Patent Grant
9977369
Field of the Invention
The present invention relates to a developer conveying apparatus capable of conveying and providing developer with a simple configuration.
Description of the Related Art
In the past, in a case where a developer is used and consumed in an electrophotographic image forming apparatus, a developer replenish method for replenishing new developer is used. A method for replenishing developer (toner) by exchanging a developer replenish container such as a toner bottle that is detachably attachable to an electrophotographic image forming apparatus is used as a developer replenish method. A toner replenished from the developer replenish container is conveyed in a developing apparatus.
For example, Japanese Patent Laid-Open No. H8-30084 describes a developer conveying apparatus in which two agitation and conveying members attached with spiral members around the rotation axes are arranged side by side so as not to accumulate, in an uneven manner in the developing apparatus, a toner that is not consumed and is degraded and accordingly has a low level of charging amount, and a circulation path for the developer is formed over the entire width of the developing apparatus.
Japanese Patent Laid-Open No. 2010-32754 describes a developer conveying apparatus that always maintains, at a regular direction, a deformation direction of a tongue shape formed on a rotation agitation vane of an agitation member conveying toner in a toner containing portion to a toner providing portion.
However, the developer conveying apparatus described in Japanese Patent Laid-Open No. H8-30084 is provided with the two spiral rotation members, and therefore, it is necessary to provide a structure for driving rotation of each of them, and there is a problem in that this results in a more complicated, larger, and higher-cost apparatus.
The developer conveying apparatus described in Japanese Patent Laid-Open No. 2010-32754 agitates and conveys the toner remaining in the container inner end portion by gathering the remaining toner to the container central portion, but the developer conveying apparatus described in Japanese Patent Laid-Open No. 2010-32754 is unable to agitate and convey the toner from the container central portion to the container end portion side, and therefore, there is a problem in that the agitation and conveying are insufficient, and which makes it impossible to obtain an image without unevenness in the lightness and darkness.
According to the present invention, there is provided a developer conveying apparatus for conveying a developer that develops an electrostatic latent image, and the developer conveying apparatus includes a rotation unit which rotates around a rotation shaft parallel to a developer conveying direction, a first developer conveying portion which is provided in the rotation unit and which conveys the developer in an axial direction of the rotation shaft, and a second developer conveying portion which is provided in the rotation unit at a position where a distance from the rotation shaft is different from that of the first developer conveying portion, and which conveys the developer in a direction opposite to that of the first developer conveying portion.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
The developing apparatus 1 is a developing apparatus used for an image forming apparatus such as a copy machine, a printer, or a facsimile employing an electrophotographic method and the like. The developer container 2 serving as a developer containing portion includes a developing roller 3 serving as a developer bearing member carrying a developer for visualizing an electrostatic latent image formed on a photosensitive drum surface serving as an image bearing member, not shown. The developing apparatus 1 includes a developing blade 4 for charging the toner 8 serving as the developer and limiting the toner layer formed on the surface of the developing roller 3 and a toner conveying member 5 for providing the toner 8 to the developing roller 3. Further, as a member for agitating and conveying the developer in the developer containing portion, the developer container 2 is provided with a developer conveying apparatus 6 for agitating, providing, and conveying the toner 8 to the toner conveying member 5.
The toner bottle 7 is a developer replenish container that is detachably attachable to the developer container 2, and the magnetic single component toner 8 is accommodated in the developer replenish container, and the toner bottle 7 has a toner replenishing port 9 which is an opening through which the toner 8 is replenished to the developer container 2. The toner bottle 7 includes an agitation member 10 capable of rotating therein. The agitation member 10 provides the toner 8 in the toner bottle 7 via the toner replenishing port 9 to the developer container 2. The provided toner 8 is guided to a facing area 11 facing the toner replenishing port 9 in the developer conveying apparatus 6.
The developer conveying apparatus 6 includes a rotation shaft 12 extending along the same direction as the rotation shaft direction of the developing roller 3, and a rotation unit 14 including a conveying surface 13 having a side in a direction perpendicular to the rotation shaft 12 and a side in the axial direction of the rotation shaft 12. The rotation unit 14 is constituted by a sheet or a plate-like thin plate having flexibility, and is provided to be able to rotate about the rotation shaft 12 in the developer container 2 serving as the developer containing portion.
Below the rotation shaft 12 of the developer conveying apparatus 6, the developer container 2 accumulates the toner 8 conveyed from the toner replenishing port 9 to the toner conveying member 5. It should be noted that the conveying surface 13 of the rotation unit 14 is provided with multiple developer conveying units rotating about the rotation shaft 12 from the toner replenishing port 9 via the lower side of the inside of the developer container 2 to the toner conveying member 5, thereby conveying and moving the toner along the axial direction of the rotation shaft 12. The developer conveying unit includes a first developer conveying portion 15 provided on the conveying surface 13 and extending along the axial direction of the rotation shaft 12 and a second developer conveying portion 16 provided on the rotation unit 14 at a position of which distance from the rotation shaft 12 is different from that of the first developer conveying portion 15. The first developer conveying portion 15 is provided together at the side of the rotation end in the rotation radius direction of the rotation shaft 12 with respect to the second developer conveying portion 16.
In this case, the conveying direction of the toner 8 with the first developer conveying portion 15 and the conveying direction of the toner 8 with the second developer conveying portion 16 are configured to be opposite from each other with respect to the axial direction of the rotation shaft 12. The developer conveying portions 15, 16 of which conveying direction are in the directions opposite to each other form the toner conveying paths on the surface of the conveying surface 13 according to the rotation of the developer conveying apparatus 6. The toner 8 conveyed to one end side in the axial direction of the rotation shaft 12 by the first developer conveying portion 15 along the surface of the conveying surface 13 is then conveyed so as to circulate toward the end portion side at the opposite side by the second developer conveying portion 16.
Therefore, the toner 8 can be agitated so as to prevent the toner 8 from being accumulated at the end portion of the developer container 2 and uniformize the toner 8.
On the first developer conveying portion 15 and the second developer conveying portion 16, multiple opening portions 17 in a predetermined shape described below are arranged in rows on the developer conveying surface 13 of the rotation unit.
The opening portion 17 has such a shape that the size of the opening (opening width) becomes larger in a direction perpendicular to the toner conveying direction along the axial direction. When the conveying surface 13 rotates about the axis of the rotation shaft 12, and the toner 8 pushed and moved by the conveying surface 13 passes through the opening portion 17 from the front side to the back side of the conveying surface 13 (the forward side to the backward side in the rotation direction), the toner 8 moves from the side where the opening width of the opening portion 17 is smaller to the side where the opening width of the opening portion 17 is larger. With this movement of the toner 8, the toner conveying operation is performed in the predetermined direction. This is because the toner 8 is pushed and moved by the conveying surface 13 in a direction in which the pressure given by the toner 8 to the rotating conveying surface 13 decreases, and more specifically, the toner 8 is pushed and moved by the conveying surface 13 in a direction in which the opening width becomes larger, so that the toner conveying operation is performed in the predetermined direction as described above.
The opening portion 17 is in such a shape that the vertex of the triangle is in a direction opposite to the direction in which the toner 8 is conveyed so that the opening width increases so as to reduce the pressure of the toner 8 received by the conveying surface 13. Therefore, the direction of the vertexes of the triangles of the multiple opening portions 17 of the first developer conveying portion 15 and the direction of the vertexes of the triangles of the multiple opening portions 17 of the second developer conveying portion 16 are in a relationship opposite to each other.
The shapes of the opening portions 17 formed in the conveying surface 13 of the rotation unit 14 may be in such a shape to cause the toner 8 to move as described above in accordance with the rotation of the developer conveying apparatus 6 in the developer container 2, and in this case, an example where the shape of the opening portion 17 is a trapezoid will be described. This opening portion 17 arranges the trapezoid shape in the conveying surface 13 so that the size of the opening (opening width) becomes larger in the direction in which the toner 8 is to be conveyed. More specifically, the opening portions 17 in the trapezoid shape are provided, in place of the triangle opening portions 17 of the two developer conveying portions 15, 16 of
In the initial state in which the toner 8 is replenished from the toner replenishing port 9 of the toner bottle 7 to the facing area 11 of the conveying surface 13, the developer conveying apparatus 6 rotates so as to convey and provide, with the rotation end side in the rotation radius direction of the conveying surface 13 of the rotation unit 14, the toner 8 to the toner conveying member 5. At this occasion, the first developer conveying portion 15 also conveys the toner 8 in a direction along the axial direction of the rotation shaft 12 of the developer conveying apparatus 6. In this case, the axial direction of the rotation shaft 12 of the developer conveying apparatus 6 is also a direction along the longitudinal direction of the developer container 2. The longitudinal direction of the developer container 2 is also a direction along the rotation shaft direction of the developing roller 3.
When the toner 8 is replenished from the toner replenishing port 9 to the facing area 11, and there is an increase in the amount of the toner in the area where there exists the facing area 11, the developer conveying apparatus 6 rotating in the developer container 2 conveys the toner 8 in the facing area 11 to the toner conveying member 5. Together with this, the toner 8 is moved by the first developer conveying portion 15 and the second developer conveying portion 16 along the longitudinal direction of the developer container 2 in the conveying direction of each of the developer conveying portions 15, 16. When the toner 8 is moved and conveyed by these two developer conveying portions 15, 16, the toner 8 in the developer container 2 is sufficiently agitated, and it is confirmed that the uniformity state along the longitudinal direction of the developer container 2 is more uniformized than the state of a developer container available until then.
Subsequently, another example of a configuration formed with the conveying surface 13 of the rotation unit 14 for achieving conveying of the toner 8 along the axial direction of the rotation shaft 12 will be described.
The two developer conveying portions 15, 16 are formed with tongue-shaped cut portions 18 that are formed with openings bent to the backward side in the rotation direction in which the developer conveying apparatus 6 rotates about the rotation shaft 12 in a direction in which the toner 8 is to be conveyed (
The opening formed in the cut portion 18 may be in a C-shape shape, a triangular shape, or may be in a trapezoid shape (
In the case of the triangular shape cutting, the cutting is formed from the base of the triangle toward the vertex side so as to allow the cut portion 18 to be bent easily by the pressure of the toner 8, whereby the toner 8 is conveyed in that direction.
In the case of the trapezoid shape cutting, a cutting is formed from the lower base side to the upper base side due to the same reason, and accordingly, the toner 8 is conveyed in that direction. The trapezoid shape has a larger number of sides than the case of the triangular shape, and therefore, the size of the opening (opening width) in a direction perpendicular to the toner conveying direction can be easily adjusted, so that the amount of toner conveyed can be easily adjusted.
In the above embodiment, each of the opening portion 17 and the cut portion 18 formed in the two developer conveying portions 15, 16 is made to have substantially the same size, so that the conveying force is configured to be about the same level. However, the amount of toner 8 conveyed can be set to any amount by appropriately selecting the size of each portion such as the sides of the shape of the opening portion 17, or the cut direction of the cut portion 18 and the size of each portion of the shape.
In this case, the first developer conveying portion 15 and the second developer conveying portion 16 are configured so that the direction in which the developer is conveyed is inverted in such a manner that the facing area 11 of the conveying surface 13 of the rotation unit 14, which faces the toner replenishing port 9, is the border.
The first developer conveying portion 15 conveys the developer from the facing area 11 that faces the toner replenishing port 9 toward the end portion in the axial direction of the rotation shaft 12, and the second developer conveying portion 16 arranged on the rotation unit 14 at a position of which distance from the rotation shaft 12 is different from the first developer conveying portion 15 conveys the developer from the end portion in the axial direction of the rotation shaft 12 toward the facing area 11.
The first developer conveying portion 15 and the second developer conveying portion 16 are provided so that the new toner 8 replenished from the toner bottle 7 to the facing area 11 is conveyed from the facing area 11 to both end sides in the axial direction of the rotation shaft 12 of the developer conveying apparatus 6, and thereafter returned back to the facing area 11.
The conveying surface 13 of the rotation unit 14 of the developer conveying apparatus 6 is formed with the opening portions 17 and the cut portions 18 in such a shape that the first developer conveying portion 15 conveys the toner 8 to both end sides of the axial direction of the rotation shaft 12 in such a manner that the facing area 11, which faces the toner replenishing port 9, is the border. Further, the conveying surface 13 at the side of the rotation shaft 12 of the first developer conveying portion 15 (at the side of the rotation center) is formed with the opening portions 17 and the cut portions 18 in such a shape that the second developer conveying portion 16 returns the toner 8, which has been conveyed to the end portion by the first developer conveying portion 15, back to the facing area 11.
According to this configuration, the circulation path is changed to the half, and therefore, the toner 8 provided from the toner replenishing port 9 by the second developer conveying portion 16 can be conveyed to the both end sides in the axial direction of the rotation shaft 12 in a short time, and the first developer conveying portion 15 can convey the toner 8 to the center side in the axial direction of the rotation shaft 12 in a short time. For this reason, the toner 8 in the developer container 2 can be agitated in a shorter time, and further, the toner 8 can be conveyed so as to be expanded to all of the inside of the developer container 2 without accumulating the toner 8 at the end portion of the developer container 2. In particular, the toner 8 can be expanded and conveyed to all the inside of the developer container 2 without accumulating the toner 8 at the rotation end side of the rotation unit 14, and the toner 8 in the developer container 2 can be uniformized.
As shown in
In this case, a difference is generated between the amount of toner conveyed in the axial direction of the rotation shaft 12 by the first developer conveying portion 15 and the amount of toner conveyed in the axial direction of the rotation shaft 12 by the second developer conveying portion 16. More specifically, the amount of toner conveyed to the developing roller 3 by the rotation of the rotation unit 14 is larger in the area of the conveying surface 13 where the first developer conveying portion 15 is provided than in the area of the conveying surface 13 where the second developer conveying portion 16 is provided.
It should be noted that the developer conveying apparatus 6 can be applied to the present embodiment even with two developer conveying portions 15, 16 of various forms according to the first embodiment and the second embodiment. For example, not only the shape as shown in
The size of the opening portion 17 or the cut portion 18 of the first developer conveying portion 15 according to the present embodiment is smaller than the opening portion 17 or the cut portion 18 of the second developer conveying unit portion. According to this configuration, the amount of toner conveyed in the axial direction of the rotation shaft 12 by the first developer conveying portion 15 is smaller than the amount of toner conveyed in the axial direction by the second developer conveying portion 16. More specifically, the amount of the toner 8 that passes through the opening portion 17 or the cut portion 18 of the first developer conveying portion 15 and passes from the front side to the back side of the conveying surface 13 is smaller than the second developer conveying portion 16.
According to this configuration, while the toner 8 in the developer container 2 is sufficiently agitated, the amount of the toner 8 conveyed in the direction of the toner conveying member 5 and the developing roller 3 which is a direction perpendicular to the rotation shaft 12 is larger at the rotation end side in the rotation radius direction of the rotation shaft 12 of the rotation unit 14 of the developer conveying apparatus 6 than at a side closer to the rotation shaft 12 of the rotation unit 14 of the developer conveying apparatus 6. For this reason, the toner 8 can be easily and stably provided to the developing roller 3.
In this case, the amount of the developer conveyed in the axial direction of the rotation shaft by the developer conveying portions 15, 16 is such that, on the conveying surface 13, around the end portion in the axial direction, the amount of the developer conveyed from the axial direction central portion to the end portion is configured to be smaller than the amount of the developer conveyed from the end portion to the central portion.
It should be noted that, except around the end portion, the developer conveying apparatus 6 may be the same one as the two developer conveying portions 15, 16 according to various forms according to the first embodiment, the second embodiment, and the third embodiment.
In addition to these various forms, further, the present embodiment employs a configuration in which the amounts of toners conveyed at the end portion in the axial direction of the rotation shaft 12 of the two developer conveying portions 15, 16 are configured to be different between both of the developer conveying units. This is an effect that is obtained by using the fact that the amount of toner conveyed increases when the size of the opening portion 17 and the cut portion 18 is increased, or the amount of toner conveyed decreases when the size of the opening portion 17 and the cut portion 18 is decreased.
In the configuration of
In the configuration of
Further, by combining the configuration of
As shown in
As shown in
According to such configuration, a difference can also be generated in the amount of toner conveyed in the conveying direction of each of the two developer conveying portions 15, 16 in the axial direction end portion areas of the conveying surface 13. Accordingly, like the configuration of
The opening portion 17 as shown in
By combining the configuration of the two developer conveying portions 15, 16 according to the third embodiment of the present embodiment, it is possible to avoid accumulation of the toner 8 in the end portions in the developer container 2 according to the third embodiment.
In each of the above embodiments, the developer conveying apparatus 6 is provided with a single rotation unit 14, but multiple rotation units 14 may be arranged around the rotation shaft so as not to overlap in the rotation direction of the rotation shaft 12.
As compared with an apparatus having a configuration according to a conventional example, a sufficient agitation state of the toner 8 which is the effect obtained in each of the above embodiments results in a smaller change in the reflection lightness and darkness between the axial direction central portion and the end portions on an image on a sheet on which the image has been formed, so that it is confirmed that this can prevent unevenness in the lightness and the darkness because of the uniform agitation.
In this case, in order to improve the agitation efficiency with the developer conveying apparatus 6, the toner replenishing port 9 is provided as the replenish unit at a predetermined height, and the agent surface height 19 of the toner 8 accommodated in the developer container 2 which is a developer containing portion is adjusted to be the predetermined height.
In the first embodiment to the fourth embodiment described above, as shown in
On the other hand, as shown in
Therefore, when the sheet member 14 is in the substantially vertical direction, the agent surface height 19 of the toner 8 in the developer container 2 is set to be equal to or more than the proximity to the upper end in the gravity direction of the second developer conveying portion 16 and equal to or less than the proximity to the rotation shaft 12 of the developer conveying apparatus 6 (hereinafter referred to as optimum position), so that this can prevent the above problem from occurring, and the agitation efficiency with the developer conveying apparatus 6 can be improved. It should be noted that the time when “sheet member 14 is in the substantially vertical direction” means a time when the sheet member 14 is below the horizontal surface and is in the substantially vertical direction.
Therefore, in the present embodiment, the toner replenishing port 9 is provided so that, when the sheet member 14 is in the substantially vertical direction, the height of the lower end of the toner replenishing port 9 is a height equal to or more than the proximity to the gravity direction upper end of the second developer conveying portion 16 and equal to or less than the proximity to the rotation shaft 12 of the developer conveying apparatus 6. Therefore, the agent surface height 19 of the toner 8 in the developer container 2 can be the optimum position.
Hereinafter, a relationship of the height of the toner replenishing port 9 and the agent surface height 19 of the toner 8 in the developer container 2 will be described. As shown in
As shown in
On the other hand, as shown in
Therefore, the relationships of G1>G2, F12≈F2, f1<f2 are satisfied with the height of the toner replenishing port 9. Therefore, the relationship between the height of the toner replenishing port 9 and the amount of toner 8 fed from the toner bottle 7 to the developer container 2 is a substantially proportional relationship as shown in
Therefore, by adjusting the height of the replenishing port in view of this relationship, the agent surface height 19 of the toner 8 in the developer container 2 can be adjusted. More specifically, the toner replenishing port 9 is provided so that, when the sheet member 14 is in a substantially vertical direction, the height of the lower end of the toner replenishing port 9 is a height equal to or more than the proximity to the gravity direction upper end of the second developer conveying portion 16 and equal to or less than the proximity to the rotation shaft 12 of the developer conveying apparatus 6, and therefore, the agent surface height 19 of the toner 8 in the developer container 2 can be set to the optimum position.
For the height of the lower end of the toner replenishing port 9, the height of the proximity to the gravity direction upper end of the second developer conveying portion 16 includes a case where the lower end of the toner replenishing port 9 is provided at a height which is lower, by about ten percent of the entire length in the gravity direction of the opening portion 17, from the gravity direction upper end of the second developer conveying portion 16 to the lower side in the gravity direction when the sheet member 14 is in the substantially vertical direction. This is because the same effects can be obtained even if the position is not exactly the upper end position of the second developer conveying portion 16 but is a position somewhat lower than that and lower by about ten percent of the entire length thereof.
For the height of the lower end of the toner replenishing port 9, the height equal to or less than the proximity to the rotation shaft 12 of the developer conveying apparatus 6 includes a case where the lower end of the toner replenishing port 9 is provided at a height higher, by about ten percent of the entire length in the gravity direction of the conveying surface 13, from the height of the rotation shaft 12 to the upper side in the gravity direction. This is the same as what has been described above, and this is because the same effects can be obtained even if the position is not exactly the height position of the rotation shaft 12 but is a position somewhat higher than that and higher by about ten percent of the entire length thereof.
In the present embodiment, the agent surface height 19 of the toner 8 in the developer container 2 is adjusted to be within the optimum position in accordance with the height position of the lower end of the toner replenishing port 9 as the replenish unit. A toner sensor which is a detection unit provided in the developing apparatus, for example, a magnetic permeability sensor, may detect the agent surface height 19 of the toner 8 in the developer container 2, and may be configured to adjust the agent surface height 19 to within the optimum position on the basis of the detection result.
For example, a magnetic bridge sensor which is a magnetic permeability sensor provides a different output depending on whether there is a magnetic body or there is not any magnetic body in front of the detection head. The highest output voltage is given when the maximum toner 8 is filled in the developer container 2, and the lowest output voltage is given when the toner remaining amount is vacant. Therefore, by performing control so as to obtain a predetermined toner remaining amount on the basis of the output voltage according to the remaining amount of the toner 8, the agent surface height 19 of the toner 8 in the developer container 2 can be set to the optimum position.
A rotation unit 14 includes developer conveying portions 15, 16 conveying a toner 8 to an axial direction of a rotation shaft 12 from a rotation center to a rotation end in the rotation radius direction. In a case where there is a single rotation unit 14, the load is applied to the same portion in the axial direction at a time, but when this is made into multiple rotation units (sheet members), the load distribution can be attained.
Two rotation units, i.e., a first rotation unit 141 serving as a first agitation and conveying member and a second rotation unit 142 serving as a second agitation and conveying member, are provided as the rotation units 14 by giving different rotation angles around the rotation shaft 12 with respect to the rotation shaft 12. When multiple rotation units 14 are arranged with the same rotation angle difference around the rotation shaft 12, the load in the rotation direction can be more uniformly distributed.
Further, the first rotation unit 141 and the second rotation unit 142 are arranged on the rotation shaft 12 in such a manner that the first rotation unit 141 and the second rotation unit 142 are shifted in the axial direction of the rotation shaft 12 in such a position relationship that the first rotation unit 141 and the second rotation unit 142 do not overlap each other with respect to the rotation direction of the rotation shaft. The two rotation units 141, 142 are arranged so that the ends of the two rotation units 141, 142 at the center side in the axial direction are arranged facing the toner replenishing port 9.
The developer container 2 accumulates the toner 8, which is to be conveyed from the toner replenishing port 9 to the toner conveying member 5, below the rotation shaft 12 of the developer conveying apparatus 6. The conveying surface 13 of each of the rotation units 141, 142 is provided with multiple developer conveying units for conveying and moving the toner along the axial direction of the rotation shaft 12 by moving around the rotation shaft 12 from the toner replenishing port 9 by way of the lower side in the inside of the developer container 2 to the toner conveying member 5.
For these multiple developer conveying units, the first developer conveying portion 15 and the second developer conveying portion 16 are formed in the conveying surface 13 of each of the first rotation unit 141 and the second rotation unit 142 to extend along the axial direction of the rotation shaft 12. The first developer conveying portion 15 of each of the two rotation units 141, 142 is provided together at the side of the rotation end in the rotation radius direction of the rotation shaft 12 with respect to the second developer conveying portion 16.
The first developer conveying portion 15 and the second developer conveying portion 16 are each provided with multiple opening portions 17, in a predetermined shape described later, arranged in a row on the developer conveying surface 13 of the sheet member 14. Accordingly, the conveying direction of the toner 8 with the first developer conveying portion 15 and the conveying direction of the toner 8 with the second developer conveying portion 16 are configured to be opposite directions to each other with respect to the axial direction of the rotation shaft 12.
The opening portion 17 has such a shape that the size of the opening (opening width) becomes larger in a direction perpendicular to the toner conveying direction along the axial direction. When the conveying surface 13 rotates about the axis of the rotation shaft 12, and the toner 8 pushed and moved by the conveying surface 13 passes through the opening portion 17 from the front side to the back side of the conveying surface 13 (the forward side to the backward side in the rotation direction), the toner 8 moves from the side where the opening width of the opening portion 17 is smaller to the side where the opening width of the opening portion 17 is larger. With this movement of the toner 8, the toner conveying operation is performed in the predetermined direction. As described above, the toner 8 is pushed and moved by the conveying surface 13 in a direction in which the pressure given by the toner 8 to the rotating conveying surface 13 decreases, and more specifically, the toner 8 is pushed and moved by the conveying surface 13 in a direction in which the opening width becomes larger, so that the toner conveying operation is performed in the predetermined direction.
The opening portion 17 is in such a shape that the vertex of the triangle is in a direction opposite to the direction in which the toner 8 is conveyed so that the opening width increases so as to reduce the pressure of the toner 8 received by the conveying surface 13. Therefore, the direction of the vertexes of the triangles of the multiple opening portions 17 of the first developer conveying portion 15 of each of the rotation units 141, 142 and the direction of the vertexes of the triangles of the multiple opening portions 17 of the second developer conveying portion 16 are in a relationship opposite to each other.
Further, the opening portions 17 of the first developer conveying portion 15 of the first rotation unit 141 and the opening portions 17 of the first developer conveying portion 15 of the second rotation unit 142 are in the same direction with respect to the axial direction of the rotation shaft 12. Likewise, the opening portions 17 of the second developer conveying portion 16 of the first rotation unit 141 and the opening portions 17 of the second developer conveying portion 16 of the second rotation unit 142 are in the same direction with respect to the axial direction of the rotation shaft 12.
According to the configuration of
First, the toner 8 conveyed to one end side in the axial direction of the rotation shaft 12 by the first developer conveying portion 15 along the surface of the conveying surface 13 of the first rotation unit 141 is conveyed to a center side in the axial direction of the second developer conveying portion 16 of the first rotation unit 141 that rotates and comes subsequently. Then, the toner 8 is conveyed to the end side in the axial direction by the second developer conveying portion 16 of the second rotation unit 142 that rotates and comes subsequently. Subsequently, the toner 8 is conveyed again to the center side in the axial direction by the first developer conveying portion 15 of the second rotation unit 142 that rotates and comes subsequently.
According to this configuration, while reducing damage to the agitation and conveying member, the toner 8 can be agitated in a uniformized manner while preventing accumulation of the toner 8 at the end portion of the developer container 2.
In this case, in the opening portions 17 of the first developer conveying portion 15 of the first rotation unit 141 and the opening portions 17 of the first developer conveying portion 15 of the second rotation unit 142, the opening shapes of the triangles are directions opposite to each other with respect to the axial direction of the rotation shaft 12. The vertex of the triangular shape of each opening faces the center side with respect to the axial direction. Likewise, in the opening portions 17 of the second developer conveying portion 16 of the first rotation unit 141 and the opening portions 17 of the second developer conveying portion 16 of the second rotation unit 142, the opening shapes of the triangles are directions opposite to each other with respect to the axial direction of the rotation shaft 12. The vertex of the triangular shape of each opening faces the end sides with respect to the axial direction.
According to the configuration of
According to the configuration of
According to this configuration, while reducing damage to the agitation and conveying member, the toner 8 can be agitated in a uniformized manner between the central portion and the end portions of the developer container 2.
In this case, in addition to the configuration of the seventh embodiment, further, toner agitation areas of two rotation units 141, 142 of a developer conveying apparatus 6 are configured to be formed to partially overlap with respect to the rotation direction of the rotation units 141, 142. This configuration enables toner conveying operation in which the toner 8 conveyed in the axial direction of the rotation shaft 12 by the first rotation unit 141 is passed to the second rotation unit 142 via the partially overlapping area.
In the configurations according to the sixth and seventh embodiments, when the amount of the toner in the developer container 2 decreases, or when continuously printing images in which there is a difference in the lightness and darkness in the longitudinal direction of the developer container 2 (in the axial direction of the rotation shaft 12 of the developer conveying apparatus 6), it is difficult to maintain the state of the toner 8 in a uniform manner in the axial direction.
For example, in the configuration according to the sixth embodiment, when the remaining amount of the toner 8 decreases, the conveying directions of the first developer conveying units 15 of the two rotation units 141, 142 are the same, and therefore, the toner 8 in the developer container 2 is likely to be accumulated in a deviated manner at the end sides of the second rotation unit.
In the configuration according to the seventh embodiment, when continuously printing images in which there is a difference in the lightness and darkness in the axial direction of the rotation shaft 12, there occurs the difference in the lightness and darkness of the printed images due to degradation of the toner 8. This is because, for example, when continuously printing images of a high degree of lightness and darkness at the side of the second rotation unit 142, the toner 8 is actively consumed at the side of the second rotation unit 142, and therefore, the toner 8 at the side of the first rotation unit 141 is less likely to be consumed, and is accumulated in the developer container 2. For this reason, the degradation of the toner 8 at the side of the first rotation unit 141 is accelerated, and as a result, the lightness and darkness in the image is reduced.
In order to avoid such reduction in the lightness and darkness of the image, it is necessary to have a developer conveying apparatus 6 that can uniformize the state of the toner 8 in the longitudinal direction even when continuously printing images in which there is a difference in the lightness and darkness in the longitudinal direction or when the amount of the toner 8 decreases as described above.
Therefore, in the present embodiment, first, the toner 8 is conveyed by the first developer conveying portion 15 of each of the two rotation units 141, 142 to the end sides in the axial direction of the rotation unit of each of them, and is conveyed by the second developer conveying portion 16 of each of them to return back to the center side. At this occasion, at least between adjacent rotation units of the multiple rotation units 14, parts of the agitation areas for the developer of both of the rotation units 14 are configured to overlap each other to solve the above problem.
According to the configuration of
Likewise, the toner 8 is conveyed by the second developer conveying portion 16 of the second rotation unit 142 to the first developer conveying portion 15 of the first rotation unit 141.
As described above, the conveying surface 13 of the two rotation units 141, 142 is configured such that the agitation areas partially overlap each other with respect to the rotation direction, so that with the rotation of the developer conveying apparatus 6, the toner 8 is actively circulated between the two rotation units 141, 142. Therefore, even in a case of continuously printing images in which there is a difference in the lightness and darkness in the longitudinal direction of the developer container 2 (in the axial direction of the rotation shaft 12 of the developer conveying apparatus 6), the state of the toner 8 can be maintained in a more uniform manner.
Even when the amount of toner in the developer container 2 decreases, the conveying directions of the two developer conveying portions 15, 16 which are in the agitation area where the two rotation units 141, 142 overlap each other are in the opposite direction, and therefore, the state of the toner 8 can be uniformized in the axial direction in a more efficient manner.
In this case, the configuration of the eighth embodiment is further made into a configuration in which the shapes of the opening portions 17 in a portion formed in a part of the toner agitation area of the two rotation units 141, 142 to be overlapping with respect to the rotation direction of the rotation units 141, 142 are made to be different from the shapes of the other opening portions 17.
In the configuration according to the eighth embodiment, the amount of the toner 8 conveyed is larger in the agitation area overlapping with respect to the rotation direction of the two rotation units 141, 142 than in the agitation area not overlapping. Therefore, the level of the lightness and darkness of the toner in the overlapping agitation area (the center side in the axial direction of the rotation shaft 12) is higher than at the end sides in the axial direction of the rotation shaft 12.
Therefore, the present embodiment is configured to solve the above problems on the basis of a finding, i.e., that the amount of toner conveyed by the developer conveying apparatus 6 can be changed by appropriately setting the shape of the opening portion 17 and each dimension of the shape thereof.
More specifically, the sizes of the opening portions 17 in the overlapping area, described above, of the rotation units 141, 142 are configured to be larger than the sizes of the other opening portions 17, so that the amount of the toner 8 conveyed in the overlapping area is reduced. As a result, the amount of the toner 8 passed between the two rotation units 141, 142 can be configured to be higher in the overlapping area than in the other areas, and the force for providing the toner 8 to the developing roller 3 in the overlapping area can be configured to be lower than the force for providing the toner 8 to the developing roller 3 in the non-overlapping area.
According to this configuration, even in a case of continuously printing images in which there is a difference in the lightness and darkness in the longitudinal direction of the developer container 2 (in the axial direction of the rotation shaft 12 of the developer conveying apparatus 6), the state of the toner 8 in the longitudinal direction can be maintained in a more uniform manner. Even when the amount of toner in the developer container 2 decreases, likewise, the state of the toner 8 in the longitudinal direction can be maintained in a more uniform manner.
The conveying direction of the toner 8 caused by the rotation of the developer conveying apparatus 6 is basically no different from the configuration of
The uniformized agitation state of the toner 8, which is the effect obtained from each of the above embodiments and the present embodiment can be confirmed from that fact that the change in the lightness and darkness of the reflection of the toner 8 is small in the axial direction.
In each of the embodiments described above, the opening in the triangular shape is used as the opening portion 17, but the shape of the opening is not limited thereto. Alternatively, the shape of the opening may be configurations as shown in
This opening portion 17 arranges the trapezoid shape in the conveying surface 13 so that the size of the opening (opening width) becomes larger in the direction in which the toner 8 is to be conveyed. More specifically, the opening portions 17 in the trapezoid shape are provided, in place of the triangle opening portions 17 of the two developer conveying unit 15, 16, so that the upper base and the lower base of the trapezoid are positioned in the direction in which the toner 8 is to be conveyed, and the same agitation effects of the toner 8 are achieved.
The two developer conveying portions 15, 16 may be formed with cut portions 18 that are formed with openings bent to the backward side in the rotation direction in which the developer conveying apparatus 6 rotates about the rotation shaft 12 in a direction in which the toner 8 is to be conveyed.
The cut portion 18 is in such a shape that, in accordance with the rotation of the developer conveying apparatus 6, the toner 8 moves from the side where there is no cutting to the deformation piece forward-end side of the cut portion 18 by the pressure given by the toner 8 and received by the conveying surface 13 of the two rotation units 141, 142. When the pressure given by the toner 8 is applied to the conveying surface 13, the toner 8 moves in the direction in which the opening is formed in the cut portion 18, so that the toner 8 is conveyed in each of the predetermined directions.
The opening formed in the cut portion 18 may be in a C-shape shape, a triangular shape, or may be in a trapezoid shape (
In the case of the C-shape shape cutting, the pressure of the toner 8 bends the cut portion 18 from the side where there is no cutting to the opposite side where a cutting is made. As described above, the toner 8 moves to the bent cut portion 18, so that the toner 8 can be conveyed.
In the base of the triangular shape cutting, the cutting is formed from the base of the triangle toward the vertex side so as to allow the cut portion 18 to be bent easily by the pressure of the toner 8, whereby the toner 8 is conveyed in that direction (the direction in which the opening width decreases).
In the case of the trapezoid shape cutting, a cutting is formed from the lower base side to the upper base side due to the same reason, and accordingly, the toner 8 is conveyed in that direction (the direction in which the opening width decreases). The trapezoid shape has a larger number of sides than the case of the triangular shape, and therefore, the size of the opening (opening width) in a direction perpendicular to the toner conveying direction can be easily adjusted, so that the amount of toner conveyed can be easily adjusted.
[Configuration of Developer Conveying Portion and Developer Detectable Area]
On the first developer conveying portion 15 and the second developer conveying portion 16, opening portions 17 are formed to be arranged in rows along the rotation shaft 12 on the developer conveying surface 13.
Where an interval in which a developer detectable area A is located, which is between the opening portion 17, of these opening portions 17 arranged in rows, at the side end of the developer detection member 22 and the inner wall of the developer container 2 where the developer detection member 22 is provided, is denoted as L1, and an interval between the opening portion 17 at the row end at the opposite side and the inner wall of the developer container 2 at that side is denoted as L2, a relationship of L1>L2 is satisfied. With regard to this relationship, both of the arrangement of the opening portions 17 of the first developer conveying portion 15 and the arrangement of the opening portions 17 of the second developer conveying portion 16 have this relationship. The difference between the distances of L1 and L2 is equal to a single opening portion 17 that is fit in the axial direction of the rotation shaft 12.
In this case, the developer detectable area A means an area with which the developer detection member 22 can determined whether there is toner 8 or not.
The detection area of the developer detection member 22 according to the present embodiment is within 5 mm from the toner detection surface of the developer detection member 22. When the toner detection area of this developer detection member 22 is larger, the developer detectable area A also becomes larger accordingly.
[Configuration of Developer Detection Member]
As shown in
Further, in the present embodiment, as shown in FIG. 34 seen from above the developer container 2, the two developer conveying portions 15, 16 made with the opening portions 17 arranged in rows in the conveying surface 13 of the rotation unit 14 do not have the opening portions 17 at the portion of the rotation unit 14 corresponding to the developer detectable area A. In this manner, the two developer conveying portions 15, 16 are not provided in the developer detectable area A. The developer detection member 22 is provided on the inner surface of the developer container 2 that faces this developer detectable area A.
The developer detection member 22 is a remaining amount detection system using a magnetic permeability sensor. The magnetic permeability sensor 22 outputs a sensor output voltage according to the magnetic permeability of the magnetic body included in the toner 8 in the developer detectable area A, and performs detection to determine whether this sensor output voltage value is more than a reference voltage value.
The magnetic permeability sensor 22 adopts a single rotation of the developer conveying apparatus 6 as a single cycle, and performs sampling with a regular interval in that single cycle. The number of times the detected sensor output voltage value becomes more than the reference voltage value is measured on the basis of a sampling result for a single cycle, and in a case where the number of times the detected sensor output voltage value becomes more than the reference voltage value per single sampling cycle of the magnetic permeability sensor 22 is less than a threshold value defined in advance, the toner is determined not to exist, and in a case where the number of times is equal to or more than the threshold value, the toner is determined to exist.
The present embodiment realizes a configuration in which the opening portion 17 is not provided in the conveying surface 13 of the rotation unit 14 that passes the developer detectable area A, and the first developer conveying portion 15 and the second developer conveying portion 16 are not provided in the developer detectable area.
With this configuration for suppressing the developer conveying function to the magnetic permeability sensor 22 in the developer detectable area A, the movement of the toner 8 is suppressed in the direction along the rotation shaft 12 by the developer conveying apparatus 6 in the developer detectable area A. Therefore, the toner conveying function to the magnetic permeability sensor 22 in the developer detectable area A can be suppressed.
As described above, the movement of the toner 8 in the axial direction of the rotation shaft 12 is suppressed, so that even when the rotation unit 14 is out of the toner pool (
Subsequently, while the toner 8 in the developer container 2 is consumed, the output of the remaining amount detection by the magnetic permeability sensor 22 is monitored, and the measurement is performed twice.
Since the toner surface height in the developer detectable area A is stable, the detection output of the magnetic permeability sensor 22 has small ripples in the remaining amount detection output value in both of the first measurement (N=1) and the second measurement (N=2), and the toner remaining amount in the developer container 2 can be detected with a high degree of accuracy.
As shown in
In this comparative example, when the developer conveying apparatus 6 rotates, the toner 8 in the developer container 2 includes a toner 8 conveyed to the end portion of the developer container 2 (the end portion in the axial direction of the rotation shaft 12) by the first developer conveying portion 15 provided in the conveying surface 13 of the rotation unit 14 and a toner 8 conveyed to the end portion at the side opposite to the end portion of the developer container 2 by the second developer conveying portion 16.
As described above, every time the toner 8 is agitated by the developer conveying apparatus 6, at the end portion of the developer container 2, the toner 8 rushes to the axial direction end portion of the developer conveying apparatus 6 of the developer container 2, and the toner 8 at the end portion of the developer container 2 is conveyed to the inner side of the developer container 2. For this reason, when the rotation unit 14 is out of the toner pool (
Subsequently, while the toner 8 in the developer container 2 according to the comparative example is consumed, the output of the remaining amount detection by the magnetic permeability sensor 22 is monitored, and the measurement is performed twice.
The toner surface height at the end portion of the developer container 2 greatly changed up and down and unstable, and therefore, the output of the remaining amount detection by the magnetic permeability sensor 22 becomes unstable, and in both of the first measurement (N=1) and the second measurement (N=2), the ripple of the remaining amount detection output value by the magnetic permeability sensor 22 is large, and the actual toner remaining amount in the developer container 2 when the toner is determined not to exist is greatly different, and in the configuration of the comparative example, detection cannot be performed with a high degree of accuracy.
In the twelfth embodiment, as a configuration not having the two developer conveying portions 15, 16 provided in the developer detectable area A, the twelfth embodiment has such a shape not having any toner conveying function in the direction along the axial direction of the rotation shaft 12, and the opening portion 18 for conveying the toner 8 is provided on a surface at the side opposite to one of the surfaces of the rotation unit 14. Except the above, the twelfth embodiment has the same configuration as the developing apparatus 1 according to the eleventh embodiment.
The shape of the opening portion 18 has such a shape in which, with respect to a direction from which the toner is conveyed, the width of the opening perpendicular to that direction is constant.
When the developer conveying apparatus 6 rotates, the first developer conveying portion 15 and the second developer conveying portion 16 moves the toner in the axial direction of the rotation shaft 12 and moves the toner to the developing roller 3. With regard to the toner 8 in the developer detectable area A, the toner flow to the magnetic permeability sensor 22 and the toner flow leaving the magnetic permeability sensor 22 can be greatly suppressed by the opening portions 18 that do not have any conveying function in the direction along the axial direction of the rotation shaft 12. Further, the amount of toner conveyed to the developing roller 3 at the end portion of the magnetic permeability sensor 22 of the developer conveying apparatus 6 can also be suppressed.
Therefore, the toner conveying function to the magnetic permeability sensor 22 in the developer detectable area A can be suppressed.
With this configuration for suppressing the developer conveying function to the magnetic permeability sensor 22 in the developer detectable area A, the up and down movement of the toner surface height of the toner 8 in the developer detectable area A is alleviated, and therefore, the precision of the toner presence/absence detection of the magnetic permeability sensor 22 can be more stabilized.
According to the configuration of the present embodiment, in the output result of the magnetic permeability sensor 22, the ripple of the remaining amount detection output value is reduced because of the stabilization of the toner surface height in the developer detectable area A, and the toner remaining amount in the developer container 2 can be detected with a high degree of precision.
The configuration of the present embodiment is effective when the amount of toner conveyed in the direction of the developing roller 3 at the end portion at the magnetic permeability sensor 22 increases.
In the thirteenth embodiment, opening portions 17 of a second developer conveying portion 16 for conveying toner to a center side in an axial direction of a rotation shaft 12 in a developer detectable area A is provided, but opening portions 17 of a first developer conveying portion 15 for conveying toner to the end portion side where there is a magnetic permeability sensor 22 is not provided. At this position, an opening portion 19 having the same arrangement as the opening portions 17 of the second developer conveying portion 16 and conveying toner to the center side in the axial direction of the rotation shaft 12 is provided. Except the above, the thirteenth embodiment has the same configuration as the developing apparatus 1 according to the eleventh embodiment.
The opening portion 17 and the opening portion 19 have such a shape that the size of the opening (opening width) in a direction perpendicular to the toner conveying direction along the axial direction becomes larger in the toner conveying direction. More specifically, with this shape of the openings, a toner flow is formed from a side where the opening width is smaller to a side where the opening width is larger, and accordingly, both of the opening portion 17 and the opening portion 19 having a triangular shape of which a base is at the axial direction center side in the developer detectable area A which has been described above performs an action of toner conveying operation to the center side in the axial direction.
Therefore, when the developer conveying apparatus 6 rotates, the opening portion 17 and the opening portion 19 in the developer detectable area A conveys the toner at the end portion of the rotation unit 14 at the magnetic permeability sensor 22 so as to move the toner to the center side in the axial direction of the rotation shaft 12. In addition, the rotation unit 14 that is rotating and moving also conveys the toner to the developing roller 3.
With this configuration for suppressing the developer conveying function to the magnetic permeability sensor 22 in the developer detectable area A, the toner conveying function to the magnetic permeability sensor 22 in the developer detectable area A can be suppressed, and therefore, the change in the toner surface height in the developer detectable area A is reduced, and the toner surface height is stabilized. Therefore, in the output result of the magnetic permeability sensor 22, the ripple of the remaining amount detection output value is reduced, and the toner remaining amount in the developer container 2 can be detected with a high degree of precision.
The configuration of the present embodiment is effective when the toner surface height at the end portion at the magnetic permeability sensor 22 is high. The configuration of the present embodiment is also effective in a configuration in which the amount of toner is likely to be high at the end portion at the magnetic permeability sensor 22, e.g., a configuration in which the toner replenishing port 9 is provided at a position closer to the magnetic permeability sensor 22 than the central portion of the rotation shaft 12.
In the fourteenth embodiment, an opening portion 20 for conveying the toner 8 to a rotation direction free end side of the rotation unit 14 (rotation radius outer side of the rotation unit 14) is provided at the end portion of each of the two developer conveying portions 15, 16 at the magnetic permeability sensor 22 in the developer detectable area A. Except the above, the fourteenth embodiment has the same configuration as the developing apparatus 1 according to the eleventh embodiment.
These two opening portions 20 have such a shape that the size of the opening (opening width) in a direction perpendicular to the free end direction of the rotation direction of the sheet member 14 becomes larger toward the free end of the rotation unit 14, and therefore, the toner conveying operation to the magnetic permeability sensor 22 by the developer conveying apparatus 6 can be suppressed. Accordingly, the toner conveying function to the magnetic permeability sensor 22 in the developer detectable area A can be suppressed.
According to this configuration, the toner conveying operation to the developing roller 3 in accordance with the rotation movement of the rotation unit 14 is not suppressed.
With this configuration for suppressing the developer conveying function to the magnetic permeability sensor 22 in the developer detectable area A, the toner conveying operation to the magnetic permeability sensor 22 by the rotation unit 14 is suppressed, and therefore, the change in the toner surface height in the developer detectable area A is reduced, and the toner surface height is stabilized. Therefore, in the output result of the magnetic permeability sensor 22, the ripple of the remaining amount detection output value is reduced, and the toner remaining amount in the developer container 2 can be detected with a high degree of precision.
The present embodiment has the configuration for actively conveying the toner 8 in proximity to the magnetic permeability sensor 22 to the radius direction outer side of the rotation unit 14, and therefore, the present embodiment is effective when the magnetic permeability sensor 22 is attached to a position at a height equal to or less than one third of the side wall of the developer container 2 in the height direction.
In the fifteenth embodiment, an opening portion 21 for conveying the toner 8 to a rotation shaft side of the rotation unit 14 (rotation radius inner side of the rotation unit 14) is provided at the end portion of each of the two developer conveying portions 15, 16 at the magnetic permeability sensor 22 in the developer detectable area A. Except the above, the fifteenth embodiment has the same configuration as the developing apparatus 1 according to the eleventh embodiment.
These two opening portions 21 have such a shape that the size of the opening (opening width) in a direction perpendicular to the free end direction of the rotation unit 14 becomes larger toward the fixed end of the rotation unit 14, and therefore, the toner conveying operation to the magnetic permeability sensor 22 by the developer conveying apparatus 6 can be suppressed. Accordingly, the toner conveying function to the magnetic permeability sensor 22 in the developer detectable area A can be suppressed.
According to this configuration, the toner conveying operation to the developing roller 3 in accordance with the rotation movement of the rotation unit 14 is not suppressed.
With this configuration for suppressing the developer conveying function to the magnetic permeability sensor 22 in the developer detectable area A, the toner conveying operation to the magnetic permeability sensor 22 by the rotation unit 14 is suppressed, and therefore, the change in the toner surface height in the developer detectable area A is reduced, and the toner surface height is stabilized. Therefore, in the output result of the magnetic permeability sensor 22, the ripple of the remaining amount detection output value is reduced, and the toner remaining amount in the developer container 2 can be detected with a high degree of precision.
The present embodiment has the configuration for actively conveying the toner 8 in proximity to the magnetic permeability sensor 22 to the radius direction inner side of the rotation unit 14, and therefore, the present embodiment is effective when the magnetic permeability sensor 22 is attached to a position at a height equal to or less than one third of the side wall of the developer container 2 in the height direction.
The first embodiment to the fifteenth embodiment described above have been described using the developing apparatus that employs the replenish method having the replaceable toner bottle 7, but the present invention is not limited thereto. The same effects can be obtained with a cartridge that employs a disposable method.
The first embodiment to the fifteenth embodiment described above have been described using the developing apparatus, but the present invention is not limited thereto. The present invention can also be used for a developer providing apparatus, a developer replenish container, and a cleaning apparatus that use a sheet-like rotation conveying member.
When the present invention is used for a rotation conveying member provided in a developer replenish container (toner bottle) that is detachable to the developing apparatus and conveying toner in the toner bottle, the present invention can eliminate unevenness of the toner in the toner bottle, and the toner can be replenished to the developing apparatus.
There exists an image forming apparatus including a developer providing apparatus (hopper) that is provided between a developer replenish container (toner bottle) and a developing apparatus and temporarily accumulates toner to performs toner replenishing in a more stable manner by replenishing the toner to the developing apparatus via the hopper. When the present invention is used for the rotation conveying member provided in this hopper, the unevenness of the toner in the hopper is eliminated, and the state of the toner in the hopper is uniformized.
A sheet-like rotation conveying member according to the present invention can also be used for a cleaning apparatus that causes a cleaning blade to be in a pressurized contact with a photosensitive body drum and uses this blade to scrape and collect the developer remaining on the photosensitive body drum. The cleaning apparatus includes a rotation conveying member for conveying the collected toner, and when the present invention is used for this rotation conveying member, the cleaning apparatus capable of conveying the developer without clogging the developer while preventing accumulation of the collected developer can be provided.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention 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 modifications, equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2014-259856, filed Dec. 24, 2014, No. 2014-259857, filed Dec. 24, 2014, No. 2014-259858, filed Dec. 24, 2014, No. 2014-259859, filed Dec. 24, 2014, No. 2014-259860, filed Dec. 24, 2014, No. 2014-259861, filed Dec. 24, 2014, which are hereby incorporated by reference herein in their entirety.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2014-259856 | Dec 2014 | JP | national |
| 2014-259857 | Dec 2014 | JP | national |
| 2014-259858 | Dec 2014 | JP | national |
| 2014-259859 | Dec 2014 | JP | national |
| 2014-259860 | Dec 2014 | JP | national |
| 2014-259861 | Dec 2014 | JP | national |
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