extend from the sheet-supply tray 10 to the sheet-discharge tray 23a via the image forming device 5. Sheet-supply rollers 11, separating rollers 12, and a separator pad 12a are provided in the housing 2. The sheets S supported on the sheet-supply tray 10 are separated into one and the other by the sheet-supply rollers 11, the separating rollers 12, and the separator pad 12a and supplied one by one into the conveyance path P.
The image forming device 5 is disposed over the sheet-supply tray 10 and includes four process units 50 arranged side by side in the front and rear direction. The process units 50 are mountable and removable on and from the housing 2 and provided so as to correspond respectively to black, yellow, magenta, and cyan.
The housing 2 includes a drawer 60 that supports the process units 50. Each of the process units 50 includes a process cartridge 51 and a toner cartridge 52. The process cartridge 51 is removably mounted on the drawer 60. The toner cartridge 52 is removably mounted on the process cartridge 51.
The process cartridge 51 includes a photoconductive drum 54, an electrically charged roller 58, and a developing unit 59. The photoconductive drum 54 has a substantially cylindrical shape with its axial direction coinciding with the right and left direction. The photoconductive drum 54 is rotatably supported by the process cartridge 51. The electrically charged roller 58 extends in the right and left direction and is held in contact with an upper front portion of the photoconductive drum 54.
The developing unit 59 includes a developing roller 55, a supply roller 56, and a unit frame 591 supported by the process cartridge 51. The developing roller 55 extends in the right and left direction and is rotatably supported by the unit frame 591. The developing roller 55 is held in contact with an upper rear portion of the photoconductive drum 54. The supply roller 56 extends in the right and left direction and is rotatably supported by the unit frame 591. The supply roller 56 is held in contact with an upper rear portion of the developing roller 55.
The toner cartridge 52 includes a toner container 57 containing toner as a developer. The toner container 57 is disposed above the developing unit 59. The toner is supplied from the toner container 57 to the supply roller 56. The supply roller 56 supplies the toner to the developing roller 55. The developing roller 55 supplies the toner to the photoconductive drum 54.
An exposing unit 53 is provided over the process units 50 to expose surfaces of the respective photoconductive drums 54.
An intermediate transfer belt 31 is provided under the photoconductive drums 54 so as to be opposed to the photoconductive drums 54. The intermediate transfer belt 31 is tensioned between a driven roller 32 and a drive roller 33 located in front of the driven roller 32. Primary transfer rollers 34 are opposed to the respective photoconductive drums 54, with the intermediate transfer belt 31 interposed between each of the primary transfer rollers 34 and a corresponding one of the photoconductive drums 54.
A second transfer roller 35 is held in contact with the driven roller 32, with the intermediate transfer belt 31 interposed therebetween. A belt unit 30 is constituted by the intermediate transfer belt 31, the driven roller 32, the drive roller 33, the primary transfer rollers 34, and the second transfer roller 35.
In the image forming device 5, the surface of the photoconductive drum 54 is uniformly charged by the electrically charged roller 58, and then selectively exposed by the exposing unit 53 based on predetermined image data. As a result, an electrostatic latent image based on the image data is formed on the surface of the photoconductive drum 54.
The toner contained in the toner container 57 is positively charged between the supply roller 56 and the developing roller 55 and born on a surface of the developing roller 55. The toner born on the developing roller 55 is supplied to the electrostatic latent image formed on the surface of the photoconductive drum 54, a toner image is born on the surface of the photoconductive drum 54.
The toner image born on the surface of the photoconductive drum 54 is primarily transferred to the intermediate transfer belt 31 by a transfer bias applied to the primary transfer roller 34. The toner images born on the respective photoconductive drums 54 are superposed on the intermediate transfer belt 31.
The sheet S supplied from the sheet-supply tray 10 to the conveyance path P is conveyed rearward by a plurality of conveying rollers 13 and supplied to a nipping position between the intermediate transfer belt 31 and the second transfer roller 35. The sheet S supplied to the nipping position is conveyed while being nipped between the intermediate transfer belt 31 and the second transfer roller 35.
A secondary transfer bias is applied to the second transfer roller 35. The polarity of the secondary transfer bias is opposite to that of electric charges on the toner images formed on the intermediate transfer belt 31. Thus, the toner images on the intermediate transfer belt 31 are secondarily transferred to the sheet S in a process in which the sheet S is conveyed between the intermediate transfer belt 31 and the second transfer roller 35.
In the present embodiment, the intermediate transfer belt 31 is configured such that the toner images are primarily transferred from the respective photoconductive drums 54 to the intermediate transfer belt 31, and the toner images primarily transferred are secondarily transferred to the sheet S. However, the intermediate transfer belt 31 may be replaced with a conveyor belt configured to convey the sheet S to which the toner images are transferred from the respective photoconductive drums 54.
The sheet S to which the toner images have been transferred is conveyed to a fixing device 16 disposed downstream of the image forming device 5. The fixing device 16 includes a heat roller 17 and a pressure roller 18 held in pressing contact with the heat roller 17. The toner images are thermally fixed to the sheet S conveyed to the fixing device 16, while the sheet S is passing through a position between the heat roller 17 and the pressure roller 18.
The sheet S to which the toner images are thermally fixed is conveyed downstream from the fixing device 16 in the conveying direction and discharged onto the sheet-discharge tray 23a by a sheet-discharge roller 19.
As illustrated in
The process cartridge 51 of each of the process units 50 includes a pair of right and left cartridge frames 511 supporting a corresponding one of the photoconductive drums 54. The photoconductive drum 54 includes a drum body 54a and drum shafts 54b each protruding from the drum body 54a outward in the right and left direction. The cartridge frames 511 support the respective right and left drum shafts 54b rotatably. The drum shafts 54b are end portions of the photoconductive drum 54 in the axial direction, respectively.
Each of the cartridge frames 511 includes a side wall 511a extending in the up and down direction and a protruding portion 511b protruding from the side wall 511a outward in the right and left direction. One of the pair of the side wall 511a and the protruding portion 511b is disposed to the right of the photoconductive drum 54, and the other is disposed to the left of the photoconductive drum 54. A portion of the side wall 511a at which the protruding portion 511b is formed has a support hole 512 for supporting the drum shaft 54b rotatably.
The developing roller 55 includes right and left roller shafts 55a. Each of the roller shafts 55a protrudes outward from the unit frame 591 in the right and left direction. The side wall 511a has a guide hole 511c in which a corresponding one of the roller shafts 55a is inserted. The guide hole 511c is elongated such that the roller shaft 55a is slidable along the major axis direction of the guide hole 511c.
The protruding portion 511b of the process cartridge 51 is insertable into the support groove 62 of the side frame 61 from above. When the protruding portions 511b of the process cartridge 51 are inserted in the respective support grooves 62, the process unit 50 is mounted to the drawer 60.
The housing 2 includes vertical frames 24 each extending in the front and rear direction and the up and down direction. The vertical frames 24 are disposed respectively at right and left end portions of the housing 2 in the housing 2. Each of the vertical frames 24 has two guide holes 24a. Each of the guide holes 24a is an elongated hole extending substantially in the front and rear direction and inclined so as to be higher at its front portion than at its rear portion. The two guide holes 24a are located apart from each other in the front and rear direction.
A pair of right and left drawer guides 65 are provided in the housing 2 each on an inner side of a corresponding one of the vertical frames 24 in the right and left direction. Each of the drawer guides 65 is a rail member extending in the front and rear direction. The side frames 61 of the drawer 60 are supported on the respective drawer guides 65 so as to be movable in the front and rear direction.
The drawer guides 65 respectively include guide pins 65a each extending outward in the right and left direction. The guide pins 65a are provided so as to correspond to the respective guide holes 24a and slidably inserted in the respective guide holes 24a. Since the guide pins 65a are inserted in the respective guide holes 24a, the drawer guides 65 are supported by the respective vertical frames 24. Each of the drawer guides 65 are movable in the front and rear direction and the up and down direction relative to a corresponding one of the vertical frames 24 within a region in which the guide pins 65a are slidable in the respective guide holes 24a.
Engaging pins 65b each protruding outward in the right and left direction are provided on front end portions of the respective drawer guides 65. The front-surface cover 22 of the housing 2 includes link arms 27. Each of the link arms 27 has an arc shape curved rearward and downward from the front-surface cover 22. The link arms 27 respectively have engaging holes 27a engageable with the respective engaging pins 65a. Each of the engaging holes 27a has an arc shape curved so as to be lower at its rear portion than at its front portion.
With this configuration, the drawer 60 is movable between an inner position (illustrated in
As illustrated in
As illustrated in
The drawer guides 65 are movable in the front and rear direction between (i) their respective positioning positions (illustrated in
As illustrated in
The housing 2 includes a horizontal frame 25 extending in the horizontal direction between the right and left vertical frames 24. The horizontal frame 25 is disposed below the drawer guides 65. A pair of right and left support plates 26 are provided upright on the horizontal frame 25. Each of the support plates 26 is a plate member extending in the front and rear direction. Each of the support plates 26 is disposed on an inner side of a corresponding one of the side frames 61 of the drawer 60 in the right and left direction.
An upper end of each of the support plates 26 has positioning recessed portions 26a formed respectively at positions corresponding to the positions of the respective process cartridges 51 in the front and rear direction. When the drawer guides 65 are located at their respective positioning positions, the cartridge frames 511 of the process cartridge 51 are supported by the respective positioning recessed portions 26a from below. This configuration positions the process cartridges 51 with respect to the housing 2.
It is noted that the right and left support plates 26 are sheet-metal members formed by press working using the same metal mold and having the same shape. This makes it possible to reduce positional misalignment of the photoconductive drums 54 when the process cartridges 51 are positioned.
Thus, when the drawer guides 65 are located at their respective positioning positions, the process cartridges 51 are supported by the support plates 26, thereby positioning the process cartridges 51 with respect to the housing 2.
When the front-surface cover 22 of the housing 2 is opened in the state illustrated in
In this case, since the guide pins 65a are slid from the rear end portions to the front end portions of the respective guide holes 24a with frontward movement of the drawer guides 65, the drawer guides 65 are also moved upward.
When the drawer guides 65 are moved frontward and upward, the drawer 60 supported by the drawer guides 65 are moved upward with the process cartridges 51. This moves the process cartridges 51 upward away from the support plates 26, thereby canceling the state in which the process cartridges 51 are supported by the support plates 26.
With the frontward and upward movement of the drawer guides 65, the drawer 60 moves upward straightly without moving frontward. The process cartridges 51 supported by the drawer 60 are also moves upward straightly. This prevents the photoconductive drums 54 supported by the respective process cartridge 51 from rubbing against the intermediate transfer belt 31 in the front and rear direction, resulting in less damage to the photoconductive drums 54 and the intermediate transfer belt 31.
Thus, when the drawer guides 65 are located at their respective positioning cancel positions, the state in which the process cartridges 51 are supported by the support plates 26 is canceled. This cancels the positioning of the process cartridges 51 with respect to the housing 2, making the drawer 60 movable in the front and rear direction.
When the front-surface cover 22 is opened, the drawer 60 becomes movable in the front and rear direction. The user in this state can grasp a handle 64 of the drawer 60 located at the inner position (see the drawer 60 indicated by the two-dot chain lines in
In the state in which the drawer 60 is located at the outer position, the process cartridges 51 and the toner cartridges 52 of the process units 50 exposed to the outside of the housing 2 are mountable to and removable from the drawer 60.
The drawer 60 can be moved to the inner position by pressing the drawer 60 located at the outer position, rearward. When the front-surface cover 22 is closed in the state in which the drawer guides 65 are located at their respective positioning cancel positions as a result of opening of the front-surface cover 22, the engaging pins 65b are engaged with front edges of the respective engaging holes 27a, whereby the drawer guides 65 are pressed rearward. When the drawer guides 65 are pressed rearward, the drawer guides 65 are moved rearward to their respective positioning positions.
As illustrated in
A toner supplier 522 is formed below the toner container 57 in the toner frame 521. The toner supplier 522 is for supplying the toner stored in the toner container 57, to the supply roller 56.
The toner supplier 522 communicates at its right and left end portions with the toner container 57 respectively via communicating holes 57a so as to allow the toner stored in the toner container 57 to flow into the toner supplier 522 via the communicating holes 57a. A screw 523 is provided in the toner supplier 522. The screw 523 is disposed such that its axis direction coincides with the right and left direction and is configured such that the toner having flowed in the right and left end portions of the toner supplier 522 via the respective communicating holes 57a is transferred toward the center of the toner supplier 522 in the right and left direction.
A lower portion of the toner supplier 522 has an arc shape protruding downward in side view. A lower end portion of a central portion of the toner supplier 522 in the right and left direction has a supply hole 522a through which the toner supplied from the toner container 57 is allowed to pass. The supply hole 522a is elongated with its longitudinal direction coinciding with the right and left direction.
The toner cartridge 52 includes a first shutter 524 capable of exposing and closing the supply hole 522a. The first shutter 524 is disposed at the central portion of the toner supplier 522 in the right and left direction. The first shutter 524 is a substantially cylindrical member mounted around the toner supplier 522 such that the axis direction of the first shutter 524 coincides with the right and left direction. The first shutter 524 has a communication opening 524a that is an elongated hole with its longitudinal direction coinciding with the right and left direction. The communication opening 524a has a size corresponding to the size of the supply hole 522a.
First projecting portions 524b (each as one example of a third engaging portion) are formed on the first shutter 524 respectively at positions each located on an outer side of the supply hole 522a in the right and left direction. Each of the first projecting portions 524b protrudes downward. As illustrated in
Second projecting portions 525 (each one example of a fifth engaging portion) are formed on a lower end of the toner supplier 522 respectively at positions each located on an outer side of the first shutter 524 in the right and left direction. Each of the second projecting portions 525 protrudes downward. Positions at which the second projecting portions 525 are formed on the toner supplier 522 and a position at which the supply hole 522a is formed in the toner supplier 522 are the same as each other in the circumferential direction. Guide projecting portions 526 are formed respectively on right and left end portions of the toner supplier 522 so as to each protrude outward in the right and left direction. Each of the guide projecting portions 526 has a rectangular shape, with its longitudinal direction coincides with the up and down direction in side view.
The first shutter 524 is capable of exposing and closing the supply hole 522a of the toner supplier 522 by pivoting about the axis of the first shutter 524 relative to the toner supplier 522 of the toner frame 521.
For example, as illustrated in
The state in which the supply hole 522a is covered with the first shutter 524 is a state in which the first shutter 524 is closed. In this case, the first projecting portions 524b of the first shutter 524 and the second projecting portions 525 of the toner supplier 522 are the same as each other in phase in the circumferential direction.
As illustrated in
The state in which the supply hole 522a is exposed by the first shutter 524 is a state in which the first shutter 524 is open. In this case, the first projecting portions 524b of the first shutter 524 are different from the second projecting portions 525 of the toner supplier 522 in phase in the circumferential direction, and the first projecting portions 524b are located on a rear side of the second projecting portions 525.
Thus, the supply hole 522a can be exposed and closed by the first shutter 524 in the toner cartridge 52 by causing pivotal movement of the first shutter 524 relative to the toner supplier 522 to move the first shutter 524 and the toner supplier 522 relative to each other.
As illustrated in
Each of the support surface portions 514a has an arc shape protruding downward in side view, and this shape corresponds to the shape of the lower portion of the toner supplier 522 of the toner frame 521. The open/close surface portion 514b has an arc shape protruding downward in side view. The arc shape of the open/close surface portion 514b is greater in diameter than the arc shape of each of the support surface portions 514a.
The open/close surface portion 514b has a supplied hole 514c elongated with its longitudinal direction coinciding with the right and left direction. The supplied hole 514c has a size corresponding to the size of the supply hole 522a of the toner supplier 522. First recessed portions 514d (each as one example of a fourth engaging portion) are formed respectively on outer sides of the supplied hole 514c of the open/close surface portion 514b in the right and left direction.
The first projecting portions 524b of the first shutter 524 are fitted in the respective first recessed portions 514d when the toner cartridge 52 is mounted to the process cartridge 51. Each of the first recessed portions 514d has a size and a shape corresponding to those of a corresponding one of the first projecting portions 524b. Positions at which the first recessed portions 514d are formed on the open/close surface portion 514b and a position at which the supplied hole 514c is formed are different from each other in the circumferential direction. The supplied hole 514c is formed on a front side of the first recessed portions 514d in the circumferential direction. It is noted that the first projecting portions 524b and the first recessed portions 514d at least need to be configured to be engaged respectively with each other. For example, the image forming apparatus 1 may be configured such that recessed portions are formed in the first shutter 524, and projecting portions are formed on the toner-cartridge supporter 514.
A second shutter 515 is provided on and between the cartridge frames 511 to expose and close the supplied hole 514c of the toner-cartridge supporter 514. The second shutter 515 is disposed over the open/close surface portion 514b. The second shutter 515 has an arc shape protruding downward in side view. Right and left end portions of the second shutter 515 are supported by the support surface portions 514a so as to be slidable in the circumferential direction. This configuration enables the second shutter 515 to slide with respect to the open/close surface portion 514b in the circumferential direction.
The second shutter 515 has a communication opening 515a elongated with its longitudinal direction coinciding with the right and left direction. The communication opening 515a has a size corresponding to the size of the supply hole 522a of the toner supplier 522. Second recessed portions 515b (each one example of a sixth engaging portion) are formed on the second shutter 515 at positions each located on an outer side of the communication opening 515a in the right and left direction.
The second projecting portions 525 of the toner cartridge 52 are fitted in the respective second recessed portions 515b when the toner cartridge 52 is mounted to the process cartridge 51. Each of the second recessed portions 515b has a size and a shape corresponding to those of a corresponding one of the second projecting portions 525. Positions at which the second recessed portions 515b are formed on the second shutter 515 and a position at which the communication opening 515a is formed in the second shutter 515 are the same as each other in the circumferential direction.
The second shutter 515 has insertion holes 515c each formed between the communication opening 515a and a corresponding one of the second recessed portions 515b in the right and left direction. Each of the insertion holes 515c is elongated in the circumferential direction. The first projecting portions 524b of the first shutter 524 are insertable into the respective insertion holes 515c.
The insertion holes 515c are positioned with respect to the first recessed portions 514d of the open/close surface portion 514b, allowing the first projecting portions 524b to be fitted in the respective first recessed portions 514d in the state in which the first projecting portions 524b are inserted in the respective insertion holes 515c. The length of each of the insertion holes 515c in the circumferential direction is greater than that of a corresponding one of the first projecting portions 524b, allowing the second shutter 515 to slide in the circumferential direction in a state in which the first projecting portions 524b are inserted in the respective insertion holes 515c and fitted in the respective first recessed portions 514d.
The second shutter 515 exposes and closes the supplied hole 514c of the toner-cartridge supporter 514 by sliding with respect to the toner-cartridge supporter 514 in the circumferential direction.
For example, as illustrated in
The state in which the supplied hole 514c is covered with the second shutter 515 is a state in which the second shutter 515 is closed. In this case, the first recessed portions 514d of the toner-cartridge supporter 514 and the second recessed portions 515b of the second shutter 515 are the same in phase in the circumferential direction.
As illustrated in
The state in which the supplied hole 514c is exposed by the second shutter 515 is a state in which the second shutter 515 is open. In this case, the first recessed portions 514d of the toner-cartridge supporter 514 and the second recessed portions 515b of the second shutter 515 are different in phase in the circumferential direction, and the second recessed portions 515b are located on a front side of the first recessed portions 514d.
Thus, in the process cartridge 51, the second shutter 515 and the toner-cartridge supporter 514 can be moved relative to each other by pivotal movement of the second shutter 515 relative to the toner-cartridge supporter 514, allowing the second shutter 515 to expose and close the supplied hole 514c.
Guide grooves 513 are formed in right and left inner surfaces of the side walls 511a of the respective cartridge frames 511. Each of the guide grooves 513 extends substantially in the up and down direction and is inclined such that a lower portion of each of the guide grooves 513 is located on a rear side of an upper portion of the guide groove 513. The guide grooves 513 are located above the toner-cartridge supporter 514.
Upper ends of the respective guide grooves 513 are open, allowing the guide projecting portions 526 of the toner cartridge 52 to be inserted into the respective guide grooves 513 from above. The toner cartridge 52 can be mounted to the process cartridge 51 by inserting the guide projecting portions 526 into the respective guide grooves 513.
When the guide projecting portions 526 are inserted into the respective guide grooves 513, each of the guide projecting portions 526 is guided along the inclined posture of a corresponding one of the guide grooves 513 in an inclined posture in which a lower end portion of the guide projecting portion 526 is located on a rear side of an upper end portion of the guide projecting portion 526. When the guide projecting portions 526 inserted into the respective guide grooves 513 have reached lower end portions of the respective guide grooves 513, the toner cartridge 52 is mounted to the process cartridge 51. The lower end portions of the respective guide grooves 513 respectively have engaging grooves 513a, of which width extends in a direction intersecting the direction in which the guide groove 513 extends.
The toner cartridge 52 mounted to the process cartridge 51 can pivot with respect to the process cartridge 51 between a first position (illustrated in
That is, pivotal movement of the guide projecting portions 526 to be inserted into the guide grooves 513 with respect to the process cartridge 51 is restricted by the guide grooves 513 until the guide projecting portions 526 reach the lower end portions of the respective guide grooves 513. However, when the guide projecting portions 526 have reached the lower end portions of the respective guide grooves 513, the pivotal movement of the guide projecting portions 526 with respect to the process cartridge 51 is allowed by the engaging grooves 513a formed at the lower end portions of the respective guide grooves 513.
This allows the toner cartridge 52 located at the first position to pivot with respect to the process cartridge 51 to move to the second position. It is noted that, when the toner cartridge 52 has pivoted from the first position to the second position, rear surfaces of the respective guide projecting portions 526 come into contact with the respective engaging grooves 513a, thereby preventing further rearward pivotal movement of the toner cartridge 52.
When the toner cartridge 52 is located at the second position, upper surfaces of the respective guide projecting portions 526 are in contact with the respective engaging grooves 513a, preventing upward movement of the toner cartridge 52 with respect to the process cartridge 51. This prevents the toner cartridge 52 located at the second position from coming out of the process cartridge 51.
The unit frame 591 of the developing unit 59 has developing chambers 59a. The developing roller 55 and the supply roller 56 are disposed in the developing chambers 59a. The unit frame 591 includes support stays 591a each protruding frontward. The support stays 591a are provided on the right and left end portions of the unit frame 591. The developing unit 59 includes a support shaft 592 extending in the right and left direction and supported by the right and left side walls 511a.
The support stays 591a are pivotably supported by the support shaft 592. As a result, the unit frame 591 of the developing unit 59 is supported by the cartridge frames 511 so as to be pivotable about the support shaft 592. That is, the developing unit 59 is supported by the cartridge frames 511 so as to be swingable with respect to the photoconductive drum 54.
Each of the guide holes 511c of the respective side walls 511a is elongated with its major axis direction coinciding with a direction in which the roller shaft 55a of the developing roller 55 pivots about the support shaft 592. Each of the roller shafts 55a is slidable in an area of a corresponding one of the guide holes 511c.
When the roller shafts 55a are slid in the areas of the respective guide holes 511c, the unit frame 591 is pivotable in a direction in which the developing roller 55 is in pressing contact with the photoconductive drum 54 and in a direction in which the developing roller 55 moves away from the photoconductive drum 54. The unit frame 591 is urged in the direction in which the developing roller 55 is in pressing contact with the photoconductive drum 54 by an urging spring 593 disposed between the unit frame 591 and the toner-cartridge supporter 514.
Thus, the unit frame 591 of the developing unit 59 is supported by the cartridge frames 511 of the process cartridge 51 so as to be pivotable about the support shaft 592. As a result, the developing roller 55 supported by the developing unit 59 also becomes pivotable with respect to the photoconductive drum 54, resulting in stable contact state of the developing roller 55 with the photoconductive drum 54.
The pivotal direction of the developing roller 55 pivoting with the unit frame 591 is limited by the guide holes 511c to the direction in which the developing roller 55 is in pressing contact with the photoconductive drum 54 and the direction in which the developing roller 55 moves away from the photoconductive drum 54. This prevents the positions of one and the other end portions of the developing roller 55 from moving in the circumferential direction of the photoconductive drum 54, for example, making it possible to keep the parallelism of the developing roller 55 and the photoconductive drum 54.
An upper surface of the unit frame 591 has an opening 591b elongated with its longitudinal direction coinciding with the right and left direction. The opening 591b is formed in the open/close surface portion 514b below the supplied hole 514c. The opening 591b has a size corresponding to the size of the supplied hole 514c.
The opening 591b and the supplied hole 514c overlap each other in position when viewed in the up and down direction, and communicate with each other. The toner to be supplied to the developing unit 59 is allowed to pass through the opening 591b and the supplied hole 514c. When the second shutter 515 is open, the toner is suppliable into the unit frame 591 through the supplied hole 514c and the opening 591b.
The toner supplied into the unit frame 591 is supplied to the supply roller 56 in the developing chambers 59a by screws 591c, 591d disposed in the unit frame 591. Thus, the developing unit 59 has the opening 591b for supplying the toner to the developing chambers 59a.
A resilient member 516 is provided between the upper surface of the unit frame 591 and the open/close surface portion 514b of the toner-cartridge supporter 514. The resilient member 516 has a communication opening 516a elongated with its longitudinal direction coinciding with the right and left direction. The communication opening 516a has a size corresponding to the size of the supplied hole 514c of the open/close surface portion 514b.
The communication opening 516a overlaps the supplied hole 514c and the opening 591b in position when viewed in the up and down direction. The communication opening 516a and each of the supplied hole 514c and the opening 591b communicate with each other.
A space is formed between the upper surface of the unit frame 591 and the open/close surface portion 514b in the up and down direction. This space is filled with the resilient member 516. In this construction, since the resilient member 516 has the communication opening 516a, a space between a portion of the upper surface of the unit frame 591 around the opening 591b and a portion of the open/close surface portion 514b around the supplied hole 514c is filled with the resilient member 516.
The resilient member 516 is a sponge member, for example, which is extended and contracted by elastic deformation of the resilient member 516. Thus, even in the case where the unit frame 591 is swung about the support shaft 592 with respect to the cartridge frames 511 to change the size of the space between the unit frame 591 and the open/close surface portion 514b, this space can be filled by the resilient member 516 following the operation.
This prevents the toner having passed through the supplied hole 514c from leaking to the outside from the space between the unit frame 591 and the open/close surface portion 514b.
The process cartridge 51 includes a pair of right and left lock members 70 movable between a lock position at which the lock members 70 lock the process cartridge 51 to the drawer 60 and a release position at which the lock between the process cartridge 51 and the drawer 60 is released. Each of the lock members 70 is disposed at a joint position between the toner-cartridge supporter 514 and a corresponding one of the side walls 511a of the respective cartridge frames 511. Each of the lock members 70 includes a pivot shaft 71, an operating arm 72, and a lock arm 73.
The pivot shaft 71 is pivotably supported by the side wall 511a in a state in which the axis direction of the pivot shaft 71 coincides with the front and rear direction. The operating arm 72 extends inward from the pivot shaft 71 in the right and left direction and pivotable with the pivot shaft 71. An operating projection 72a protruding upward is formed at a distal end portion of the operating arm 72. The lock arm 73 extends downward from the pivot shaft 71 pivotably with the pivot shaft 71. A lock projection 73a (as one example of a first engaging portion) protruding outward in the right and left direction is formed at a lower end portion of the lock arm 73.
As illustrated in
Each of the side wall 511a has an opening 511d opening in its outer surface in the right and left direction. The lock projection 73a of the lock arm 73 can protrude from the side wall 511a through the opening 511d in the right and left direction.
In the state in which the process cartridge 51 is mounted to the drawer 60, the side walls 511a of the process cartridge 51 and the respective side frames 61 of the drawer 60 are opposed to each other. A lock hole 61a (as one example of a second engaging portion) is formed in a surface of each of the side frames 61 which faces a corresponding one of the side walls 511a. The lock projection 73a of the lock arm 73 which protrudes outward from the side wall 511a in the right and left direction is insertable into the lock hole 61a. It is noted that the lock projection 73a and the lock hole 61a at least need to be engaged with each other to lock the process cartridge 51 and the toner cartridge 52 to each other. For example, the image forming apparatus 1 may be configured such that the lock arm 73 has a lock hole, and a lock projection is formed on the side frame 61.
That is, the lock members 70 include the respective lock projections 73a to be inserted into the respective lock holes 61a of the drawer 60, and the drawer 60 has the lock holes 61a in which the lock projections 73a of the respective lock members 70 are inserted.
Each of the lock members 70 includes an urging spring 74 urging the lock member 70 toward the release position. When the lock member 70 is in a natural state in which no operating force acts on the operating arm 72, the lock member 70 is located at the release position by the urging force of the urging spring 74.
When the operating projection 72a of the operating arm 72 is pressed downward, the operating arm 72 pivots downward, and the lock arm 73 pivots outward in the right and left direction against the urging force of the urging spring 74, moving the lock member 70 to the lock position.
As illustrated in
When the lock member 70 is located at the release position, the lock projection 73a does not protrude outward from the side wall 511a in the right and left direction, and thus the lock projection 73a is not inserted in the lock hole 61a, so that the lock between the process cartridge 51 and the drawer 60 is released. In the state in which the lock between the process cartridge 51 and the drawer 60 is released, the process cartridge 51 is allowed to move with respect to the drawer 60, allowing the process cartridge 51 to be removed from the drawer 60.
When the toner cartridge 52 is mounted to the process cartridge 51 mounted to the drawer 60 illustrated in
As illustrated in
Thus, in the state in which the process cartridge 51 is mounted to the drawer 60, and the toner cartridge 52 is mounted to the process cartridge 51, the lock members 70 are located at the lock position at which the lock members 70 lock the process cartridge 51 to the drawer 60, and in the state in which the process cartridge 51 is mounted to the drawer 60, and the toner cartridge 52 is removed from the process cartridge 51, the lock members 70 are located at the release position at which the lock between the process cartridge 51 and the drawer 60 is released.
Thus, when the toner cartridge 52 mounted to the process cartridge 51 is removed from the process cartridge 51, the lock members 70 are located at the lock position, and the process cartridge 51 is locked by the lock members 70. Thus, when the toner cartridge 52 is moved from the process cartridge 51, the process cartridge 51 does not move, facilitating removing the toner cartridge 52.
In the state in which the toner cartridge 52 is removed from the process cartridge 51, the lock members 70 are located at the release position, allowing the process cartridge 51 to be removed from the drawer 60. Thus, when the process cartridge 51 is removed from the drawer 60, the process cartridge 51 can be removed without operating the lock members 70, making it possible to reduce the number of operations of the user.
When mounting the toner cartridge 52 to the process cartridge 51 in the state in which the process cartridge 51 is mounted to the drawer 60, the lock members 70 are moved from the release position to the lock position by contacting the toner cartridge 52.
Thus, when the toner cartridge 52 is mounted to the process cartridge 51, the process cartridge 51 is automatically secured to the drawer 60 by the lock members 70, making it possible to reduce the number of operations of the user.
When the lock members 70 are moved to the lock position, the lock projections 73a of the respective lock members 70 are inserted into the respective lock holes 61a of the drawer 60, making it easy to secure the process cartridge 51 to the drawer 60.
As illustrated in
When the guide projecting portions 526 of the toner cartridge 52 in this state are inserted in the respective guide grooves 513 of the side walls 511a, the toner cartridge 52 is guided in the inclined posture, and the guide projecting portions 526 reach the lower end portions of the respective guide grooves 513, so that the toner cartridge 52 is mounted to the process cartridge 51.
In this case, the first projecting portions 524b of the first shutter 524 are fitted in the respective first recessed portions 514d of the process cartridge 51, and the second projecting portions 525 of the toner cartridge 52 are fitted in the respective second recessed portions 515b of the second shutter 515.
As illustrated in
The toner cartridge 52 mounted to the process cartridge 51 is pivotable about the axis of the toner supplier 522 with respect to the process cartridge 51. As illustrated in
In the process unit 50, the first shutter 524 and the second shutter 515 are opened and closed by pivotal movement of the toner cartridge 52 mounted to the process cartridge 51 between the first position and the second position.
As illustrated in
When the toner cartridge 52 is in this state has pivoted to the second position with respect to the process cartridge 51, the position of the first shutter 524 relative to the position of the toner cartridge 52 is moved in the circumferential direction to open the first shutter 524, and the position of the second shutter 515 relative to the position of the process cartridge 51 is moved in the circumferential direction to open the second shutter 515.
Specifically, when the toner cartridge 52 has pivoted from the first position to the second position, the supply hole 522a of the toner frame 521 is moved frontward. The first shutter 524 does not pivot because movement of the first shutter 524 in the circumferential direction is restricted by fitting of the first projecting portions 524b of the first shutter 524 in the respective first recessed portions 514d of the process cartridge 51.
Accordingly, the position of the communication opening 524a of the first shutter 524 relative to the position of the supply hole 522a of the toner frame 521 is moved in the circumferential direction, so that the supply hole 522a and the communication opening 524a overlap each other in position when viewed in the up and down direction. As a result, the supply hole 522a and the communication opening 524a communicate with each other to open the first shutter 524.
When the toner cartridge 52 has pivoted from the first position to the second position, the second projecting portions 525 of the toner frame 521 move frontward. Since the second projecting portions 525 are fitted in the respective second recessed portions 515b of the second shutter 515, the second shutter 515 is moved frontward with the second projecting portions 525. The open/close surface portion 514b of the toner-cartridge supporter 514 does not move.
Accordingly, the position of the supplied hole 514c of the open/close surface portion 514b relative to the communication opening 515a of the second shutter 515 moves in the circumferential direction, so that the communication opening 515a and the supplied hole 514c overlap each other in position when viewed in the up and down direction. As a result, the communication opening 515a and the supplied hole 514c communicate with each other to open the second shutter 515.
In contrast, when the toner cartridge 52 located at the second position has pivoted to the first position with respect to the process cartridge 51, the position of the first shutter 524 relative to the position of the toner cartridge 52 is moved in the circumferential direction to close the first shutter 524, and the position of the second shutter 515 relative to the position of the process cartridge 51 is moved in the circumferential direction to close the second shutter 515.
Thus, in the process unit 50, pivotal movement of the toner cartridge 52 mounted to the process cartridge 51, with respect to the process cartridge 51 moves the position of the first shutter 524 relative to the position of the toner cartridge 52 to cause the first shutter 524 to open and close the supply hole 522a.
Accordingly, the first shutter 524 can be automatically opened and closed by pivotal movement of the toner cartridge 52 mounted to the process cartridge 51, with respect to the process cartridge 51, making it possible to reduce the number of operations of the user.
In the process unit 50, in particular, when the toner cartridge 52 is mounted to the process cartridge 51, the toner cartridge 52 pivots with respect to the process cartridge 51 in the state in which the first projecting portions 524b of the first shutter 524 are fitted in the respective first recessed portions 514d of the process cartridge 51, thereby moving the position of the first shutter 524 relative to the position of the toner cartridge 52 to cause the first shutter 524 to open and close the supply hole 522a.
Accordingly, the first projecting portions 524b are fitted into the respective first recessed portions 514d by mounting the toner cartridge 52 to the process cartridge 51, and pivotal movement of the toner cartridge 52 mounted to the process cartridge 51 is caused with respect to the process cartridge 51, making it possible to cause pivotal movement of the toner cartridge 52 and the first shutter 524 relative to each other to automatically open and close the first shutter 524. This makes it possible to reduce the number of operations of the user.
In the process unit 50, when the toner cartridge 52 is mounted to the process cartridge 51, the toner cartridge 52 pivots with respect to the process cartridge 51 in the state in which the second projecting portions 525 of the toner cartridge 52 are fitted in the respective second recessed portions 515b of the second shutter 515, thereby moving the position of the second shutter 515 relative to the cartridge frames 511 to cause the second shutter 515 to open and close the supplied hole 514c.
Accordingly, the position of the second shutter 515 relative to the cartridge frames 511 is moved by pivotal movement of the toner cartridge 52 mounted to the process cartridge 51, with respect to the process cartridge 51 to automatically open and close the second shutter 515. This makes it possible to reduce the number of operations of the user.
In the process unit 50, the lock members 70 are located at the lock position in the state in which the toner cartridge 52 is mounted to the process cartridge 51. Thus, the first position of the toner cartridge 52 is a position at which the lock members 70 are located at the lock position, and the first shutter 524 covers the supply hole 522a of the toner cartridge 52 in the state in which the toner cartridge 52 is mounted to the process cartridge 51. The second position of the toner cartridge 52 is a position at which the lock members 70 are located at the lock position, and the first shutter 524 exposes the supply hole 522a of the toner cartridge 52 in the state in which the toner cartridge 52 is mounted to the process cartridge 51.
With this configuration, when the first shutter 524 opens and closes the supply hole 522a of the toner cartridge 52, the toner cartridge 52 moves between the first position and the second position in the state in which the process cartridge 51 is locked by the lock members 70. This reduces movement of the process cartridge 51 when the first shutter 524 opens and closes the supply hole 522a, facilitating opening and closing the supply hole 522a of the toner cartridge 52.
In the present embodiment, the process cartridge 51 includes the photoconductive drum 54 and the cartridge frames 511. The cartridge frames 511 support the photoconductive drum 54 rotatably. The cartridge frames 511 support the developing unit 59 such that the developing unit 59 is swingable with respect to the photoconductive drum 54.
It is considered that this process cartridge 51 is configured such that the toner cartridge 52 is mounted to the developing unit 59, but such configuration causes the following problems.
First, the developing unit 59 is swingably supported in the process cartridge 51 at a position user's hand cannot reach. Thus, when mounting the toner cartridge 52 to the developing unit 59, the developing unit 59 cannot be secured to prevent swinging, making it difficult to mount the toner cartridge 52 to the developing unit 59.
Secondly, it is difficult to configure a mechanism for opening and closing the first shutter 524 of the toner cartridge 52 in conjunction with operation of mounting the toner cartridge 52 to the developing unit 59.
In the present embodiment, in contrast, the process cartridge 51 is configured such that the toner cartridge 52 is mounted to the cartridge frames 511, thereby achieving the following effects.
First, the cartridge frames 511 are easily supported by the drawer 60 so as not to move, facilitating mounting the toner cartridge 52 to the cartridge frames 511.
Secondly, the mechanism for opening and closing the first shutter 524 of the toner cartridge 5 in conjunction with an operation of mounting the toner cartridge 52 to the cartridge frames 511 can be easily achieved as a mechanism for opening and closing the first shutter 524 by causing the toner cartridge 52 to pivot with respect to the cartridge frames 511 in the state in which the first shutter 524 is coupled to the cartridge frames 511 as in the present embodiment.
The lock members 70 are preferably provided on the respective cartridge frames 511 in the case where the lock members 70 that move to the lock position at which the lock members 70 lock the process cartridge 51 to the drawer 60 by contacting the toner cartridge 52 when the toner cartridge 52 is mounted to the process cartridge 51 are provided in the construction in which the toner cartridge 52 is mounted to the cartridge frames 511.
Thus, in the case where the lock members 70 are provided on the respective cartridge frames 511 in the construction in which the toner cartridge 52 is mounted to the cartridge frames 511, the position of the lock members 70 relative to the toner cartridge 52 is stable when the toner cartridge 52 is mounted to the process cartridge 51. This ensures reliable contact of the toner cartridge 52 with the lock members 70, making it possible to reliably move the lock members 70 to the lock position.
If the lock members 70 are provided on the developing unit 59 in the construction in which the toner cartridge 52 is mounted to the cartridge frames 511, the developing unit 59 swings with respect to the cartridge frames 511 when the toner cartridge 52 is mounted to the process cartridge 51, resulting in reduction in stability of the position of the lock members 70 relative to the toner cartridge 52. This makes it difficult to design a mechanism for reliably moving the lock members 70 to the lock position.
Number | Date | Country | Kind |
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2019-123951 | Jul 2019 | JP | national |
This application is a Continuation Application of U.S. patent application Ser. No. 16/907,599, filed Jun. 22, 2020, and claims priority from Japanese Patent Application No. 2019-123951 filed on Jul. 2, 2019, the entireties of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | 16907599 | Jun 2020 | US |
Child | 17407444 | US |