The present disclosure relates to an electrophotographic image forming apparatus (hereinafter, referred to as an image forming apparatus), a process cartridge detachably attachable to an image forming apparatus main body of the image forming apparatus, and a toner cartridge.
Some image forming apparatuses have been known to adopt a process cartridge method in which a member that needs to be replaced periodically and toner that needs to be supplied are formed into a cartridge so as to be detachably attachable to the image forming apparatus main body.
With such a cartridge method, maintenance operations for the image forming apparatus are able to be performed by a user himself or herself without relying on a service person, and therefore, operationality is able to be remarkably improved. Thus, the cartridge method is widely used in image forming apparatuses.
For example, it is known that toner is supplied from a toner cartridge to an image forming unit (Japanese Patent No. 5750803). In this manner, a toner cartridge a consumption of which is large is detachably attachable to an image forming apparatus main body, so that a user is able to replace the toner cartridge. In a configuration in which the toner cartridge is detachably attachable to the image forming apparatus main body, in a state where the toner cartridge is not attached or is attached incompletely, tone supply becomes impossible and image formation is difficult to be performed. Thus, a configuration in which a mechanical mechanism and an electric detection unit that are provided in the image forming apparatus main body are used to alert a user to failure of attachment or incomplete attachment of the toner cartridge is known.
On the other hand, a configuration in which a photosensitive drum and a process unit acting on the photosensitive drum are integrated to form a process cartridge, or a development cartridge in which a development unit configured to perform development for the photosensitive drum is unified are known. In a configuration in which a toner cartridge is attached to the process cartridge or the development cartridge, it is not configured so that the toner cartridge is attached to an image forming apparatus main body. Thus, a configuration which allows alerting a user to failure of attachment or incomplete attachment of the toner cartridge has been demanded.
According to a first aspect of the disclosure, an image forming apparatus includes: a cartridge that includes a developer carrier configured to carry developer on a surface thereof and a blade configured to regulate thickness of the developer carried on the surface of the developer carrier; a developer container detachably attachable to the cartridge and containing the developer, in which the developer container is movable, with respect to the cartridge, between a first position and a second position different from the first position in a state where the developer container is attached to the cartridge; an apparatus main body that has an attachment portion to which the cartridge is attached, in which the apparatus main body includes an opening through which the cartridge passes when the cartridge is attached to the attachment portion and an opening and closing member that is configured to be movable between an open position where the opening is opened and a close position where the opening is closed; and a moving member that moves so that in a case where the cartridge in which the developer container is attached at the first position is attached to the attachment portion, the moving member is at a position of preventing movement of the opening and closing member from the open position to the close position, and in a case where the cartridge in which the developer container is attached at the second position is attached to the attachment portion, the moving member is at a position of allowing movement of the opening and closing member from the open position to the close position.
Further features of the present disclosure will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
An image forming apparatus and a process cartridge used in the image forming apparatus according to the disclosure. The present embodiment will be described by taking the aforementioned process cartridge that is detachably attachable to an image forming apparatus main body as an example. The process cartridge is broadly divided into a drum unit having a photosensitive drum that is an image carrier, and a development unit having a development roller (developer carrier) that carries developer by which an electrostatic latent image of the image carrier is visualized, and the respective units are integrated to form the cartridge. In the following description, longitudinal directions of the drum unit and the development unit are directions almost parallel to a rotational axis L1 of the photosensitive drum and a rotational axis L9 of the development roller. The rotational axis L1 of the photosensitive drum and the rotational axis L9 of the development roller are directions intersecting a conveyance direction of a recording medium. Transverse directions of the drum unit and the development unit are directions almost orthogonal to the rotational axis L1 of the photosensitive drum and the rotational axis L9 of the development roller. In the present embodiment, a direction in which the process cartridge is attached to or detached from the image forming apparatus main body is the transverse direction of the process cartridge. Reference signs in the following description are provided for referencing the drawings, and do not intend to limit a configuration.
First, an overall configuration of an image forming apparatus to which an embodiment of the disclosure is applied will be described with reference to
An image forming apparatus main body A1 illustrated in
The photosensitive drum 10 uniformly charges a surface of the photosensitive drum 10 with use of the charging roller 11 by application of a voltage from the image forming apparatus main body A1. Then, the photosensitive drum 10 that is charged is irradiated with a laser beam L that is emitted from an optical unit 1 and corresponds to image information and an electrostatic latent image corresponding to the image information is formed on the photosensitive drum 10. The electrostatic latent image is developed with the toner t2 by a development unit described below and a developed image is formed on the surface of the photosensitive drum 10.
On the other hand, each recording medium 2 accommodated in a sheet feed tray 4 is separated and fed one by one by being regulated by a sheet feeding roller 3a and a separation pad 3b, which is in a pressure contact with the sheet feeding roller 3a, in synchronization with formation of the developed image. Then, a conveyance guide 3d conveys the recording medium 2 to a transfer roller 6 serving as a transfer unit. The transfer roller 6 is urged so as to contact the surface of the photosensitive drum 10.
Next, the recording medium 2 passes through a transfer nip portion 6a formed by the photosensitive drum 10 and the transfer roller 6. At this time, a voltage having a polarity opposite to that of the developed image is applied to the transfer roller 6, so that the developed image formed on the surface of the photosensitive drum 10 is transferred onto the recording medium 2.
The recording medium 2 onto which the developed image is transferred is regulated by a conveyance guide 3f and conveyed to a fixing unit 5. The fixing unit 5 includes a driving roller 5a and a fixing roller 5c in which a heater 5b is built. Heat and pressure are applied to the recording medium 2 when passing through a nip portion 5d formed by the driving roller 5a and the fixing roller 5c, and the developed image transferred onto the recording medium 2 is fixed to the recording medium 2. Thereby, an image is formed on the recording medium 2.
Thereafter, the recording medium 2 is conveyed by a discharge roller pair 3g and discharged to a discharge portion 3.
Next, the electrophotographic image forming process to which the embodiment of the disclosure is applied will be described with reference to
As illustrated in
The toner t2 contained in a developer containing portion 16a of the development frame 16 is fed from a development frame opening portion 16b of the development frame 16 into a development chamber 16c when a developer feeding member 17 which is rotatably supported in the development frame 16 rotates in a direction of an arrow X17. The development roller 13 in which a magnet roller 12 is built is provided in the development frame 16. Specifically, the development roller 13 is constituted by an axis portion 13e and a rubber portion 13d. The axis portion 13e is a slender electroconductive cylinder of aluminum or the like, and a center part thereof in the longitudinal direction is covered with the rubber portion 13d. Here, the rubber portion 13d covers the axis portion 13e so that an outer shape thereof is coaxial with the axis portion 13e.
The development roller 13 attracts the toner t2 in the development chamber 16c to a surface of the development roller 13 by a magnetic force of the magnet roller 12. The development blade 15 is constituted by a support member 15a made of a metal plate and an elastic member 15b made from urethane rubber, a SUS plate, or the like, and is provided so that the elastic member 15b elastically contacts the development roller 13 with constant contact pressure. Rotation of the development roller 13 in a rotation direction X5 regulates an amount of the toner t2 bonded to the surface of the development roller 13, and imparts a triboelectric charge to the toner t2. Thereby, a toner layer is formed on the surface of the development roller 13. When the development roller 13 to which a voltage is applied from the image forming apparatus main body A1 rotates in the rotation direction X5 while contacting the photosensitive drum 10, the toner t2 is supplied to a development region on the photosensitive drum 10.
The charging roller 11 that is rotatably supported by the drum support frame 21 and is urged in a direction of the photosensitive drum 10 is provided in contact with an outer peripheral surface of the photosensitive drum 10. A detailed configuration will be described below. The charging roller 11 uniformly charges the surface of the photosensitive drum 10 by application of a voltage from the image forming apparatus main body A1. As the voltage to be applied to the charging roller 11, a direct current voltage having a value by which a potential difference between the surface of the photosensitive drum 10 and the charging roller 11 is equal to or greater than a discharge start voltage is applied. At this time, the surface of the photosensitive drum 10 is uniformly contact-charged to have a charged potential (dark portion potential) of −700 V. Then, the laser beam L from the optical unit 1 (
Next, a configuration of the development unit B1 to which the embodiment of the disclosure is applied will be described with reference to
As illustrated in
The driving side development bearing 36 rotatably supports a driving force input gear 27 at an outer side thereof in the longitudinal direction. The driving force input gear 27 meshes with the development roller gear 29. A coupling member 180 is provided coaxially with the driving force input gear 27. The driving side development bearing 36 includes a driving side contacting/spacing lever 70. The non-driving side development bearing 46 includes a non-driving side contacting/spacing lever 72.
A development side cover 34 is provided at the outermost end portion of the driving side of the development unit B1 so as to cover the driving force input gear 27 and the like from the outer side in the longitudinal direction. The coupling member 180 protrudes to the outside in the longitudinal direction through a hole 34a in the development side cover 34. Although described in detail below, the coupling member 180 is configured to be engaged with a main body side driving member 100 (
Next, a configuration of the drum unit C1 will be described with reference to
A driving side flange 24 is integrally fixed to a driving side end portion 10a of the photosensitive drum 10, and a non-driving side flange 28 is integrally fixed to a non-driving side end portion 10b of the photosensitive drum 10. The driving side flange 24 and the non-driving side flange 28 are fixed coaxially with the photosensitive drum 10 by means of clamping, bonding, or the like. At both longitudinal end portions of the drum support frame 21, the driving side drum bearing 930 is fixed to an end portion on the driving side and the drum shaft 54 is fixed to an end portion on the non-driving side by means of screws, bonding, press-fitting, or the like. The driving side flange 24 integrally fixed to the photosensitive drum 10 is rotatably supported by the driving-side drum bearing 930 and the non-driving side flange 28 is rotatably supported by the drum shaft 54.
A charging roller gear 69 is provided in one longitudinal end of the charging roller 11 and the charging roller gear 69 meshes with a gear portion 24g of the driving side flange 24. A driving side end portion 24a of the driving side flange 24 is configured to receive the rotary force from the side of the image forming apparatus main body A1 (not illustrated). Therefore, as the photosensitive drum 10 is driven to rotate, the charging roller 11 is also driven to rotate. As described above, a peripheral speed of the surface of the charging roller 11 is set to be about 105 to 120% relative to a peripheral speed of the surface of the photosensitive drum 10.
The drum support frame 21 is provided with a first grip 21a (first grip portion) as a grip to be gripped by a user when the process cartridge P is attached. The first grip 21a is at a center part in an axial direction of the rotational axis L10 of the photosensitive drum 10 and provided so as to protrude from the drum support frame 21.
Next, a configuration in which the development unit B1 and the drum unit C1 are unified into the process cartridge P will be described with reference to
As illustrated in
Further, in the development unit B1, a hang boss 36r provided on the driving side development bearing 36 is rotatably supported by a hang hole 930r provided in the driving side drum bearing 930. In addition, a hang boss 46r provided on the non-driving side development bearing 46 is rotatably supported by a hang hole 931r provided in the non-driving side drum bearing 931. With such configurations, the development unit B1 is configured to be swingable relative to the drum unit C1 with the hang boss 36r of the driving side development bearing 36 and the hang boss 46r of the non-driving side development bearing 46 as an axis L90 (
A detailed configuration of the neighborhood of a receiving portion for the toner cartridge T of the development unit B1 according to the present embodiment will be described with reference to
A toner cartridge storage portion B1a is provided in the development unit B1. The toner cartridge storage portion (attachment portion) B1a is disposed between the drum support frame 21 and the developer containing portion 16a. In the neighborhood of the toner cartridge storage portion B1a, the development unit B1 has a receiving opening portion (first opening) 16d and the development shutter 301 (first shutter) and the receiving opening portion 16d is provided at a longitudinal center part of the development frame 16. Note that, the position of the receiving opening portion 16d is not limited thereto as long as being at a position opposed to a supply opening portion 200 described below. The receiving opening portion (first opening) 16d is sealed by the development shutter 301 (described below) in a shape having curvature along an outer peripheral surface of the toner cartridge T as illustrated in
The development shutter 301 is provided with a hole portion 301a engaged with a projection portion (abutting portion) 205 (described below) that is provided on the toner cartridge T, so that the hole portion 301a is disposed at a position out of a sealing range in which the development shutter 301 seals the receiving opening portion 16d. The development shutter 301 is engaged with a development shutter guide portion 16e provided at each longitudinal end portion of the receiving opening portion 16d. In this manner, the development shutter 301 is configured to be slidable along the development shutter guide portion 16e between a state (
The driving side development bearing 36 of the development unit B1 has an insertion guide 36g that guides an insertion trajectory of the toner cartridge T and an abutted portion 36h (described below) that abuts to the abutting portion 205 of the toner cartridge T when the toner cartridge T is inserted. Similarly, the non-driving side development bearing 46 of the development unit B1 has an insertion guide 46g that guides an insertion trajectory of the toner cartridge T and an abutted portion 46h (described below) that abuts to an abutting portion 204 of the toner cartridge T when the toner cartridge T is inserted.
An opening and closing guide portion 36k and an opening and closing guide portion 46k are respectively provided in the driving side development bearing 36 and the non-driving side development bearing 46 in order to guide the toner cartridge T when the development shutter 301 and a toner shutter 201 described below are opened or closed. Here, the insertion guide 36g and the insertion guide 46g are formed linearly in parallel to each other along an inserting direction f (
In the development unit B1, a first drive transmitting portion 38 (described below) for transmitting drive to a toner feeding unit 206 of the toner cartridge T is provided at one longitudinal end portion of the development unit D1. Though not illustrated, the first drive transmitting portion 38 is connected by a gear with a driving mechanism of the image forming apparatus main body A1 inside the development unit B1.
A hole portion 16f is provided at an outside of each longitudinal end of the receiving opening portion 16d of the development unit D1. Therefore, when the hole portion 16f is engaged with a claw portion 201b of a snap-fit portion 201a (described below) provided in the toner shutter 201 of the toner cartridge T and the toner shutter 201 closed, the toner shutter 201 is prevented from rotating together with a toner frame 40 described below.
Next, a detailed configuration of the toner cartridge T according to the present embodiment will be described with reference to
The toner cartridge T has the toner frame 40, the supply opening portion (second opening) 200, and the toner shutter (second shutter) 201. In the toner shutter 201, a toner discharge port seal 203 that seals a space between the toner frame 40 and the toner shutter 201 when the toner shutter 201 is at a closing position where the supply opening portion 200 is closed is attached so as to cover the supply opening portion 200.
The toner frame 40 has a substantially cylindrical hollow shape and is provided, on an outer periphery thereof, with a projection portion 40b that is engaged with the hole portion 301a of the development shutter 301. A toner feeding member 206 for feeding toner is provided inside the toner frame 40. At one end of the toner feeding member 206, a toner feeding driving portion 210 that drives the toner feeding member 206 and a second drive transmitting portion 211 (drive receiving portion) that transmits drive of the first drive transmitting portion 38 (drive transmitting portion) of the process cartridge P to the toner feeding driving portion 210 are provided.
The supply opening portion 200 is provided in a longitudinal center part of the toner cartridge T on a circumference of the toner frame 40. Here, the longitudinal direction of the toner cartridge T refers to a rotational axial direction of the toner feeding member 206. Note that, the position of the supply opening portion 200 is not limited thereto as long as being at a position opposed to the receiving opening portion 16d.
The toner shutter 201 has a shape having curvature along the outer peripheral surface of the toner cartridge T and has the snap-fit portion 201a and the claw portion 201b at each longitudinal end portion. The toner shutter 201 is engaged with toner shutter guide portions 40c1 and 40c2 that are provided at both longitudinal ends of the supply opening portion 200. The toner shutter 201 is configured to be slidable in a circumferential direction of the toner frame 40 between a state (
The toner cartridge T is provided, at both longitudinal end portions of the toner cartridge T, with an insertion guided portion 207 and an insertion guided portion 208 which are guided by the insertion guide 36g and the insertion guide 46g of the development unit B1. The insertion guided portion 207 has an abutting portion 207a that abuts to the abutted portion 36h of the development unit B1 when the toner cartridge T is inserted.
The insertion guided portion 208 has an abutting portion 208a that abuts to the abutted portion 46h of the development unit B1 when the toner cartridge T is inserted, and an opening and closing guided portion 208b that guides the toner cartridge T when the toner shutter 201 is opened or closed. Additionally, the insertion guided portion 208 is provided with a regulation portion 208c1 and a regulation portion 208c2 that regulate an insertion attitude of the toner cartridge T upon insertion.
Note that, the abutting portion 207a and an opening and closing guided portion 207b are formed integrally with the insertion guided portion 207 in the present embodiment, however, they may be separate members as long as the respective functions are achieved.
Further, the insertion guided portion 207 is provided at an end portion of the second drive transmitting portion 211 in the longitudinal direction of the toner feeding member 206 in the present embodiment, but may be provided in the toner frame 40. The abutting portion 208a, the opening and closing guided portion 208b, the regulation portion 208c1, and the regulation portion 208c2 are formed integrally with the insertion guided portion 208, however, they may be separate members as long as the respective functions are achieved.
As illustrated in
As illustrated in
The second portion 220c1 is arranged between the first portion 220b and the one end portion 220a1 and the second portion 220c2 is arranged between the first portion 220b and the other end portion 220a2 (refer to
Note that, the configuration is such that the second portion 220c1 and the second portion 220c2 are provided at both end portions of the first portion 220b in the present embodiment, but either the second portion 220c1 or the second portion 220c2 may be provided at only corresponding one of the end portions.
First, an operation according to the present embodiment from when the toner cartridge T is inserted in the process cartridge till when the toner cartridge T is engaged with the process cartridge P and the receiving opening portion 16d and the supply opening portion 200 are opened will be described.
First, an insertion operation of the toner cartridge T into the process cartridge P will be described with reference to
In a case where the toner cartridge T is attached to the toner cartridge storage portion B1a, with the development shutter 301 and the toner shutter 201, the receiving opening portion 16d of the development unit B1 and the supply opening portion 200 of the toner cartridge T are positioned in closed states.
An inserting direction of the toner cartridge T into the process cartridge P is a direction (the direction f in
When the user moves the toner cartridge T in the direction of the arrow f along the insertion guide 46g and the insertion guide 36g, the abutting portion 208a abuts to the abutted portion 46h and the abutting portion 207a abuts to the abutted portion 36h, resulting in completion of the insertion (
Next, positioning of the toner cartridge T with respect to the process cartridge P will be described with reference to
The toner cartridge T inserted in the development unit B1 causes the toner frame 40 to rotate in a counterclockwise manner (a direction of an arrow e in
Next, opening operations of the development shutter 301 of the development unit B1 and the toner shutter 201 of the toner cartridge T will be described with reference to
As illustrated in
After that, in a state where the supply opening portion 200 is in communication with the receiving opening portion 16d as illustrated in
Thus, circulation of the toner t2 between the toner frame 40 of the toner cartridge T and the developer containing portion 16a of the development unit B1 is enabled (
Next, closing operations of the development shutter 301 of the development unit B1 and the toner shutter 201 of the toner cartridge T will be described with reference to
First, in a state of
When the toner frame 40 further rotates in the direction of the arrow h, the positioning of the toner cartridge T with respect to the process cartridge P is released as illustrated in
Next, a method of attaching or detaching the process cartridge P to or from the image forming apparatus main body A1 will be described with reference to
As illustrated in
As illustrated in
On the other hand, when an opening and closing member 941 of the image forming apparatus main body A1 is opened, a cartridge attachment portion 999 is provided, and a driving-side side plate 990 that constitutes a housing of the image forming apparatus main body A1 is provided on the driving side of the cartridge attachment portion 999 (
A method of attaching the process cartridge P to the image forming apparatus main body A1 will be described. As illustrated in
Then, while gripping the first grip 21a of the process cartridge P, the user causes the guided portion 931d (
The positioning portion 930b of the driving-side drum bearing 930 is set to receive an urging force from a driving side pressing member 982 as illustrated in
A method of detaching the process cartridge P from the image forming apparatus main body A1 will be described. As illustrated in
The user grips the first grip 21a of the process cartridge P and pulls out the process cartridge P in a direction of an arrow y against the urging force that the positioning portion 930b of the driving side drum bearing 930 receives from the driving side pressing member 982 (
Next, a method of attaching or detaching the toner cartridge T to or from the image forming apparatus main body A1 will be described with reference to
As illustrated in
On the other hand, as illustrated in
A method of attaching the toner cartridge T to the image forming apparatus main body A1 will be described. As illustrated in
While keeping the first portion 220b of the second grip 220 of the toner cartridge T, the user then causes the insertion guided portion 208 of the toner cartridge T to be engaged with the insertion guide 46g of the non-driving side development bearing 46 of the process cartridge P. The user-also causes the insertion guided portion 207 of the toner cartridge T to be engaged with the insertion guide 36g of the driving side development bearing 36 of the process cartridge P. Then, the toner cartridge T is inserted in the toner cartridge storage portion B1a of the process cartridge P inside the image forming apparatus main body A1 along the attaching/detaching path X914 formed by the insertion guide 46g of the non-driving side development bearing 46 and the insertion guide 36g of the driving side development bearing 36.
The toner cartridge T is inserted until the abutting portion 208a of the toner cartridge T abuts to the abutted portion 46h of the non-driving side development bearing 46. Thereby, the insertion of the toner cartridge T into the toner cartridge storage portion B1a of the process cartridge P inside the image forming apparatus main body A1 is completed (
The toner frame 40 of the toner cartridge T inserted in the process cartridge P inside the image forming apparatus main body A1 is rotated in a counterclockwise manner in a direction of an arrow e in
When the attachment of the toner cartridge T is completed, the first portion 220b of the second grip 220 is stored in the toner cartridge storage portion B1a between the first grip 21a and the developer containing portion 16a (
A method of detaching the toner cartridge T from the image forming apparatus main body A1 will be described. As illustrated in
The user grips at least one of the second portion 220c1 and the second portion 220c2 of the toner cartridge T to rotate the toner cartridge T in a direction of an arrow m illustrated in
With reference to
As illustrated in
On the other hand, as illustrated in
The rotation member 238 includes, in addition to the center portion 238d and the abutting portion 235f, a first contact portion 238a, a second contact portion 238b (acted portion) which is connected to the first contact portion 238a, a contact portion 238e, and a retracting portion 238f that is connected to the contact portion 238e via a corner portion 238c. The contact portion 238e has a concentric circular arc shape centered about the rotation center of the rotation member 238. The retracting portion 238f is a part whose distance from the center portion 238d of the rotation member 238 (rotation center of the rotation member 238) in a radial direction is minimum and is not limited to a concave portion as in the present embodiment.
When the toner cartridge T is at an attachment completion position, the rotation member 238 rotates against an urging force of the torsion spring 239 and the projection portion 941fa of the opening and closing member 941 is in a state of being engaged with the retracting portion 238f of the rotation member 238. In this manner, a configuration is such that the rotation member 238 rotates to retract from a position of the projection portion 941fa when the opening and closing member 941 is completely closed and does not interfere. As a result, the configuration is such that the closing of the opening and closing member 941 is allowed when the toner cartridge T is at the attachment completion position.
That is, the configuration is such that, when the toner cartridge T is at the attachment completion position, the projection portion 941fa is engaged with the retracting portion 238f to allow the closing of the opening and closing member 941, whereas the engagement portion 941fa2 acts on the switch 666, so that the opening or closing state of the opening and closing member 941 is able to be detected. In this manner, whether or not the toner cartridge T is completely attached is able to be detected in accordance with an opening or closing state of the opening and closing member 941, and image formation is not executed when the toner cartridge T is not attached or is incompletely attached. In other words, by using the opening and closing detection portion of the opening and closing member 941, it is set that image formation is not executed when the toner cartridge T is not attached or is incompletely attached.
When the user fails to attach the toner cartridge T or does not attach the toner cartridge T to the attachment completion position. so that the toner cartridge T is in a state of being incompletely attached in partway of attachment, the toner t2 is not supplied from the toner cartridge T to the development unit B1. Thus, in a case where an image forming operation is continued, printing is not able to be performed on the recording medium 2, and also the development roller 13 and the elastic member 15b slide without using sufficient toner t2, and further, the development roller 13 contacts the photosensitive drum 10 in a state where sufficient toner is not fed on the development roller 13. The toner t2 also functions as lubricant between the development roller 13 and the development blade 15 and between the development roller 13 and the photosensitive member 10. When the image forming operation is continued in a state where the toner t2 is exhausted and there is no lubricant, sliding friction becomes large between the development roller 13 and the development blade 15 and between the development roller 13 and the photosensitive drum 10 and rotation torque of the development roller 1 and the photosensitive drum 10 also increases. When such a state is continued for a long time, the development roller 13, the development blade 15, and the photosensitive drum 10 are abraded, and even when the toner cartridge T is correctly attached again and the toner t2 is supplied, image defect may be caused. However, the present configuration such that image formation is not executed when the toner cartridge T is not attached or is incompletely attached. As a result, it is possible to prevent occurrence of image defect that is caused when the toner t2 is exhausted and the development roller 13, the development blade 15, and the photosensitive drum 10 are abraded.
A state of the toner cartridge incomplete attachment detection unit in an attaching process of the toner cartridge T will be described below.
When the toner cartridge T is not attached in the image forming apparatus main body A1, the process cartridge P in the state of
In a case where the toner cartridge T is inserted in the process cartridge P attached to the image forming apparatus main body A1, the rotation member 238 is at the first position similarly to the case where the toner cartridge T is not attached. Thus, when the toner cartridge T is only inserted in the process cartridge P, the projection portion 941fa contacting the contact portion 238e prevents the opening and closing member 941 from completely closing the opening of the image forming apparatus main body A1. Thereby, the projection portion 941fa of the opening and closing member 941 does not act on the switch 666 of the image forming apparatus main body A1 and the opening state of the opening and closing member 941 is able to be detected. In this manner, the configuration is such that when the opening is incompletely closed, the user is able to be notified that the toner cartridge T is not attached, and image formation is not executed while the opening and closing member 941 is opened.
When the toner cartridge T inserted in the process cartridge P is rotated to the attachment completion position in a counterclockwise manner, the attachment is completed. A state of the incomplete attachment detection unit of the toner cartridge T when the toner cartridge T does not rotate to reach the attachment completion position and is stopped in partway will be described below.
In response to rotation of the toner cartridge T, a protrusion portion 220a4 (acting portion) of the toner cartridge T contacts the first contact portion 238a and the second contact portion 238b (acted portion), so that the rotation member 238 is rotated in a direction opposite to the toner cartridge T. Specifically, the toner cartridge T is rotated in a counterclockwise manner, so that the protrusion portion 220a4 (acting portion) of the toner cartridge T contacts the first contact portion 238a of the rotation member 238 and further slides and the rotation member 238 is rotated in a clockwise manner. In the configuration according to the present embodiment, as the toner cartridge T is rotated, the protrusion portion 220a4 contacts the first contact portion 238a and slides, and then, the protrusion portion 220a4 contacts the second contact portion 238b. The first contact portion 238a and the second contact portion 238b are configured so that surfaces of the first contact portion 238a and the second contact portion 238b, which contact the protrusion portion 220a4, intersect with each other. As a result, even when the rotation member 238 is rotated at the same speed as that of the toner cartridge T, the rotation speed of the rotation member 238 is able to be differentiated depending on whether the protrusion portion 220a4 contacts the first contact portion 238a or the second contact portion 238b. In the present embodiment, the rotation member 238 is able to be rotated at a higher speed when the protrusion portion 220a4 contacts the second contact portion 238b compared to the case where the protrusion portion 220a4 contacts the first contact portion 238a.
A configuration is such that when the toner cartridge T stays at a position in partway of the insertion, the contact portion 238e of the rotation member 238 is positioned in a region into which the projection portion 941fa of the opening and closing member 941 enters when the opening and closing member 941 is closed. With such a configuration, when the opening and closing member 941 is to be closed as illustrated in
configuration is such that the corner portion 238c provided between the contact portion 238e and the retracting portion 238f passes through the region into which the projection portion 941fa of the opening and closing member 941 enters when the opening and closing member 941 is closed, and the projection portion 941fa is stored in the retracting portion 238f so as not to contact the contact portion 238e (
Note that, in the attachment completion state, the second drive transmitting portion 211 of the toner cartridge T meshes with the first drive transmitting portion 38 of the process cartridge P and the development shutter 301 of the development unit B1 and the toner shutter 201 of the toner cartridge T are opened. As a result, when the attachment of the toner cartridge T is completed, a driving force is able to be transmitted from the image forming apparatus main body A1 to the toner cartridge T and the toner t2 of the toner cartridge T is able to be supplied to the process cartridge P. Thus, the rotation member 238 is configured so that when the development shutter 301 and the toner shutter 201 are opened and a state where the second drive transmitting portion 211 surely meshes with the first drive transmitting portion 38 is brought, it is considered that the attachment is completed and the opening and closing member 941 becomes able to be completely closed. Specifically, at timing at least when the second drive transmitting portion 211 of the toner cartridge T meshes with the first drive transmitting portion 38 of the process cartridge P, in other words, after the toner cartridge T reaches a given rotation angle, the opening and closing member 941 is able to be completely closed. That is, before timing when the corner portion 238c passes through the region into which the projection portion 941fa enters in a process where the toner cartridge T is rotated, the second drive transmitting portion 211 surely meshes with the first drive transmitting portion 38.
Note that, description has been given in the aforementioned embodiment with an example that the toner cartridge T is detachably attachable to the process cartridge P including the photosensitive drum 10. However, there is no limitation thereto and the same is also applied to a configuration in which the toner cartridge T is detachably attachable to a development cartridge B. A component corresponding to the development unit B1 and a component corresponding to the drum unit C1 the components of the process cartridge P in the aforementioned embodiment are respectively set as the development cartridge B and a drum cartridge C. The process cartridge P, the development cartridge B, and the drum cartridge C are different from those of the aforementioned embodiment in terms of being individually detachably attachable to the image forming apparatus main body A1 but have a similar configuration, so that description thereof will be omitted. Functions, materials, shapes, relative positions, or the like of the components described in the aforementioned embodiment do not limit the scope of the disclosure only thereto unless otherwise specified, and may be changed as appropriate within the scope of the disclosure.
Meanwhile, a configuration in which usability is further improved is demanded for attachment/detachment performance of a process cartridge and a toner cartridge.
As described above, in the present embodiment, the configuration is such that a part of the second grip 220 of the toner cartridge T is covered by the first grip 21a of the process cartridge P while the toner cartridge T is attached to the process cartridge P. That is, by arranging the first grip 21a so as to cover at least a part of the second grip 220 as seen from the opening of the image forming apparatus main body A1, the second grip 220 is intendedly arranged at an inconspicuous position where the second grip 220 is difficult to be gripped. Thereby, it is possible to suppress erroneously detaching the toner cartridge T that may cause toner scattering or the like from the process cartridge P without intention, thus making it possible to improve usability. In addition, for example, even when a recording medium is jammed in a conveyance path in the image forming apparatus main body A1 and jam recovery is performed, the process cartridge P is able to be detached. from the image forming apparatus main body A1 stably with the toner cartridge T attached to the process cartridge P. Particularly in the present embodiment, a pull-out direction (direction y) in which the process cartridge P is pulled out from the image forming apparatus main body A1 is set as to be the same or substantially the same as a pull-out direction (direction) in which the toner cartridge T is pulled out from the process cartridge P. Further, it is set that the process cartridge P and the toner cartridge T are able to be detached from the same opening portion. In such a case as well, the process cartridge P is able to be detached more stably. On the other hand, by gripping at least one of the second portion 220c1 and the second portion 220c2 and rotating the toner cartridge T with respect to the process cartridge P, the second grip 220 of the toner cartridge T is able to be exposed from the process cartridge P. Then, by pulling out the second grip 220 to the outside of the image forming apparatus main body A1, only the toner cartridge T is able to be detached easily with the process cartridge P attached to the image forming apparatus main body A1.
Note that, description has been given in the aforementioned embodiment with an example that the toner cartridge T is detachably attachable to the process cartridge P including the photosensitive drum 10. However, there is no limitation thereto and the same is also applied to a configuration in which the toner cartridge T is detachably attachable to a development cartridge B2. A component corresponding to the development unit B1 and a component corresponding to the drum unit C1 in the components of the process cartridge P in the aforementioned embodiment are respectively set as the development cartridge B2 and a drum cartridge C. The process cartridge P, the development cartridge B, and the drum cartridge C are different from those of the aforementioned embodiment in terms of being individually detachably attachable to the image forming apparatus main body A1 but have a similar configuration, so that description thereof will be omitted. Functions, materials, shapes, relative positions, or the like of the components described in the aforementioned embodiment do not limit the scope of the disclosure only thereto unless otherwise specified, and may be changed as appropriate within the scope of the disclosure.
An image forming apparatus according to the aforementioned embodiment includes a development cartridge that has, in addition to a developer carrier that carries developer on a surface thereof to convey the developer, a development, blade that regulates the developer carried on the surface of the developer carrier, a toner cartridge that is attached to the development cartridge and supplies the developer to the development cartridge, and an opening and closing member that closes an opening through which the development cartridge and the toner cartridge are inserted, in which the development cartridge and the toner cartridge are individually detachably attachable, and in which the development cartridge includes a development frame which supports the developer carrier and the development blade and is provided with a first grip portion that is able to be gripped when a user inserts the development cartridge in an image forming apparatus main body, the toner cartridge includes a toner frame which contains the developer and is provided with a second grip portion that is able to be gripped when the user inserts the toner cartridge in the development cartridge, and the first grip portion is arranged so as to cover at least a part of the second grip portion as seen from the opening when the toner cartridge is attached to the development cartridge in a state where the development cartridge is attached to the image forming apparatus main body.
Another image forming apparatus according to the aforementioned embodiment includes a process cartridge that has, in addition to an image carrier, a developer carrier that develops an electrostatic latent image formed on a surface of the image carrier, and a development blade that regulates the developer carried on the surface of the developer carrier, a toner cartridge that is attached to the process cartridge and supplies the developer to the process cartridge, and an opening and closing member that closes an opening through which the process cartridge and the toner cartridge are inserted, in which the process cartridge and the toner cartridge are individually detachably attachable, and in which the process cartridge includes a frame which supports, in addition to the image carrier, the developer carrier and the development blade and is provided with a first grip portion that is able to be gripped when a user inserts the process cartridge in an image forming apparatus main body, the toner cartridge includes a toner frame which contains the developer and is provided with a second grip portion that is able to be gripped when the user inserts the toner cartridge in the process cartridge, and the first grip portion is arranged so as to cover at least a part of the second grip portion as seen from the opening when the toner cartridge is attached to the process cartridge in a state where the process cartridge is attached to the image forming apparatus main body.
A cartridge according to the present embodiment is a development cartridge that is detachably attachable to an image forming apparatus, which has, in addition to an opening, an opening and closing member that closes the opening, through the opening separately from a toner cartridge having developer contained in a toner frame, and the development cartridge attached to the image forming apparatus with the toner cartridge attached includes a developer carrier that carries developer on a surface thereof to convey the developer, a development blade that regulates the developer carried on the surface of the developer carrier, and a development frame which supports the developer carrier and the development blade and is provided with a first grip portion that is able to be gripped when a user inserts the development cartridge in an image forming apparatus main body, and the first grip portion is arranged so as to cover at least a part of the second grip portion, which is able to be gripped when a user inserts the toner cartridge in the development cartridge and which is provided in a toner frame, as seen from the opening when the toner cartridge is attached to the development cartridge in a state where the development cartridge is attached to the image forming apparatus main body.
A process cartridge according to the aforementioned embodiment is detachably attachable to an image forming apparatus, which has, in addition to an opening, an opening and closing member that closes the opening, through the opening separately from a toner cartridge having developer contained therein, and the process cartridge attached to the image forming apparatus with the toner cartridge attached includes an image carrier, a developer carrier that develops an electrostatic latent image formed on a surface of the image carrier, a development blade that regulates the developer carried on the surface of the developer carrier, and a frame which supports, in addition to the image carrier, the developer carrier and the development blade and is provided with a first grip portion that is able to be gripped when a user inserts the process cartridge in an image forming apparatus main body, and the first grip portion is arranged so as to cover at least a part of the second grip portion, which is able to be gripped when a user insets the toner cartridge in the process cartridge and which is provided in a toner frame, as seen from the opening when the toner cartridge is attached to the process cartridge in a state where the process cartridge is attached to the image forming apparatus main body.
While the present disclosure has been described with reference to exemplary embodiments, it is to be understood that the disclosure is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2017-142023 filed Jul. 21, 2017 and No. 2017-142024 filed Jul. 21, 2017, which are hereby incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
2017-142023 | Jul 2017 | JP | national |
2017-142024 | Jul 2017 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
7561817 | Sato | Jul 2009 | B2 |
8867966 | Acosta | Oct 2014 | B2 |
Number | Date | Country |
---|---|---|
08-286489 | Nov 1996 | JP |
2006-235472 | Sep 2006 | JP |
5750803 | Jul 2015 | JP |
Number | Date | Country | |
---|---|---|---|
20190025728 A1 | Jan 2019 | US |