This application claims priority from Japanese Patent Application No. 2016-070704 filed on Mar. 31, 2016, the content of which is incorporated herein by reference in its entirety.
Aspects of the disclosure relate to a developer cartridge including a casing and a developer container disposed in the casing.
A known developer cartridge includes a casing and a baglike developer container disposed in the casing. The developer container contains developer. The developer container has an outlet through which the developer flows out of the developer container. The outlet is sealed by a film-like sealing member. The sealing member is fixed to a shaft of an agitator. Rotating the agitator causes the sealing member to be separated from the developer container. This allows the developer to be discharged from the developer container to the casing of the developer cartridge through the outlet.
Some developer may remain in the developer container while most are discharged from the developer container. That means some toner may not be used for printing.
According to the one or more aspects of the disclosure, a developer cartridge may include a developer container, a casing, a sealing member, and a drive input. The developer container may be configured to sealingly contain developer therein. The developer container may have an outlet through which the developer flows out of the developer container. The casing may be configured to accommodate the developer container therein. The casing may support the developer container to allow the developer container to rotate about an axis thereof in a rotating direction. The sealing member may be configured to seal the outlet. The drive input may be configured to transmit rotational driving force to the developer container. The sealing member may be fixed to the casing.
An illustrative embodiment and its modifications according to one or more aspects of the disclosure are described in detail with reference to the accompanying drawings, wherein similar reference numerals may correspond to similar components throughout the various drawings.
As depicted in
The developing roller 5 is rotatably supported by the casing 4 and is disposed adjacent to or in contact with a photosensitive drum 8.
The supply roller 6 is rotatably supported by the casing 4 and is disposed in contact with the developing roller 5. The supply roller 6 is configured to supply the developer to the developing roller 5.
The blade 7 is supported by the casing 4 at one end while contacting the developing roller 5 at the other end. The blade 7 is configured to regulate a thickness of a toner layer on the developing roller 5.
The developer container 2 is rotatably supported by the casing 4. The developer container 2 is configured to rotate about an axis in a particular rotating direction, e.g., clockwise in
As depicted in
The outlet 21 is sealed by a sealing member 22.
As depicted in
The sealing portion 27 is adhered to the developer container 2 by a first adhesive B1 applied to a periphery of the outlet 21, as shown in
The attachment portion 28 has one end continuous to the sealing portion 27 and an opposite end attached, via the second adhesive B2, to a fixing portion 4C of an upper wall of the casing 4. The attachment portion 28 extends downstream from the downstream end portion 27B of the sealing member 22, and then curves to extend upstream above an outer surface of the developer container 2 where the adhesives B1 are applied. Thus, the sealing member 22 is deformed into a “U” shape when adhered to the developing container 2. An outer surface of the sealing portion 27 of the sealing member 22, which is deformed into a “U” shape, faces the outer surface of the developer container 2.
As depicted in
Operations of the developer cartridge 1 in the image forming apparatus are now described.
The sealing member 22 seals the outlet 21 until the developer cartridge 1 is mounted to the image forming apparatus and receives driving force from a motor of the image forming apparatus.
The driving force from the motor to the gear 24 may cause the rotating shaft 23 and the developer container 2 to rotate integrally.
As depicted in
While the developer container 2 rotates, force perpendicular to the outer surface of the developer container 2 may be applied to the sealing portion 27 whereas force tangential to the outer surface may be applied to the attachment portion 28. Accordingly, the sealing portion 27 would be separated first if the first adhesive B1 should have the same adhesive strength as the second adhesive B2.
As depicted in
As depicted in
The toner T discharged into the developer chamber 3 may be supplied to the supply roller 6. Then, the toner T may be supplied from the rotating supply roller 6 to the developing roller 5, which is in contact with the supply roller 6. The blade 7 regulates the toner T on the developing roller 5 to form a thin toner layer on the developing roller 5. Then, the thin-layered toner T may be supplied to the photosensitive drum 8.
After the sealing member 22 (e.g., the sealing portion 27) has been completely separated from the developer container 2, the developer container 2 may continue rotating, with the outlet 21 exposed. This configuration may allow the toner T in the developer container 2 to be supplied to the casing 4 for image formation as the toner T in the casing 4 is supplied to the supply roller 6.
The illustrative embodiment may yield the following effects.
Rotation of the developer container 2 may cause the sealing member 22 to be separated from the developer container 2, resulting in the outlet 21 exposed. The toner T in the developer container 2 may flow into the developer chamber 3, through the outlet 21. Before the developer cartridge 1 is used, the outlet 21 of the developer container 2 containing the toner T may be kept sealed. When the developer cartridge 1 is used, the toner T may be discharged from the developer container 2.
This configuration avoids a user's operation of removing the sealing member 22 from the developer container 2, and accordingly avoids user's operational errors, otherwise the developer cartridge 1 would be soiled with the toner T. In addition, the outlet 21 of the developer container 2 containing the toner T may be kept sealed until the developer cartridge 1 is about to be used. This may avoid the toner T losing its quality such that the toner T may be usable for longer term.
As the developer container 2 may continue rotating after the outlet 21 is exposed, the toner T in the developer container 2 may be continuously and efficiently discharged to the casing 4. This configuration may eliminate or reduce the toner T remaining in the developer container 2.
The outlet 21 has a rectangular shape elongated along the rotating shaft 23. The outlet 21 extends from one side wall 25 to the other side wall 25 of the developing container 2. This configuration may eliminate or reduce the toner T remaining at corners of the developer container 2 which are defined by ends of the outlet 21 and the side walls 25.
The sealing portion 27 of the sealing member 22 may be gradually separated from the developer container 2, from a side closer to the downstream end portion 27B, which is provided at a downstream end portion of the sealing portion 27 in the rotating direction. Because the sealing portion 27 may not be entirely separated from the developer container 2 at one moment, force to separate the sealing portion 27 may be relatively reduced, which may lead to reduced torque necessary to drive the developer container 2.
Further, a portion of the sealing member 22 separated from the developer container 2 may adhere to the inner wall of the casing 4. Accordingly, the sealing member 22 may not be an obstruction when the toner T in the developer chamber 3 is agitated and supplied.
The developer container 2 has a circular shape when viewed along the axis of the developer container 2. Such shape may allow the developer container 2 to smoothly rotate, and to effectively use the space in the casing 4 when rotating. In addition, the developer container 2 has the radius R1 equal to or greater than two-thirds of the shortest distance D1 from the axis of the developer container 2 to the inner wall surface of the casing 4. This configuration may provide a greater space to the developer container 2 for containing the toner T.
The developer container 2 is made of alumina that includes moisture-proof characteristics. Such moisture-proof material may extend life of the toner T, and may allow the developer container 2 to be refilled with new toner.
While the disclosure is described in detail with reference to specific embodiments thereof, this is merely an example, and various changes, arrangements and modifications may be applied therein without departing from the spirit and scope of the disclosure. Modifications to the illustrative embodiment are described below.
In the illustrative embodiment, the developer container 2 has a circular shape when viewed along the axis of the developer container 2. In one modification, a developer container may have, for example, a polygonal shape, when viewed along an axis thereof.
For example, as depicted in
The developer container according to the illustrative embodiment or the modification may contain silica gel. For example, as depicted in
The developer container according to the illustrative embodiment or the first or second modification may include an agitating member disposed within a developer cartridge but outside a developer container.
For example, as depicted in
As depicted in
In the illustrative embodiment and the modifications, the developer container includes aluminum material. In another embodiment, a developer container may include, for example, other metallic material or resin materials. The resin materials may include, for example, polyethylene terephthalate (“PET”), polyethylene (“PE”), polypropylene (“PP”), polycarbonate (“PC”), acrylonitrile-butadiene-styrene (“ABS”) resin, and acrylic resin. Those resin materials may reduce cost for manufacturing the developer container. Further, the resin materials may reduce a weight of the developer container, which, in turn, may reduce driving force to rotate the developer container.
In the illustrative embodiment and the modifications, the sealing member is adhered to the casing and the developer container with adhesive. In another embodiment, for example, the sealing member may be attached to the casing or the developer container by glue or thermos-compression bonding.
In the illustrative embodiment and the modifications, the developer container has a radius equal to or greater than two-thirds of the shortest distance from the axis of the developer container to the inner wall surface of the casing. In another embodiment, the radius may be shorter than two-thirds of the shortest distance from the axis of the developer container to the inner wall surface of the casing.
In the illustrative embodiment and the modifications, the sealing member is a sheet-like member having resilient restoring force. In another embodiment, the sealing member may be, for example, a sheet-like member having no resilient restoring force.
In the illustrative embodiment and the modifications, the developer cartridge includes the developer roller, the supply roller, and the blade. In another embodiment, the developer cartridge may not necessarily include those rollers and the blade.
Number | Date | Country | Kind |
---|---|---|---|
2016-070704 | Mar 2016 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5261568 | Corby | Nov 1993 | A |
5579101 | Omata | Nov 1996 | A |
5729797 | Okada | Mar 1998 | A |
7123855 | Yuan | Oct 2006 | B2 |
9063464 | Furutani et al. | Jun 2015 | B2 |
20130336679 | Furutani et al. | Dec 2013 | A1 |
20140376955 | Takeuchi | Dec 2014 | A1 |
Number | Date | Country |
---|---|---|
58017465 | Feb 1983 | JP |
63239475 | Oct 1988 | JP |
63294582 | Dec 1988 | JP |
08146740 | Jun 1996 | JP |
2014-016592 | Jan 2014 | JP |
Number | Date | Country | |
---|---|---|---|
20170285532 A1 | Oct 2017 | US |