The following disclosure relates to an image forming apparatus.
An image forming apparatus includes a process unit and a toner cartridge in related art. The toner cartridge is mountable on the process unit. The toner cartridge includes a cartridge housing and a shutter. The cartridge housing accommodates toner. The cartridge housing has an opening. The cartridge housing has a cylindrical shape. The shutter has a cylindrical shape. The shutter accommodates the cartridge housing such that the cartridge housing is rotatable. The shutter is rotatable between an open position and a closed position. The opening opens in a state in which the shutter is positioned at the open position. The shutter closes the opening in a state in which the shutter is positioned at the closed position. The shutter has a handle. A user rotates the shutter between the open position and the closed position by holding the handle in a state in which the toner cartridge is mounted on the process unit.
In the related-art toner cartridge, there is a possibility that the handle is wrongly operated in a state in which the toner cartridge is not mounted on the process unit. If the handle is wrongly operated, the opening may open and the toner may leak from the cartridge housing in a state in which the toner cartridge is not mounted on the process unit.
To solve this problem, it is considered that opening/closing of the shutter is interlocked with a mounting operation of the toner cartridge on the process unit. For example, the toner cartridge is moved with respect to the process unit in the state in which the toner cartridge is mounted on the process unit to thereby open/close the shutter. However, it is necessary to secure a space for movement of the toner cartridge in the state in which the toner cartridge is mounted on the process unit, which increases a size of the image forming apparatus.
Accordingly, an object of the present disclosure is to provide an image forming apparatus capable of reducing a size in a second direction while opening/closing the shutter by rotating the cartridge housing in the state in which the toner cartridge is mounted on the process unit.
In an aspect of the present disclosure, an image forming apparatus includes a first process unit having a first photoconductive drum rotatable about a first axis extending in a first direction, a second process unit having a second photoconductive drum rotatable about a second axis extending in the first direction, the second process unit being aligned with the first process unit in a second direction intersecting the first direction, a first toner cartridge mountable on the first process unit and including (i) a cartridge housing accommodating toner and having a first opening, and (ii) a first shutter movable with respect to the cartridge housing between a first closed position at which the first opening is closed and a first open position at which the first opening is opened, and a second toner cartridge mountable on the second process unit. The cartridge housing includes one end portion and the other end portion spaced apart from the one end portion in a third direction intersecting the first direction and the second direction in a state in which the first toner cartridge is mounted on the first process unit. In a state in which the first toner cartridge is mounted on the first process unit, the cartridge housing is rotatable between a first position at which the first shutter is positioned at the first closed position and a second position at which the first shutter is positioned at the first open position. When the cartridge housing moves from the second position to the first position, the one end portion of the cartridge housing comes close to the second toner cartridge and the other end portion of the cartridge housing goes away from the second toner cartridge.
In another aspect of the present disclosure, an image forming apparatus includes a first frame, a first photoconductive drum rotatable about a first axis extending in a first direction and supported by the first frame, a second frame, a second photoconductive drum rotatable about a second axis extending in the first direction and supported by the second frame, a first toner cartridge mountable on the first frame, and a second toner cartridge mountable on the second frame. The second frame is aligned with the first frame in a second direction intersecting the first direction. The first toner cartridge includes a cartridge housing accommodating toner and having a first opening and a first shutter movable with respect to the cartridge housing between a first closed position at which the first opening is closed and a first open position at which the first opening is opened. The cartridge housing includes one end portion and the other end portion spaced apart from the one end portion in a third direction intersecting the first direction and the second direction in a state in which the first toner cartridge is mounted on the first frame. The cartridge housing is rotatable between a first position at which the first shutter is positioned at the first closed position and a second position at which the first shutter is positioned at the first open position in a state in which the first toner cartridge is mounted on the first frame. When the cartridge housing moves from the second position to the first position, the one end portion of the cartridge housing comes close to the second toner cartridge and the other end portion of the cartridge housing goes away from the second toner 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 embodiments, when considered in connection with the accompanying drawings, in which:
Hereinafter, an outline of an image forming apparatus 1 will be described with reference to
As illustrated in
1.1 Body Housing 2
The body housing 2 accommodates the sheet cassette 4, the four process units 5K, 5C, 5M, and 5Y, the four toner cartridges 6K, 6C, 6M, and 6Y, the four exposing heads 7K, 7C, 7M, and 7Y, the belt unit 8, the transfer roller 9, and the fixing device 10.
As illustrated in
1.2 Top Cover 3
The top cover 3 is movable between an open position and a closed position (see
The cover shaft 30 extends in a first direction. The top cover 3 extends in a direction intersecting the first direction. The top cover 3 has a first end 3E1 and a second end 3E2. The first end 3E1 of the top cover 3 is connected to the body housing 2. The first end 3E1 has the cover shaft 30. The second end 3E2 is spaced apart from the first end 3E1 in the direction intersecting the first direction.
1.3 Sheet Cassette 4
The sheet cassette 4 accommodates a sheet S. The sheet S located inside the sheet cassette 4 is conveyed toward the transfer roller 9.
1.4 Process Unit 5K
The process unit 5K is mountable on the body housing 2 through the body opening 20 in the state in which the top cover 3 is positioned at the open position (see
1.4.1 Photoconductive Drum 50K
The photoconductive drum 50K extends in the first direction. The photoconductive drum 50K has a cylindrical shape. The photoconductive drum 50K is rotatable about a first axis A1. The first axis A1 extends in the first direction.
1.4.2 Charging Device 58K
The charging device 58K charges a circumferential surface of the photoconductive drum 50K. In the embodiment, the charging device 58K is a charging roller. The charging device 58K may be a scorotron type charger.
1.4.3 Developing Device 53K
The developing device 53K can supply toner to the photoconductive drum 50K. Specifically, the developing device 53K includes a developing housing 531 and a developing roller 532.
1.4.3.1 Developing Housing 531
The developing housing 531 accommodates toner supplied from the toner cartridge 6K. The developing housing 531 has a housing opening 535 (see
1.4.3.2 Developing Roller 532
The developing roller 532 can supply the toner located inside the developing housing 531 to the photoconductive drum 50K. The developing roller 532 contacts the photoconductive drum 50K. The developing roller 532 may be disposed so as to be spaced apart from the photoconductive drum 50K.
1.5 Process Units 5C, 5M, 5Y
The process units 5C, 5M, and 5Y are respectively explained in the same manner as the process unit 5K. Respective process units 5C, 5M, and 5Y are aligned in a second direction with respect to the process unit 5K. The second direction intersects the first direction. In detail, the second direction is orthogonal to the first direction in this embodiment. Note that the second direction may be approximately orthogonal to the first direction, for example, the second direction may intersect the first direction at an angle from 80 degrees to 100 degrees. More preferably, the second direction may intersect the first direction at an angle of 90 degrees.
In the process units 5C, 5M, and 5Y, the process unit 5C is aligned adjacent to the process unit 5K in the second direction. The process unit 5C includes a photoconductive drum 50C, a charging device 58C, and a developing device 53C. The photoconductive drum 50C is rotatable about a second axis A2. The second axis A2 extends in the first direction. The charging device 58C charges a circumferential surface of the photoconductive drum 50C. The developing device 53C can supply toner to the photoconductive drum 50C.
The process unit 5M is positioned on an opposite side of the process unit 5K with respect to the process unit 5C in the second direction. The process unit 5M includes a photoconductive drum 50M, a charging device 58M, and a developing device 53M. The photoconductive drum 50M is rotatable about a third axis A3. The third axis A3 extends in the first direction. The charging device 58M charges a circumferential surface of the photoconductive drum 50M. The developing device 53M can supply toner to the photoconductive drum 50M.
The process unit 5Y is positioned on an opposite side of the process unit 5C with respect to the process unit 5M in the second direction. The process unit 5Y includes a photoconductive drum 50Y, a charging device 58Y, and a developing device 53Y. The photoconductive drum 50Y is rotatable about a fourth axis A4. The fourth axis A4 extends in the first direction. The charging device 58Y charges a circumferential surface of the photoconductive drum 50Y. The developing device 53Y can supply toner to the photoconductive drum 50Y.
1.6 Toner Cartridges 6K, 6C, 6M, 6Y
The toner cartridge 6K is mountable on the process unit 5K. The toner cartridge 6K includes a cartridge housing 60K. The cartridge housing 60K accommodates toner. The toner cartridge 6K can supply the toner to the developing device 53K in a state in which the toner cartridge 6K is mounted on the process unit 5K.
The toner cartridge 6C is mountable on the process unit 5C. The toner cartridge 6C includes a cartridge housing 60C. The cartridge housing 60C accommodates toner. The toner cartridge 6C can supply the toner to the developing device 53C in a state in which the toner cartridge 6C is mounted on the process unit 5C.
The toner cartridge 6M is mountable on the process unit 5M. The toner cartridge 6M includes a cartridge housing 60M. The cartridge housing 60M accommodates toner. The toner cartridge 6M can supply the toner to the developing device 53M in a state in which the toner cartridge 6M is mounted on the process unit 5M.
The toner cartridge 6Y is mountable on the process unit 5Y. The toner cartridge 6Y includes a cartridge housing 60Y. The cartridge housing 60Y accommodates toner. The toner cartridge 6Y can supply the toner to the developing device 53Y in a state in which the toner cartridge 6Y is mounted on the process unit 5Y.
1.7 Exposing Heads 7K, 7C, 7M, 7Y
The exposing heads 7K, 7C, 7M, and 7Y are supported by the top cover 3. The respective exposing heads 7K, 7C, 7M, and 7Y are LED units.
The exposing head 7K exposes the circumferential surface of the photoconductive drum 50K in the state in which the top cover 3 is positioned at the closed position. The exposing head 7K is positioned in a space between the toner cartridge 6K and the toner cartridge 6C in the state in which the top cover 3 is positioned at the closed position.
The exposing head 7C exposes the circumferential surface of the photoconductive drum 50C in the state in which the top cover 3 is positioned at the closed position. The exposing head 7C is positioned in a space between the toner cartridge 6C and the toner cartridge 6M in the state in which the top cover 3 is positioned at the closed position.
The exposing head 7M exposes the circumferential surface of the photoconductive drum 50M in the state in which the top cover 3 is positioned at the closed position. The exposing head 7M is positioned in a space between the toner cartridge 6M and the toner cartridge 6Y in the state in which the top cover 3 is positioned at the closed position.
The exposing head 7Y exposes the circumferential surface of the photoconductive drum 50Y in the state in which the top cover 3 is positioned at the closed position. The exposing head 7Y is positioned on an opposite side of the exposing head 7M with respect to the toner cartridge 6Y in the state in which the top cover 3 is positioned at the closed position.
1.8 Belt Unit 8
The belt unit 8 is positioned below the process units 5K, 5C, 5M, and 5Y in a state in which the process units 5K, 5C, 5M, and 5Y are mounted on the body housing 2. The belt unit 8 includes an intermediate transfer belt 81 and transfer rollers 82K, 82C, 82M, and 82Y
The intermediate transfer belt 81 contacts the photoconductive drums 50K, 50C, 50M, and 50Y in the state in which the process units 5K, 5C, 5M, and 5Y are mounted on the body housing 2.
The transfer roller 82K transfers the toner on the photoconductive drum 50K to the intermediate transfer belt 81. The transfer roller 82C transfers the toner on the photoconductive drum 50C to the intermediate transfer belt 81. The transfer roller 82M transfers the toner on the photoconductive drum 50M to the intermediate transfer belt 81. The transfer roller 82Y transfers the toner on the photoconductive drum 50Y to the intermediate transfer belt 81.
1.9 Transfer Roller 9
The transfer roller 9 transfers the toner on the intermediate transfer belt 81 to the sheet S. Specifically, the sheet S conveyed from the sheet cassette 4 toward the transfer roller 9 is conveyed to the fixing device 10 while passing between the transfer roller 9 and the intermediate transfer belt 81. At this time, the transfer roller 9 transfers the toner on the intermediate transfer belt 81 to the sheet S.
1.10 Fixing Device 10
The fixing device 10 heats and pressurizes the sheet S to which the toner is transferred to thereby fix the toner on the sheet S. The sheet S passing through the fixing device 10 is discharged to an upper surface of the body housing 2.
Next, the details of the process unit 5K will be explained with reference to
As illustrated in
2.1 Drum Cleaning Unit 59
The drum cleaning unit 59 includes a cleaning housing 590, a cleaning blade 591, and a screw 592.
2.1.1 Cleaning Housing 590
The cleaning housing 590 accommodates waste toner removed from the circumferential surface of the photoconductive drum 50K by the cleaning blade 591. The cleaning housing 590 has an opening 593. The opening 593 receives the waste toner. The cleaning housing 590 extends in the first direction.
2.1.2 Cleaning Blade 591
The cleaning blade 591 removes waste toner from the circumferential surface of the photoconductive drum 50K. An edge of the cleaning blade 591 contacts the circumferential surface of the photoconductive drum 50K. The edge of the cleaning blade 591 scrapes the waste toner adhering to the circumferential surface of the photoconductive drum 50K when the photoconductive drum 50K rotates. The waste toner is accommodated inside the cleaning housing 590 through the opening 593.
2.1.3 Screw 592
The screw 592 conveys the waste toner located inside the cleaning housing 590 toward a conveying tube 550 (see
2.2 First Frame 51
The first frame 51 extends in a third direction. The third direction intersects the first direction and the second direction. More specifically, the third direction is orthogonal to the first direction and the second direction. Note that the third direction may be approximately orthogonal to the first direction and the second direction, for example, the third direction may intersect the first direction and the second direction at an angle from 80 degrees to 100 degrees. More preferably, the third direction may intersect the first direction and the second direction at an angle of 90 degrees. The first frame 51 includes a first support portion 510 and a second support portion 511.
2.2.1 First Support Portion 510
The first support portion 510 supports the photoconductive drum 50K, the charging device 58K, the developing device 53K, and the drum cleaning unit 59. As illustrated in
2.2.1.1 First Side Plate 510A
The first side plate 510A is positioned at one end portion of the first frame 51 in the first direction. The first side plate 510A extends in the third direction. The first side plate 510A supports one end portion of the photoconductive drum 50K in the first direction. The first side plate 510A supports one end portion of the drum cleaning unit 59 in the first direction. The first side plate 510A supports one end portion of the developing device 53K in the first direction. The first side plate 510A has a first hole 512 and a second hole 518.
The first hole 512 is a long hole (see
The second hole 518 is positioned on an opposite side of the photoconductive drum 50K with respect to the first hole 512. The second hole 518 is a long hole (see
2.2.1.2 First Side Plate 510B
The first side plate 510B is positioned at the other end portion of the first frame 51 in the first direction. The first side plate 510B is spaced apart from the first side plate 510A in the first direction. The first side plate 510B supports the other end portion of the photoconductive drum 50K in the first direction. The first side plate 510B supports the other end portion of the drum cleaning unit 59 in the first direction. The first side plate 510B supports the other end portion of the developing device 53K in the first direction. The first side plate 510B is explained in the same manner as the first side plate 510A.
A third developing protrusion 533C of the developing device 53K is fitted into the first hole 512 of the first side plate 510B. The third developing protrusion 533C is explained in the same manner as the first developing protrusion 533A. A fourth developing protrusion 533D of the developing device 53K is fitted into the second hole 518 of the first side plate 510B. The fourth developing protrusion 533D is explained in the same manner as the second developing protrusion 533B. The first side plate 510B supports the other end portion of the developing device 53K in the first direction by fitting the third developing protrusion 533C into the first hole 512 and by fitting the fourth developing protrusion 533D into the second hole 518.
The developing device 53K is movable with respect to the first support portion 510 in the direction in which the first hole 512 extends in the state in which one end portion of the developing device 53K in the first direction is supported by the first side plate 510A and the other end portion of the developing device 53K in the first direction is supported by the first side plate 510B.
The developing device 53K is movable with respect to the cartridge housing 60K and the photoconductive drum 50K in a state in which the toner cartridge 6K is mounted on the process unit 5K and the cartridge housing 60K is positioned at a second position (see
2.2.2 Second Support Portion 511
As illustrated in
2.2.2.1 Second Side Plate 511A
As illustrated in
The hole 519 is positioned at a central part of the second side plate 511A. The hole 519 has a circular shape (see
As illustrated in
The two first ribs 514A, 514B guide a guided portion 69 of the toner cartridge 6K when the toner cartridge 6K is mounted on the process unit 5K. A first protrusion 65A of the toner cartridge 6K is fitted between the first rib 514A and the first rib 514B in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
The first rib 514A protrudes in the first direction from the second side plate 511A. The first rib 514A extends in a fourth direction. The fourth direction intersects the third direction. The fourth direction is orthogonal to the first direction and intersects the second direction. The first rib 514B is spaced apart from the first rib 514A in a direction orthogonal to the first direction and the fourth direction. The first rib 514B is explained in the same manner as the first rib 514A. Therefore, the explanation for the first rib 514B is omitted.
The two second ribs 515A, 515B are positioned on an opposite side of the two first ribs 514A, 514B in the fourth direction with respect to the hole 519. A second protrusion 66A of the toner cartridge 6K is fitted between the second rib 515A and the second rib 515B in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
2.2.2.2 Second Side Plate 511B
As illustrated in
2.2.2.3 Receiving Portion 513
The receiving portion 513 receives the cartridge housing 60K of the toner cartridge 6K (see
As illustrated in
The receiving portion 513 has a toner receiving port 5130 and a first recess 5131.
The toner receiving port 5130 is positioned at a central part of the receiving portion 513 in the first direction (see
The first recess 5131 is positioned on an upper surface of the receiving portion 513 in the state in which the process unit 5K is mounted on the body housing 2. The first recess 5131 is spaced apart from the toner receiving port 5130 in the second direction. The first recess 5131 receives a first shutter 61 (see
2.2.2.4 First Stopper 516
The first stopper 516 stops the cartridge housing 60K at the second position when the cartridge housing 60K rotates from the first position to the second position (see
2.2.2.5 Second Stopper 517
The second stopper 517 stops the cartridge housing 60K at the first position when the cartridge housing 60K rotates from the second position to the first position (see
2.2.3 Second Frame 52
As illustrated in
As illustrated in
As illustrated in
2.2.3.1 Side Plate 520A
The side plate 520A is positioned at one end portion of the second frame 52 in the first direction.
As illustrated in
The side plate 520A includes a first through slot 523, a second through slot 524, a first guide 525, and a second guide 526. In other words, the process unit 5K includes the first guide 525.
The two first ribs 514A, 514B are fitted into the first through slot 523. The first through slot 523 allows movement of the second frame 52 between the frame first position and the frame second position in a state in which the two first ribs 514A, 514B are fitted into the first through slot 523. The first through slot 523 has a sector shape.
The second through slot 524 is positioned on an opposite side of the first through slot 523 with respect to the axis A5. The two second ribs 515A, 515B are fitted into the second through slot 524. The second through slot 524 allows movement of the second frame 52 between the frame first position and the frame second position in a state in which the two second ribs 515A, 515B are fitted into the second through slot 524. The second through slot 524 has a sector shape.
The first guide 525 guides the mounting of the toner cartridge 6K. The first guide 525 guides the guided portion 69 of the toner cartridge 6K when the toner cartridge 6K is mounted on the process unit 5K.
The first guide 525 is positioned between the first though slot 523 and the second through slot 524. The first guide 525 is a recessed groove. The first guide 525 extends in the fourth direction in the state in which the second frame 52 is positioned at the frame first position (see
The second guide 526 guides the guided portion 69 when the toner cartridge 6K is mounted on the process unit 5K. The second guide 526 is positioned on an opposite side of the first guide 525 with respect to the first through slot 523. The second guide 526 is a recessed groove. The second guide 526 extends in the fourth direction in the state in which the second frame 52 is positioned at the frame first position (see
In the state in which the second frame 52 is positioned at the frame first position, the second guide 526, the two first ribs 514A, 514B, the first guide 525, the two second ribs 515A, 515B are aligned in the fourth direction (see
2.2.3.2 Side Plate 520B
As illustrated in
2.2.3.3 Frame Shutter 521
The frame shutter 521 is supported by the two side plates 520A, 520B. The frame shutter 521 extends in the first direction.
As illustrated in
2.2.3.4 Protrusion 522A
As illustrated in
2.2.3.5 Protrusion 522B
The protrusion 522B is positioned on an opposite side of the side plate 520A with respect to the side plate 520B in the first direction. The protrusion 522B extends in the first direction. The protrusion 522B protrudes from the side plate 520B. The protrusion 522B has a cylindrical shape. The protrusion 522B is fitted into the hole 519 of the second side plate 511B. According to the structure, the second frame 52 is rotatable about the axis A5 with respect to the second support portion 511.
2.2.4 Waste Toner Conveying Unit 55
The waste toner conveying unit 55 conveys the waste toner from the photoconductive drum 50K to the toner cartridge 6K. The waste toner conveying unit 55 includes the conveying tube 550, a third shutter 551, a first gear 552, a belt conveyor 554, and a screw 555 (see
2.2.4.1 Conveying Tube 550
The conveying tube 550 conveys the waste toner which is removed from the photoconductive drum 50K by the drum cleaning unit 59 to a second opening 601 of the toner cartridge 6K (see
The first portion 5501 is positioned on an opposite side of the first side plate 510A and the second side plate 511A with respect to the first side plate 510B and the second side plate 511B in the first direction. The first portion 5501 is supported by the first side plate 510B and the second side plate 511B.
As illustrated in
The other end portion 5501B is spaced apart from the one end portion 5501A in the second direction. The other end portion 5501B is spaced apart from the one end portion 5501A in the third direction. The other end portion 5501B is positioned on an opposite side of the first side plate 510B with respect to the second side plate 511B in the third direction. A belt shaft 556 is provided inside the other end potion 5501B. The belt shaft 556 extends in the first direction.
The second portion 5502 is aligned with the other end portion 5501B in the second direction. An internal space of the second portion 5502 communicates with an internal space of the other end portion 5501B. The second portion 5502 is positioned on an opposite side of the first side plate 510B with respect to the second side plate 511B in the third direction. The second portion 5502 is supported by the second side plate 511B.
As illustrated in
2.2.4.2 Third Shutter 551
The third shutter 551 is positioned inside the second portion 5502. The third shutter 551 has a cylindrical shape. The third shutter 551 extends in the first direction. The third shutter 551 has one end portion and the other end portion in the first direction. The one end portion of the third shutter 551 in the first direction protrudes from the second portion 5502.
As illustrated in
At least part of the shutter opening 557 communicates with the third opening 553 in the state in which the third shutter 551 is positioned in the third open position (see
2.2.4.3 First Gear 552
As illustrated in
2.2.4.4 Belt Conveyor 554
As illustrated in
2.2.4.5 Screw 555
The screw 555 is positioned inside the second portion 5502. The screw 555 extends in the first direction. The screw 555 conveys the waste toner which enters the second portion 5502 from the first portion 5501 toward the third opening 553.
2.2.5 Seal Member 56
As illustrated in
2.2.6 Springs 57A, 57B
As illustrated in
Next, the details of the toner cartridge 6K will be explained with reference to
As illustrated in
3.1 Cartridge Housing 60K
As illustrated in
In the state in which the toner cartridge 6K is mounted on the process unit 5K, a dimension L1 of the cartridge housing 60K in the third direction is greater than a dimension L2 of the cartridge housing 60K in the second direction. A dimension L3 of the cartridge housing 60K in the first direction is greater than the dimension L2 of the cartridge housing 60K in the second direction. The dimension L3 of the cartridge housing 60K in the first direction is greater than the dimension L1 of the cartridge housing 60K in the third direction.
Accordingly, the accommodation capacity of the cartridge housing 60K can be increased while reducing the size of the cartridge housing 60K in the second direction.
The cartridge housing 60K includes a first surface S1, a second surface S2, a first flat surface S3, a second flat surface S4, a third flat surface S5, and a fourth flat surface S6 (see
3.1.1 First Surface S1
As illustrated in
3.1.2 Second Surface S2
The second surface S2 is positioned on the other end of the cartridge housing 60K in the third direction. The second surface S2 is spaced apart from the first surface S1 in the third direction. The second surface S2 extends in the first direction. The second surface S2 is an upper surface of the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K. The second surface S2 has a second circumferential surface R2. In the embodiment, the second surface S2 is formed by the second circumferential surface R2. In other words, the upper surface of the cartridge housing 60K is the second circumferential surface R2 in the state in which the toner cartridge 6K is mounted on the process unit 5K. The second circumferential surface R2 may be a part of the second surface S2. A center of curvature of the first circumferential surface R1 is identical with a center of curvature of the second circumferential surface R2.
3.1.3 First Flat Surface S3, Second Flat Surface S4
As illustrated in
3.1.4 Third Flat Surface S5, Fourth Flat Surface S6
As illustrated in
3.1.5 Toner Container 602, Waste Toner Container 603
The cartridge housing 60K includes a toner container 602 and a waste toner container 603. The toner container 602 and the waste toner container 603 are aligned in the second direction in the state in which the toner cartridge 6K is mounted on the process unit 5K. The toner container 602 accommodates the toner. The waste toner container 603 accommodates the waste toner.
3.1.6 First Opening 600
The cartridge housing 60K includes the first opening 600, the second opening 601, a second recess 607, and a groove 604 (see
The toner is discharged from the first opening 600. The first opening 600 communicates with the toner container 602. The first opening 600 is positioned on the first surface 51. The first opening 600 is positioned on the first circumferential surface R1. In other words, the first circumferential surface R1 has the first opening 600. The first opening 600 is positioned at a central part of the first surface S1 in the first direction. The first opening 600 is positioned on the lower surface of the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K. According to the structure, the first opening 600 can discharge the toner smoothly by gravity.
3.1.7 Second Opening 601
The second opening 601 can receive the waste toner. The second opening 601 communicates with the waste toner container 603. The second opening 601 is positioned on the second surface S2. The second opening 601 is positioned on the second circumferential surface R2. In other words, the second circumferential surface R2 has the second opening 601. The second opening 601 is positioned on the upper surface of the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K. According to the structure, the second opening 601 can receive the waste toner smoothly by gravity.
3.1.8 Second Recess 607
The second recess 607 is positioned on the first surface 51. The second recess 607 is positioned on the first circumferential surface R1. The second recess 607 is spaced apart from the first opening 600 in the second direction. The second recess 607 receives the frame shutter 521 in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
3.1.9 Groove 604
As illustrated in
3.1.10 Second Gear 605
The cartridge housing 60K includes the second gear 605. The second gear 605 is positioned in the groove 604. The second gear 605 is engaged with the first gear 552 in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
3.2 Engaging Portion 67A
As illustrated in
3.2.1 Arm Support Portion 68
The arm support portion 68 supports the first arm 63 such that the first arm is rotatable. The arm support portion 68 protrudes from the first flat surface S3 in the first direction. The arm support portion 68 has a cylindrical shape. A central axis A6 of the arm support portion 68 extends in the first direction. The central axis A6 goes through to a center of curvature of the first circumferential surface R1. In other words, the center of curvature of the first circumferential surface R1 is positioned on the central axis A6. The central axis A6 goes through a center of curvature of the second circumferential surface R2. In other words, the center of curvature of the second circumferential surface R2 is positioned on the central axis A6.
3.2.2 Guided Portion 69
The guided portion 69 protrudes from the arm support portion 68 in the first direction. The guided portion 69 extends in the third direction. The guided portion 69 is guided by the second guide 526, the two first ribs 514A, 514B and the first guide 525 when the toner cartridge 6K is mounted on the process unit 5K (see
3.3 Engaging Portion 67B
As illustrated in
3.4 First Shutter 61
As illustrated in
The first shutter 61 is movable with respect to the cartridge housing 60K between the first closed position and the first open position along the first circumferential surface R1. Therefore, the first shutter 61 is movable smoothly even when the cartridge housing 60K is the hexahedron.
The first shutter 61 is spaced apart from the first opening 600 in a circumferential direction of the first circumferential surface R1 in the state in which the first shutter 61 is positioned at the first open position (see
The first shutter 61 has an arc shape extending along the first circumferential surface R1. The first shutter 61 extends in the first direction. The first shutter 61 has one end portion and the other end portion in the first direction.
3.5 Second Shutter 62
The second shutter 62 is positioned on the second surface S2. The second shutter 62 is movable with respect to the cartridge housing 60K between a second closed position (see
The second shutter 62 is movable with respect to the cartridge housing 60K between the second closed position and the second open position along the second circumferential surface R2. Therefore, the second shutter 62 is movable smoothly even when the cartridge housing 60K is the hexahedron.
The second shutter 62 is spaced apart from the second opening 601 in the circumferential direction of the second circumferential surface R2 in the state in which the second shutter 62 is positioned at the second open position (see
The second shutter 62 has an arc shape extending along the second circumferential surface R2. The second shutter 62 extends in the first direction. The second shutter 62 has one end portion and the other end portion in the first direction.
3.6 First Arm 63
The first arm 63 connects the first shutter 61 and the second shutter 62. The first arm 63 connects one end portion of the first shutter 61 in the first direction to one end portion of the second shutter 62 in the first direction.
The first arm 63 is positioned on the first flat surface S3. The first arm 63 has a hole 63A. The hole 63A has a circular shape. The arm support portion 68 of the engaging portion 67A is fitted into the hole 63A. According to the structure, the arm support portion 68 of the engaging portion 67A supports the first arm 63 such that the first arm 63 is rotatable. The first arm 63 is movable along the first flat surface S3. The first arm 63 is rotatable about the central axis A6 of the arm support portion 68. Accordingly, the first shutter 61 and the second shutter 62 are rotatable about the central axis A6 of the arm support portion 68 as a rotation axis. In other words, the first shutter 61 is rotatable about the rotation axis A6 between the first closed position and the first open position. The second shutter 62 is rotatable about the rotation axis A6 between the second closed position and the second open position. According to the structure, the first shutter 61 and the second shutter 62 are allowed to rotate together as one body.
3.7 Second Arm 64
As illustrated in
The second arm 64 is positioned on the second flat surface S4. The second arm 64 has a hole 64A. The hole 64A has a circular shape. The arm support portion 68 of the engaging portion 67B is fitted into the hole 64A. According to the structure, the arm support portion 68 of the engaging portion 67B supports the second arm 64 such that the second arm 64 is rotatable. The second arm 64 is movable along the second flat surface S4. The second arm 64 is explained in the same manner as the first arm 63. Therefore, the explanation of the second arm 64 is omitted.
3.8 First Protrusions 65A, 65B
As illustrated in
The first protrusion 65A is engaged with the first frame 51 of the process unit 5K in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
As illustrated in
3.9 Second Protrusions 66A, 66B
As illustrated in
The second protrusion 66A is engaged with the first frame 51 of the process unit 5K in the state in which the toner cartridge 6K is mounted on the process unit 5K (see
As illustrated in
3.10 Mounting State of Toner Cartridge 6K to Process Unit 5K
As illustrated in
The cartridge housing 60K is positioned between the side plate 520A and the side plate 520B in the first direction in the state in which the toner cartridge 6K is mounted on the process unit 5K. The second side plate 511A of the first frame 51 and the side plate 520A of the second frame 52 are aligned in the first direction with the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K.
The first shutter 61 is fitted into the first recess 5131 in the state in which the toner cartridge 6K is mounted on the process unit 5K. The frame shutter 521 is fitted into the second recess 607 in the state in which the toner cartridge 6K is mounted on the process unit 5K. The guided portion 69 is fitted into the first guide 525 in the state in which the toner cartridge 6K is mounted on the process unit 5K.
As illustrated in
The cartridge housing 60K is rotatable with respect to the second support portion 511 of the first frame 51 between the first position (see
The rotation center A5 of the cartridge housing 60K is positioned at the center of the dimension L1 (see
The guided portion 69 is fitted into the first guide 525 in the state in which the toner cartridge 6K is mounted on the second frame 52 (see
The first protrusion 65A is fitted between the first rib 514A and the first rib 514B in the state in which the toner cartridge 6K is mounted on the second frame 52 (see
According to the above, the first shutter 61 and the second shutter 62 can stop movement in a rotation direction of the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the second frame 52. As a result, when the cartridge housing 60K rotates with respect to the second support portion 511, the cartridge housing 60K rotates with respect to the first shutter 61 and the second shutter 62.
As illustrated in
It is difficult that the toner cartridge 6K collects the waste toner from the conveying tube 550 in the state in which the cartridge housing 60K is positioned at the first position. The second shutter 62 is positioned at the second closed position in the state in which the cartridge housing 60K is positioned at the first position. The third shutter 551 is positioned at the third closed position in the state in which the cartridge housing 60K is positioned at the first position.
In the state in which the cartridge housing 60K is positioned at the first position, at least a part of the one end portion E1 of the cartridge housing 60K protrudes from the second support portion 511 of the first frame 51 in the second direction, and at least a part of the other end portion E2 of the cartridge housing 60K protrudes to an opposite side of the one end portion E1 from the second support portion 511 of the first frame 51.
In the state in which the cartridge housing 60K is positioned at the first position, the one end portion E1 of the cartridge housing 60K is positioned on one side in the second direction of the one end portion E1 of the cartridge housing 60K positioned at the second position (see
In the state in which the cartridge housing 60K is positioned at the first position, the toner cartridge 6K is removable from the second frame 52 of the process unit 5K along the fourth direction. In the state in which the cartridge housing 60K is positioned at the first position, the toner cartridge 6K does not overlap with the second portion 5502 of the conveying tube 550 in a removing direction in which the toner cartridge 6K is removed from the process unit 5K. The second opening 601 is spaced apart from the second portion 5502 of the conveying tube 550 in the second direction in the state in which the toner cartridge 6K is mounted on the process unit 5K and the cartridge housing 60K is positioned at the first position.
The one end portion E1 of the cartridge housing 60K is positioned on an opposite side of the first end 3E1 of the top cover 3 (see
According to the above, the user can easily access the one end portion E1 of the cartridge housing 60K from the opposite side of the first end 3E1 of the top cover 3 in a state in which the top cover 3 is positioned at the open position and the cartridge housing 60K is positioned at the first position. As a result, the toner cartridge 6K is removable smoothly from the process unit 5K.
The exposing head 7K is extracted from the space between the toner cartridge 6K and the toner cartridge 6C in the second direction as illustrated by virtual lines in the state in which the top cover 3 is positioned at the open position. The exposing head 7K is positioned at a space SP between the cartridge housing 60K positioned at the second position and the toner cartridge 6C in the state in which the top cover 3 is positioned at the closed position as illustrated by virtual lines in
As illustrated in
Accordingly, the space SP for disposing the exposing head 7K can be used as a space for disposing the one end portion E1 of the cartridge housing 60K. Therefore, the size reduction of the image forming apparatus 1 in the second direction can be positively realized.
As illustrated in
The toner cartridge 6K can collect waste toner from the conveying tube 550 in the state in which the cartridge housing 60K is positioned at the second position. The second shutter 62 is positioned at the second open position in the state in which the cartridge housing 60K is positioned at the second position.
As illustrated in
The shutter opening 557, the third opening 553, and the second opening 601 communicate with one another in the vertical direction in the state in which the cartridge housing 60K is positioned at the second position.
It is difficult to remove the toner cartridge 6K from the second frame 52 of the process unit 5K in the state in which the cartridge housing 60K is positioned at the second position. The second portion 5502 of the conveying tube 550 is disposed on an opposite side of the developing device 53K with respect to the toner cartridge 6K in the third direction in the state in which the toner cartridge 6K is mounted on the process unit 5K.
The toner cartridge 6K overlaps with the second portion 5502 of the conveying tube 550 in the third direction in the state in which the toner cartridge 6K is mounted on the process unit 5K and the cartridge housing 60K is positioned at the second position. The second portion 5502 of the conveying tube 550 is positioned above the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K and the cartridge housing 60K is positioned at the second position.
The second opening 601 is aligned with the second portion 5502 of the conveying tube 550 in the third direction in the state in which the toner cartridge 6K is mounted on the process unit 5K and the cartridge housing 60K is positioned at the second position.
Therefore, the shutter opening 557, the third opening 553, and the second opening 601 communicate with one another in the vertical direction in the state in which the cartridge housing 60K is positioned at the second position. Accordingly, the second opening 601 can receive waste toner conveyed by the conveying tube 550 smoothly through the shutter opening 557 and the third opening 553 by gravity.
3.11 Movement of Cartridge Housing 60K from Second Position to First Position
As illustrated in
Accordingly, the space for rotating the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K can be secured on both sides of the cartridge housing 60K in the second direction.
As a result, a gap between the toner cartridge 6K and the toner cartridge 6C in the second direction can be reduced. Accordingly, the size reduction of the image forming apparatus 1 in the second direction can be realized.
When the cartridge housing 60K moves from the second position to the first position, the one end portion E1 of the cartridge housing 60K moves so as to go away from the first end 3E1 (see
(1) According to the image forming apparatus 1, the cartridge housing 60K is rotatable between the first position and the second position in the state in which the toner cartridge 6K is mounted on the process unit 5K as illustrated in
Accordingly, the first shutter 61 is movable between the first closed position and the first open position by rotating the cartridge housing 60K between the first position and the second position in the state in which the toner cartridge 6K is mounted on the process unit 5K.
Then, when the toner cartridge 60K moves from the second position to the first position, the one end portion E1 of the cartridge housing 60K comes close to the toner cartridge 6C and the other end portion E2 of the cartridge housing 60K goes away from the toner cartridge 6C.
Therefore, the space for rotating the cartridge housing 60K can be secured on both sides of the cartridge housing 60K in the second direction. As a result, the gap between the toner cartridge 6K and the toner cartridge 6C in the second direction can be reduced. According to the above, the size reduction of the image forming apparatus 1 in the second direction can be realized.
Next, a second embodiment will be explained with reference to
As illustrated in
The body housing 12 accommodates the sheet cassette 4, the drawer 11, the four process units 5K, 5C, 5M, and 5Y, the four toner cartridges 6K, 6C, 6M, and 6Y, the exposing device 13, the belt unit 8, the transfer roller 9, and the fixing device 10.
The body housing 12 includes a body opening 12A. The body opening 12A is positioned at one end portion of the body housing 12 in the second direction.
The cover 14 is movable between a closed position (see
The drawer 11 is movable between an inner position (see
In the state in which the drawer 11 is positioned at the outer position, the four process units 5K, 5C, 5M, and 5Y are mountable.
As illustrated in
As illustrated in
The cartridge housing 60K of the toner cartridge 6K is rotatable between the first position (see
When the cartridge housing 60K moves from the second position to the first position, the one end portion E1 of the cartridge housing 60K moves in a direction in which the drawer 11 moves from the inner position to the outer position.
The one end portion E1 of the cartridge housing 60K is positioned at an upper end of the cartridge housing 60K in the state in which the toner cartridge 6K is mounted on the process unit 5K and the toner cartridge 6K is positioned at the second position. The one end portion E1 of the cartridge housing 60K is spaced apart from the second portion 5502 of the conveying tube 550 in the direction in which the drawer 11 moves from the inner position to the outer position in the state in which the toner cartridge 6K is mounted on the process unit 5K and the toner cartridge 6K is positioned at the first position.
According to the above, the user can easily access the one end portion E1 of the cartridge housing 60K from the opposite side of the body housing 12 in the state in which the drawer 11 is positioned at the outer position and the cartridge housing 60K is positioned at the first position. As a result, the toner cartridge 6K is removable from the process unit 5K smoothly.
Number | Date | Country | Kind |
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2020-017377 | Feb 2020 | JP | national |
The present application is a continuation of U.S. patent application Ser. No. 17/166,776, filed Feb. 3, 2021, which claims priority from Japanese Patent Application No. 2020-017377, which was filed on Feb. 4, 2020, the disclosure of which is herein incorporated by reference in its entirety.
Number | Date | Country | |
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Parent | 17166776 | Feb 2021 | US |
Child | 17836132 | US |