The present invention relates to a developing cartridge detachably mounted in an image forming device, and in particular to an electrode in the developing cartridge.
An image forming device for electrophotographically printing an image, in which a process cartridge is detachably mounted, has been proposed in the prior art. The process cartridge includes a developing cartridge and a photosensitive cartridge. The developing cartridge has a developing roller. The developing cartridge is detachably mounted to the photosensitive cartridge, and the photosensitive cartridge has a photosensitive drum.
This developing cartridge includes: a developing roller that carries a developer; a supply roller that supplies the developer to the developing roller; and an electrode component that is electrically connected to rotating shafts of the developing roller and the supply roller.
In the existing developing cartridges, the electrode component is usually integrated at one side end of the developing cartridge in a length direction, so as to realize the electrical connection between the image forming device and the developing roller.
A main objective of the present invention is to provide a developing cartridge, wherein the electrode of the developing cartridge is not necessarily limited to be integrated and designed on one side of the developing cartridge in the length direction, thereby increasing the design freedom of the electrode. The present invention is achieved through the following technical solutions.
Disclosed herein is a developing cartridge, configured to be detachably mounted in an image forming device, comprising: a housing; a developing roller rotatably supported by the housing, the developing roller configured to rotate about an axis extending in a first direction, the developing roller having a developing roller shaft; a supply roller rotatably supported by the housing and configured to convey developer to the developing roller, the supply roller having a supply roller shaft; a driving gear disposed on a driving side of the housing; and an electrode electrically connected to the developing roller shaft and the supply roller shaft, the electrode comprising a first part, a second part, and an intermediate electrical connection part connecting the first part and the second part; wherein the first part is located on an opposite side of the driving side of the housing, the second part is located on the driving side of the housing, and wherein the opposite side of the driving side and the driving side are opposite ends of the housing in the first direction; and the second part is in contact with the supply roller shaft and the developing roller shaft or the supply roller shaft is electrically connected to the developing roller shaft by the second part.
In an aspect, the first part is not in contact with the developing roller shaft on the opposite side of the driving side of the housing, and the second part is in contact with the developing roller shaft on the driving side of the housing.
In an aspect, the supply roller shaft is configured as the intermediate electrical connection part of the electrode, and in the first direction, one end of the supply roller shaft is in contact with the first part, and the other end of the supply roller shaft is in contact with the second part.
In an aspect, the intermediate electrical connection part extends along the first direction from the driving side of the housing to the opposite side of the driving side of the housing, and the intermediate electrical connection part is configured as one conductive metal component.
In an aspect, the developing cartridge further comprises a cover on the opposite side of the driving side of the housing, the cover having an opening, wherein at least a portion of the first part is exposed outside the housing through the opening.
In an aspect, the opening is configured to limit movement of the first part relative to the housing by contact with the first part.
In an aspect, the developing roller is disposed on a front end side in a front-rear direction perpendicular to the first direction, and further comprises an agitator disposed on a rear end side of the developing cartridge in the front-rear direction, and the intermediate electrical connection part is disposed between the developing roller and the agitator.
In an aspect, the developing cartridge further comprises a bearing component disposed on the driving side to support the developing roller shaft, wherein in the first direction, at least a part of the intermediate electrical connection part passes through the bearing component.
In an aspect, the developing cartridge further comprises a detected component to be detected by the image forming device, wherein the first part and the detected component are both located on the opposite side of the driving side of the housing.
In an aspect, a developing roller bearing portion is configured to support the developing roller shaft is provided on the second part.
In an aspect, a supply roller bearing portion is configured to support the supply roller shaft is provided on the second part.
In an aspect, a developing roller bearing portion is configured to support the developing roller shaft and a supply roller bearing portion is configured to support the supply roller shaft are provided on the second part.
In an aspect, the developing cartridge further comprises a chip located on the driving side of the housing and a chip holder configured to support the chip, wherein the chip holder is made of insulating material.
In an aspect, the chip has an exposed electrical contact surface, and the exposed electrical contact surface is spaced apart from the developing roller and the supply roller in the first direction.
In an aspect, the first part is not contact with the developing roller shaft.
Also disclosed herein is a developing cartridge, configured to be detachably mounted in an image forming device, comprising: a housing; a developing roller rotatably supported by the housing, the developing roller configured to rotate about an axis extending in a first direction, the developing roller having a developing roller shaft; a supply roller rotatably supported by the housing and configured to convey developer to the developing roller, the supply roller having a supply roller shaft; a driving gear disposed on a driving side of the housing; and an electrode electrically connected to the developing roller shaft and the supply roller shaft, the electrode comprising a first part, a second part, and an intermediate electrical connection part connecting the first part and the second part; wherein the first part is located on an opposite side of the driving side of the housing, the second part is located on the driving side of the housing, and the opposite side of the driving side and the driving side are opposite ends of the housing in the first direction; wherein the supply roller shaft is electrically connected to the developing roller shaft by the second part.
The embodiments of the present invention will be described in detail below in conjunction with the drawings. It should be understood that specific embodiments described herein are only used to explain the present invention and are not used to limit the present invention.
First, as shown in
As shown in
The driving side 10 of the developing cartridge includes a third electrical connection component 11, a developing roller shaft end portion 2a, a supply roller shaft end portion 6a, and an agitator shaft end portion 7a. The supply roller (not shown in the figures) is used to supply the developer to the developing roller 2, and an agitator is used to stir and convey the developer located in the developer accommodating chamber in the housing 1. Both the developing roller shaft and the supply roller shaft are made of metal material. The developing roller shaft end portion 2a and the supply roller shaft end portion 6a protrude from a side wall of the developer accommodating chamber of the housing 1. The second electrical connection component 30 electrically connects the first electrical connection component 21 and the third electrical connection component 11. It is configured to span the length direction of the housing 1, and has a driving side electrical contact end 30a and a driving side opposite side electrical contact end 30b. The driving side electrical contact end 30a is in electrical contact with the third electrical connection component 11, and the driving side opposite side electrical contact end 30b is in electrical contact with the first electrical connection component 21. The first electrical connection component 21 includes a first electrical contact portion 21a that is in electrical contact with the driving side opposite side electrical contact end 30b, and the third electrical connection component 11 includes a third electrical contact portion 11a that is in electrical contact with the driving side electrical contact end 30a. The first electrical contact portion 21a is in electrical contact with the driving side opposite side electrical contact end 30b at a position on the opposite side 20 of the driving side of the developing cartridge, and the third electrical contact portion 11a is in electrical contact with the driving side electrical contact end 30a at the driving side 10 of the developing cartridge. Preferably, the first electrical connection component 21 also serves as a cover component covering the detected component 9, and the third electrical connection component 11 also serves as a bearing component for supporting the developing roller shaft end portion 2a. Further, the third electrical connection component 11 may also serve as a bearing component for supporting the supply roller shaft end portion 6a. Specifically, the third electrical connection component 11 includes a developing roller bearing portion 11b, which is configured as a circular through hole for supporting the developing roller shaft end portion 2a, and the third electrical connection component 11 also electrically contacts the developing roller shaft end portion 2a through the developing roller bearing portion 11b. Therefore, in this embodiment, the second contact portion of the electrode is disposed on the third electrical connection component 11, and the intermediate electrical connection component includes a first electrical connection component 21, a second electrical connection component 30, a third electrical connection component 11, and a part of the electrical contact component 22 that is connected to the first contact portion. Further, the third electrical connection component 11 may also include a supply roller bearing portion for supporting the supply roller shaft while supplying power to the supply roller to improve the image forming quality. Preferably, both the first electrical connection component 21 and the third electrical connection component 11 are made of conductive resin material. The third electrical connection component 11 serving as a bearing component for supporting the developing roller shaft end portion 2a, may be made of POM conductive resin material with self-lubricating effect. However, it is not limited to this, and may also be made of other conductive materials with rigid structures such as conductive metal. The second electrical connection component 30 is preferably made of metal material, but it is not limited to this.
As shown in
As shown in
As shown in
Embodiment 5 of the present invention will be described below. As shown in
Embodiment 6 of the present invention will be described below. As shown in
The first gear cover 42 is disposed on an outer surface of the first end portion A1 of the developing cartridge, and is covered and mounted on the driving gear 4, the developing roller gear 32, the supply roller gear 35, and the first transmission gear 34. The second gear cover 47 is disposed on an outer surface of the second end portion A2 of the developing cartridge, and is covered and mounted on the second transmission gear 43 and the agitator gear 44.
The developing roller gear 32 is mounted on a developing roller shaft end portion 2a of the first end portion A1 of the developing roller 2. The driving gear 4 is meshed with the developing roller gear 21 to drive the developing roller 2 to rotate together.
The supply roller gear 35 is mounted on a supply roller shaft end portion 6a of the first end portion A1 of the supply roller 6 in the first direction. The driving gear 4 is meshed with the supply roller gear 35 to drive the supply roller 6 to rotate together.
The first transmission gear 34 is mounted on a transmission rod shaft end portion 28a of a first end portion A1 of a transmission rod 28 in the first direction. The driving gear 4 is meshed with the first transmission gear 34 to drive the transmission rod 28 to rotate together. The second transmission gear 43 is mounted on a second end portion A2 of the transmission rod 28 in the first direction, and can be driven by the transmission rod 28 to rotate.
The agitator gear 44 is mounted on an agitator shaft end portion 7a of a second end portion A2 of the agitator 7 in the first direction. The agitator gear 44 is meshed with the second transmission gear 43 at the second end portion A2 to drive the agitator gear 44 to rotate.
A first bearing member 40 and the second bearing member 46 support the developing roller shaft and the supply roller shaft at the first end portion A1 and the second end portion A2 in the first direction, respectively. Further, the first bearing member 40 is made of conductive material, and the second bearing member 46 is made of insulating material. Among them, the second bearing member 46 has a protrusion 46a configured as a cavity, and the developing roller shaft of the second end portion A2 is mounted in the cavity of the protrusion 46a to separate the developing roller shaft from a power receiving component 31 at the second end portion A2.
The developing cartridge further includes the power receiving component 31, which is disposed on a second bearing bracket 46 of the second end portion A2. The power receiving component 31 is made of conductive material, such as conductive resin, metal, etc. One end of the power receiving component 31 may be in electrical contact with a power supply component (not shown) in the image forming device, and an abutting portion 31 at the other end of the power receiving component 31 abuts against an electrode 3001 (described in detail later) in the developing cartridge.
The integrated circuit chip 41 has an electrical contact surface 41a that may be in electrical contact with the power supply component in the image forming device. The electrical contact surface 41a is disposed at the first end portion A1 on the same side as the driving gear 4 in the first direction, and the power receiving component 31 is disposed at the second end portion A2 on the same side as the detected component 9. That is, the electrical contact surface 41a and the power receiving component 31 are disposed on different sides of the developing cartridge in the first direction, and in a second direction perpendicular to the first direction, the developing cartridge has two end portions in the second direction, i.e., a third end portion B1 and a fourth end portion B2. The electrode 3001 is disposed on the third end portion B1 of the developing cartridge in the second direction, and the integrated circuit chip 41 is disposed on the fourth end portion B2 of the developing cartridge in the second direction. That is, the electrode 3001 and the integrated circuit chip 41 are also located on different sides of the developing cartridge in the second direction. Such a design can suppress failures caused by the power received by the power receiving component 31 or the electrode 3001 being transmitted to the integrated circuit chip 41, and can also avoid the problem that the mutual electrical interference affects the image forming quality.
As shown in
Specifically, the first electrical connection component 3001b is disposed at the second end portion A2 of the electrical connection portion 3001, and the first electrical connection component 3001b may abut against an abutting portion 31a of the power receiving component 31 also disposed at the second end portion A2 of the developing cartridge to receive power transmitted from the power supply component in the image forming device. The third electrical connection component 3001a is disposed at the first end portion A1 of the electrical connection portion 3001, and the third electrical connection component 3001a may abut against the developing roller shaft end portion 2a. The second electrical connection component 3001c electrically connects the first electrical connection component 3001b and the third electrical connection component 3001a, so as to transmit power from the first electrical connection component 3001b of the electrical connection portion 3001 to the third electrical connection component 3001a, thereby realizing the electric connection between the image forming device and the developing roller 2. Then, it is further electrically connected to the supply roller shaft end portion 6a mounted on the first bearing member 40 like the developing roller shaft end portion 2a, thereby realizing the electrical connection with the supply roller 6. Further, a first mounting hole 3001e and a second mounting hole 3001d are provided on the first electrical connection component 3001b and the third electrical connection component 3001a, respectively, wherein the first mounting hole 3001e may be fixed to the electrical receiving component 31 also having a mounting hole by a screw, and the developing roller shaft end portion 2a may be mounted in the second mounting hole 3001d to be in contact with the electrical connection portion 3001. Further, the electrode 3001 is made of conductive resin, but the present invention is not limited to this. It may also be made of metal material. Further, the electrical connection portion 3001 is integrally formed, but the present invention is also not limited to this. The electrical connection portion 3001 may also be formed separately. That is, the first electrical connection component 3001b, the second electrical connection component 3001c, and the third electrical connection component 3001a are formed separately, and may be connected and fixed by means of screws, gluing, or the like.
As shown in
As shown in
In order to make the electrical contact surface 41b of the integrated circuit chip 41 as far away as possible from other energized components in the developing cartridge to reduce the interference of signal transmission of the integrated circuit chip 41 by other charged components, the electrical contact surface 41b is disposed as far away as possible from the charged components inside the process cartridge in the extension direction of the axis of the developing roller. Specifically, in the extension direction of the axis of the developing roller, the electrical contact surface 41b is disposed to have an interval with the charged components inside the developing cartridge. The charged components refer to the developing roller, the supply roller, the doctor blade, the electrical transmission component and the like inside the developing cartridge.
Embodiment 9 of the present invention will be described. As shown in
As shown in
In other modified embodiments of the present invention, the agitator shaft inside the developing cartridge may also be made of metal or conductive resin material, and may also serve as an intermediate electrical contact portion connecting the electrical contact component and the developing roller shaft. Summarizing the above embodiments, as long as the first electrical contact portion of the electrode for electrically contacting the electrode with the power supply component of the image forming device and the second electrical contact portion of the electrode for electrically contacting the electrode with the developing roller shaft are disposed on opposites side of the developing cartridge in the length direction through the intermediate electrical connection portion, respectively, the technical effect of the present invention can be achieved, and the design freedom of the electrode is increased by utilizing the design of the electrode spanning both sides of the developing cartridge in the length direction.
The above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them. Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that the technical solutions set forth in the foregoing embodiments can be modified, or some technical features thereof are equivalently replaced, and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.
Number | Date | Country | Kind |
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202021381604.2 | Jul 2020 | CN | national |
202021420422.1 | Jul 2020 | CN | national |
202022820758.3 | Nov 2020 | CN | national |
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Number | Date | Country | |
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20220236688 A1 | Jul 2022 | US |
Number | Date | Country | |
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Parent | PCT/CN2021/106467 | Jul 2021 | US |
Child | 17717224 | US |