This application claims priority from Japanese Patent Application No. 2009-111857 filed on May 1, 2009, the entire subject matter of which is incorporated herein by reference.
The present invention relates to a photosensitive unit and a tandem photosensitive unit for an image forming apparatus.
As a photosensitive unit, there has been proposed a known photosensitive member cartridge including: a photosensitive member frame; and a photosensitive drum and a cleaning unit, which are supported by the photosensitive member frame.
An electrostatic latent image is formed on a surface of the photosensitive drum. The electrostatic latent image is visualized by supplying toner and is formed into a toner image. The toner image is then transferred to a sheet.
Paper dust may be adhered to a surface of the photosensitive member at a time of transferring the toner image to the sheet. The cleaning unit serves to remove the paper dust adhered to the surface of the photosensitive drum. The cleaning unit includes a primary cleaning roller, a secondary cleaning roller and a sponge scraper.
In the cleaning unit, the primary cleaning roller is brought into contact with the surface of the photosensitive drum. The paper dust adhered to the surface of the photosensitive drum is captured by the primary cleaning roller, and the captured paper dust is then passed to the secondary cleaning roller from the primary cleaning roller. The paper dust passed to the secondary cleaning roller is scraped off by the sponge scraper and is then stored in a paper dust storage chamber that is provided inside the cleaning unit.
A spring presses the cleaning unit toward the photosensitive drum in order to bring the primary cleaning roller into contact with the photosensitive drum uniformly.
Illustrative aspects of the present invention provide a photosensitive unit and a tandem photosensitive unit, which are capable of allowing a primary roller for capturing foreign substances on a surface of a photosensitive member to be stably brought into contact with the photosensitive member.
In the above-described known photosensitive member cartridge, the spring presses the entire cleaning unit toward the photosensitive drum. However, the primary cleaning roller is not directly pressed toward the photosensitive drum. Thus, the primary cleaning roller might not be stably brought into contact with the photosensitive drum.
Therefore, illustrative aspects of the present invention provide a photosensitive unit and a tandem photosensitive unit, which are capable of allowing a primary roller for capturing foreign substances on a surface of a photosensitive member to be stably brought into contact with the photosensitive member.
According to a first illustrative aspect of the invention, A photosensitive unit comprising: a photosensitive member that carries a developer image on a surface thereof; a primary roller, which contacts the surface of the photosensitive member, and which captures a foreign substance on the surface of the photosensitive member; a pair of primary bearing members that rotatably support axial end portions of the primary roller; a pair of pressing members that press the pair of primary bearing members toward the photosensitive member; and a pair of guide members that guide the pair of primary bearing members in a pressing direction in which the pair of pressing members press the pair of primary bearing members.
According to a second illustrative aspect of the invention, the photosensitive unit further comprises: a first frame that holds the photosensitive member; and a second frame that holds the primary roller, the pair of primary bearing members and the pair of pressing members.
According to a third illustrative aspect of the invention, in the photosensitive unit, wherein the first frame integrally comprises the pair of guide members.
According to a fourth illustrative aspect of the invention, in the photosensitive unit, wherein the first frame supports the second frame via the pair of guide members.
According to a fifth illustrative aspect of the invention, in the photosensitive unit, wherein the second frame comprises a light guide member that guides light to the surface of the photosensitive member for removing an electronic charge at the surface of the photosensitive member, and wherein the light guide member guides the light to the surface of the photosensitive member at a region upstream of a contact point between the primary roller and the photosensitive member in a rotation direction of the photosensitive member.
According to a sixth illustrative aspect of the invention, in the photosensitive unit, wherein the second frame comprises a light reflecting material.
According to a seventh illustrative aspect of the invention, in the photosensitive unit, wherein the photosensitive member comprises a first gear, wherein the primary roller comprises a second gear at first axial end portion thereof, wherein the second gear intermeshes the first gear so as to rotate the primary roller by a driving force transmitted from the first gear, and wherein the photosensitive unit further comprises: a restricting part, which is provided at an upstream side of the pressing direction with respect to a second axial end portion of the primary roller, and which restricts movement of the second axial end portion of the primary roller toward the upstream side of the pressing direction.
According to an eighth illustrative aspect of the invention, the photosensitive unit further comprises: a secondary roller that contacts a surface of the primary roller to capture a foreign substance on the surface of the primary roller; and a pair of secondary bearing members that rotatably support axial end portions of the secondary roller, wherein each of the pair of guide members comprises: a primary guide part that guides the primary bearing member in the pressing direction; and a secondary guide part that guides the secondary bearing member in the pressing direction.
According to a ninth illustrative aspect of the invention, the photosensitive unit further comprises: a foreign substance container that contains the foreign substance captured by the secondary roller.
According to a tenth illustrative aspect of the invention, the photosensitive member further comprises: a charger that electrically charges the surface of the photosensitive drum.
According to an eleventh illustrative aspect of the invention, there is provided a tandem photosensitive unit that is detachably attached to an image forming apparatus body, the tandem photosensitive unit comprising: a plurality of photosensitive units aligned in a conveyance direction of a recording medium, wherein a first photosensitive unit selected from the plurality of photosensitive units is located at the most upstream side of the conveyance direction, wherein the first photosensitive unit comprises: a first photosensitive member that carries a developer image on a surface thereof; a first primary roller, which contacts the surface of the photosensitive member, and which captures a foreign substance on the surface of the first photosensitive member; a first pair of primary bearing members that rotatably support axial end portions of the first primary roller; a first pair of pressing members that press the first pair of primary bearing members toward the first photosensitive member; a first pair of guide members that guide the first pair of primary bearing members in a pressing direction in which the first pair of pressing members press the first pair of primary bearing members; a first secondary roller that contacts a surface of the first primary roller to capture a foreign substance on the surface of the first primary roller; and a first pair of secondary bearing members that rotatably support axial end portions of the first secondary roller, wherein each of the first pair of guide members comprises: a primary guide part that guides the first primary bearing member in the pressing direction; and a secondary guide part that guides the secondary bearing member in the pressing direction, and wherein a second photosensitive unit selected from the plurality of photosensitive units is located at a downstream side of the conveyance direction with respect to the first photosensitive unit, wherein the second photosensitive unit comprises: a second photosensitive member that carries a developer image on a surface thereof; a second primary roller, which contacts the surface of the second photosensitive member, and which captures a foreign substance on the surface of the second photosensitive member; a pair of second primary bearing members that rotatably support axial end portions of the second primary roller; a second pair of pressing members that press the second pair of primary bearing members toward the second photosensitive member; and a second pair of guide members that guide the second pair of primary bearing members in a pressing direction in which the second pair of pressing members press the second pair of primary bearing members, wherein the second photosensitive unit does not contain a secondary roller.
According to the first illustrative aspect of the invention, in the photosensitive unit, the primary roller comes into contact with the surface of the photosensitive member, on which a developer image is to be formed, and captures a foreign substance on the surface of the photosensitive member. The axial end portions of the primary roller are rotatably supported by the pair of primary bearing members.
Further, the pair of pressing members presses the pair of primary bearing members toward the photosensitive member. Therefore, the primary roller can be directly pressed toward the photosensitive member. Moreover, the pair of guide members guides the pair of primary bearing members in the pressing direction (hereinafter simply referred to as the “pressing direction”) in which the pressing members press the primary bearing members. Therefore, the primary roller can be accurately pressed toward the photosensitive member.
As a result, the primary roller can be stably brought into contact with a photosensitive drum.
According to the second illustrative aspect of the invention, the first frame holds the photosensitive member, while the second frame holds the primary roller, the pair of primary bearing members and the pair of pressing members.
In other words, the primary roller, the pair of primary bearing members and the pair of pressing members are unitized in the second frame. Therefore, the photosensitive unit can be easily completed by performing a simple operation in which the first and second frames are combined with each other.
According to the third illustrative aspect of the invention, the guide members are integrally formed with the first frame. Thus, the relative positions of the photosensitive member held by the first frame and the guide members are stabilized. Therefore, the guide members are capable of accurately guiding the primary bearing members in the pressing direction (i.e., direction extending toward the photosensitive member).
According to the fourth illustrative aspect of the invention, the second frame is supported by the first frame via the guide members. Thus, the guide members serve to connect the first and second frames to each other in addition to guide the primary bearing members. Therefore, the number of components can be reduced.
According to the fifth illustrative aspect of the invention, the light guide member guides the light for removing electric charges at the surface of the photosensitive member, so that the light is guided to the region of the surface of the photosensitive member, which is immediately before coming into contact with the primary roller. Thus, electric charges are removed from the region of the surface of the photosensitive member coming into contact with the primary roller, and the primary roller is capable of smoothly capturing foreign substances on the surface of the photosensitive member without being influenced by the electric charges at the surface of the photosensitive member.
Furthermore, the number of components can be reduced by providing the light guide member in the second frame because a member for supporting the light guide member does not have to be additionally provided.
According to the sixth illustrative aspect of the invention, the second frame is formed of a light reflecting material. Thus, the second frame is capable of helping the light guide member in guiding the light to the surface of the photosensitive member.
According to the seventh illustrative aspect of the invention, the second gear is provided at the one axial end portion of the primary roller. The second gear intermeshes the first gear of the photosensitive member and rotates the primary roller by a driving force transmitted from the first gear.
Therefore, in the primary roller, the position of the one axial end portion side is stabilized, but the position of the other axial end portion side is not stable as the position of the one axial end portion side. Thus, the other axial end portion side might be deviated toward the upstream side in the pressing direction and might not be able to stably come into contact with the surface of the photosensitive member. Hence, at the other axial end portion side, the primary roller might not be able to capture foreign substances on the surface of the photosensitive member.
To cope with this, the restricting part is provided at the upstream side of the pressing direction with respect to the other axial end portion of the primary roller. The restricting part restricts the movement of the other axial end portion of the primary roller toward the upstream side of the pressing direction. Thus, the position of the other axial end portion of the primary roller is stabilized similarly to that of the one axial end portion side. As a result, the primary roller can be stably brought into contact with the surface of the photosensitive member at both of the one axial end portion side and other axial end portion side. Therefore, the primary roller is capable of reliably capturing foreign substances on the surface of the photosensitive member across the entire axial direction thereof.
According to the eighth illustrative aspect of the invention, the secondary roller comes into contact with the surface of the primary roller and captures foreign substances on the surface of the primary roller so as to restore the ability of the primary roller to capture foreign substances on the surface of the photosensitive member. The axial end portions of the secondary roller are rotatably supported by the pair of secondary bearing members.
Incidentally, each guide member includes the primary guide part and secondary guide part.
The primary guide part guides the primary bearing member in the pressing direction. Therefore, the primary roller can be accurately pressed toward the photosensitive member, and the primary roller can be stably brought into contact with the photosensitive drum.
The secondary guide part guides the secondary bearing member in the pressing direction. Therefore, the secondary bearing member is allowed to follow the primary bearing member guided in the pressing direction by the primary guide part, and the secondary roller can maintain the state in which the secondary roller is brought into contact with the surface of the primary roller. As a result, the secondary roller is capable of stably coming into contact with the surface of the primary roller and capturing foreign substances on the surface of the primary roller.
According to the ninth illustrative aspect of the invention, the foreign substance container contains the foreign substances captured by the secondary roller. Therefore, the foreign substances on the surface of the photosensitive member can be reliably collected, and the ability of the secondary roller to capture the foreign substances on the surface of the primary roller can be restored.
According to the eleventh illustrative aspect of the invention, the tandem photosensitive unit holds a plurality of photosensitive units in such a manner that the photosensitive units are aligned in the conveyance direction of a recording medium on which a developer image is to be transferred (which will hereinafter be simply referred to as the “conveyance direction”), and the tandem photosensitive unit is detachably attached to the body of an image forming apparatus. Therefore, maintenance of each photosensitive unit can be performed by attaching/detaching the tandem photosensitive unit to/from the body of the image forming apparatus.
Incidentally, among the plurality of photosensitive units, foreign substances (paper dust) of a recording medium are more likely to adhere to the surface the photosensitive member in the first photosensitive unit located at the most upstream side in the conveyance direction, as compared with the second photosensitive unit located at the downstream side of the conveyance direction with respect to the first photosensitive unit. Thus, unlike the primary roller of the second photosensitive unit, the primary roller of the first photosensitive unit will capture a large amount of paper dust.
Therefore, the first photosensitive unit includes both of the primary and secondary rollers. Thus, in the first photosensitive unit, the primary roller is capable of reliably capturing a large amount of foreign substances on the surface of the photosensitive member while the ability of the primary roller to capture the foreign substances on the surface of the photosensitive member is restored by the secondary roller.
On the other hand, unlike the primary roller of the first photosensitive unit, the primary roller of the second photosensitive unit will hardly capture paper dust. This is because paper dust of a recording medium, which will be adhered to the photosensitive member, is mostly adhered to the photosensitive member of the first photosensitive unit located at the upstream side of the conveyance direction. Accordingly, the second photosensitive unit includes only the primary roller instead of including both of the primary and secondary rollers.
In other words, in each of the first and second photosensitive units, settings are made to provide both of the primary and secondary rollers or provide only the primary roller in an unwasteful manner depending on whether or not paper dust can be adhered to the surface of the photosensitive member.
As a result, the number of components in the tandem photosensitive unit can be reduced, and a size of the tandem photosensitive unit can be reduced.
Exemplary embodiments of the present invention will now be described with reference to the drawings.
(1) Image Forming Apparatus
Referring to
A tandem color laser printer is one example of the image forming apparatus 1. The image forming apparatus 1 includes a body casing 2 (one example of an image forming apparatus body). The body casing 2 includes a front cover 3 at a front face thereof. The front cover 3 is (Tenable and closable with respect to the body casing 2.
A tandem photosensitive unit 4 is provided inside of the body casing 2. With the front cover 3 opened, the tandem photosensitive unit 4 is detachably attached to the inside of the body casing 2 through an attachment/detachment opening formed at the front face of the body casing 2.
In the tandem photosensitive unit 4, four photosensitive drums 5 (one example of a photosensitive member) are located in parallel along the front-back direction so as to be rotatable. A scorotron-type charger 6 and a developing roller 7 are located so as to be opposed to each photosensitive drum 5. A developing cartridge 8 for holding the developing roller 7 and accommodating toner (developer) is located above and adjacent to each photosensitive drum 5. The number of the developing cartridges 8 provided is four, which is equal to the number of the photosensitive drums 5. The developing cartridges 8 are inserted into the tandem photosensitive unit 4 (a unit frame 20 described later, to be exact) so as to be detachably attached thereto, with the developing cartridges 8 located in parallel along the front-back direction.
In the exemplary embodiment, the four developing cartridges 8 are distinguished from each other in accordance with colors of toner accommodated in the respective developing cartridges 8 as follows. The developing cartridges S for black, yellow, magenta and cyan are defined as a developing cartridge 8K (black), a developing cartridge 8Y (yellow), a developing cartridge 8M (magenta), and a developing cartridge 8C (cyan), respectively. For example, from the front side, these developing cartridges 8 are arranged in the following order: the developing cartridge 8K, the developing cartridge 8Y, the developing cartridge 8M and the developing cartridge 8C.
In each developing cartridge 8, the toner of the developing cartridge 8 is held at an outer peripheral face (surface) of the developing roller 7. The surface of each developing roller 7 is brought into contact with an outer peripheral face (surface) of the associated photosensitive drum 5 from the upper front side.
The outer peripheral faces of the respective photosensitive drums 5 are each electrically charged uniformly by the charger 6, and are then exposed to laser beams (see the broken lines with arrows shown in
At a bottom part of the body casing 2, there is located a sheet feeding tray 10 that accommodates sheets S (one example of a recording medium). The sheets S accommodated in the sheet feeding tray 10 are each conveyed to an upper face of a belt 11 by various rollers as indicated by a thick dotted line identified by the reference character “S1”.
The belt 11 is located so as to be opposed to the four photosensitive drums 5 from below. Transfer rollers 12 are located at respective positions opposed to the photosensitive drums 5, with an upper side portion of the belt 11 sandwiched between the transfer rollers 12 and the photosensitive drums 5. The sheets S conveyed onto the belt 11 are sequentially passed through a passage between the belt 11 and the respective photosensitive drums 5 toward the back side by the running of the belt 11. Furthermore, the toner image on the outer peripheral face of each photosensitive drum 5 is transferred to the sheet S by means of a transfer bias applied to the associated transfer roller 12 when the toner image is opposed to (or brought into contact with) the sheet S.
At the downstream side (back side in
(2) Tandem Photosensitive Unit
Next, the tandem photosensitive unit 4 will be described in detail.
(2-1) Overall Structure of Tandem Photosensitive Unit
The tandem photosensitive unit 4 includes: the unit frame 20 that forms the outline of the tandem photosensitive unit 4; four photosensitive units 21 each including one of the above-described photosensitive drums 5; and the four developing cartridges 8 described above.
The unit frame 20 has a substantially rectangular frame shape extending longitudinally in the front-back direction as seen in the up-down direction. The unit frame 20 integrally includes four lateral plates 22 (i.e., a front side plate 22F, a back side plate 22B, a left side plate 22L and a right side plate 22R), which form four sides of the substantially rectangular shape. In the unit frame 20, a space surrounded by these four lateral plates 22 is opened toward both of the top and bottom.
The four photosensitive units 21 are located in parallel along the front-back direction at substantially regular intervals. In this state, the four photosensitive units 21 are provided between a lower end portion of the left side plate 22L and that of the right side plate 22R and are supported by the unit frame 20. Each photosensitive unit 21 is associated with one of the developing cartridges 8K, 8Y, 8M and 8C, and the four photosensitive units 21 are distinguished from each other as follows. From the front side, the four photosensitive units 21 are defined as a photosensitive unit 21K, a photosensitive unit 21Y, a photosensitive unit 21M, and a photosensitive unit 21C in this order.
Each photosensitive unit 21 includes: one of the photosensitive drums 5; and a sub-unit 19 (which will be described later) located so as to be opposed to the photosensitive drum 5 from the upper back side. When the four photosensitive units 21 located in parallel along the front-back direction are collectively seen, the four photosensitive drums 5 are located in parallel along the front-back direction as described above at substantially regular intervals. In this state, the respective photosensitive drums 5 are provided between the lower end portion of the left side plate 22L and that of the right side plate 22R and are rotatably supported by the unit frame 20.
Moreover, in this state, the lower side outer peripheral face of each photosensitive drum 5 is exposed downward through the unit frame 20. Therefore, with the tandem photosensitive unit 4 inserted into the body casing 2, the lower side outer peripheral face of the photosensitive drum 5 comes into contact with the upper face of the belt 11 from above in each photosensitive unit 21.
In the exemplary embodiment, the direction in which the sheets S are conveyed by the belt 11 is the direction in which the sheets S are sent toward the back side as described above. The four photosensitive units 21 are located in parallel along the front-back direction as described above. Hence, it is clear that the tandem photosensitive unit 4 holds the four photosensitive units 21, with the photosensitive units 21 aligned along the conveyance direction of the sheets S.
Further, among the four photosensitive units 21 located in parallel along the front-back direction, the most frontward photosensitive unit 21K (one example of a first photosensitive unit) is located at the most upstream side of the conveyance direction of the sheets S. Furthermore, the remaining photosensitive units 21Y, 21M and 21C (one example of a second photosensitive unit) are located at the downstream side of the conveyance direction of the sheets S with respect to the photosensitive unit 21K.
With the tandem photosensitive unit 4 detached from the body casing 2, the respective developing cartridges 8 are attached from above to the unit frame 20 (more specifically, a space surrounded by the four lateral plates 22) or detached therefrom. Upon insertion of the developing cartridges 8 into the unit frame 20, the lower side outer peripheral face of each developing roller 7 is brought into contact with the outer peripheral face of the photosensitive drum 5 of the associated photosensitive unit 21 from the upper front side. Thus, at the time of image formation, toner is supplied from the developing roller 7 to the electrostatic latent image on the photosensitive drum 5 to allow the electrostatic latent image to be visualized as described above.
(2-2) Sub-Unit
Hereinafter, the sub-units 19 will be described in detail. However, as will be described later, the structure of the sub-unit 19 of the photosensitive unit 21K for black differs from those of the sub-units 19 of the photosensitive units 21Y, 21M and 21C for colors other than black.
Referring to
The following description about the sub-units 19 will be centered on the sub-unit 19 of the photosensitive unit 21K for black (see
In each sub-unit 19, the first unit 23 includes a first frame 35 and the charger 6.
The right side cross section of the first frame 35 is illustrated as an area hatched by oblique lines extending toward the upper back side (the same goes for
At a lower face of the first unit 23, a concave portion 32 concaved toward the upper back side is formed at a position adjoining to the duct 25 from the lower back side. The concave portion 32 (more specifically, a space inside the concave portion 32) is communicated with the duct 25. Further, the charger 6 is fitted into the concave portion 32. In each photosensitive unit 21, the charger 6 is opposed to the photosensitive drum 5 from the upper back side at a distance therefrom so that the charger 6 does not come into contact with the photosensitive drum 5.
Hereinafter, the charger 6 will be described in detail. The charger 6 includes; a discharge wire 26 opposed to the upper back side outer peripheral face of the photosensitive drum 5 at a distance therefrom; and a grid 27, which is provided between the discharge wire 26 and the photosensitive drum 5, for controlling the amount of electric charges supplied from the discharge wire 26 to the photosensitive drum 5. In the charger 6, simultaneously with application of a bias to the grid 27, a high voltage is applied to the discharge wire 26 to cause corona discharge in the discharge wire 26. Therefore, the outer peripheral face of the photosensitive drum 5 is electrically charged uniformly as described above.
Furthermore, as shown in
More specifically, in the charger 6, the above-described high voltage is applied to the discharge wire 26 (see
Moreover, the duct 25 passes through the first frame 35 in the widthwise direction. At the right end face of the first frame 35, a right end portion of the duct 25 is exposed at a position located above and in front of the second electrode 28B. The duct 25 is exposed to outside in the widthwise direction through each of the left side plate 22L and right side plate 22R (see
A plurality of bosses 29 protruded outward in the widthwise direction is integrally provided at each of right and left end faces of the first frame 35. Each boss 29 is assembled to the lower end portion of the associated one of the left side plate 22L and right side plate 22R (see
In the exemplary embodiment, supposing that regions at which each photosensitive drum 5 is supported by the respective lower end portions of the left side plate 22L and right side plate 22R are defined as parts of the first frame 35 of the photosensitive unit 21 including the photosensitive drum 5, the first frame 35 holds the associated photosensitive drum 5 in each photosensitive unit 21.
In addition, a pair of protrusive portions 30 protruded toward the lower back side is integrally provided at widthwise end portions of a lower back side end of the first frame 35. At the lower back side end of the first frame 35, there is formed a cut-out 31 sandwiched between the pair of protrusive portions 30 and extended longitudinally in the widthwise direction. The second unit 24 is provided so as to be fitted into the cut-out 31.
Next, although the second units 24 will be described, the second unit 24K for black will be described first.
(2-1) Second Unit For Black
Referring to
In the exemplary embodiment, the right side cross section of the second frame 36 in each of the second units 24 is illustrated as an area hatched by oblique lines extending toward the lower back side (the same goes for
The right side cross section of the second frame 36 of the second unit 24K has a substantially V shape tapered toward the back side. In order to provide such a right side cross-sectional shape, the second frame 36 of the second unit 24K includes a plate-like lower frame 45 and a plate-like upper frame 46 in a dividable manner. The plate-like lower frame 45 is elongated longitudinally in the widthwise direction and extended substantially horizontally, and the plate-like upper frame 46 is elongated longitudinally in the widthwise direction and extended toward the upper front side from a rear end portion of the lower frame 45. In the second frame 36, a space sandwiched between the lower frame 45 and the upper frame 46 is opened at the upper front side and is communicated with outside. Incidentally, this space will be referred to as a storage chamber 47 (one example of a foreign substance container).
In the exemplary embodiment, an attachment face 46A is formed at a front side portion of a surface (lower face) of the upper frame 46, facing the storage chamber 47 from above. The attachment face 46A is flat along the direction slightly inclined toward the front side with respect to the vertical direction. The scraping member 43 is attached to the attachment face 46A, and the scraping member 43 is located inside the storage chamber 47.
The scraping member 43 has a block shape elongated in the widthwise direction and is formed by a sponge. As seen in the widthwise direction, the scraping member 43 has a substantially rectangular shape extending slightly longitudinally in the up-down direction (strictly speaking, in the direction extending along the attachment face 46A). A rear face of the scraping member 43 is affixed to the attachment face 46A via a double-faced tape or the like. A front face of the scraping member 43 is facing, from the back side, a portion of the storage chamber 47 opened toward the upper front side.
Moreover, a left end portion 45L of the lower frame 45 is bent at a substantially right angle toward the upper back side, and a left end portion 46L of the upper frame 46 is bent at a substantially right angle toward the lower front side. The left end portion 45L of the lower frame 45 and the left end portion 46L of the upper frame 46, bent in the above-described manner, are fitted to each other, thus closing the left side portion of the storage chamber 47. The left end portions 45L and 46L, which are fitted to each other in this manner, collectively form a closing plate 48 having a substantially triangle shape tapered toward the back side as seen in the widthwise direction.
As shown in
Further, as shown in
The concave portion 50 is extended longitudinally in the widthwise direction. A right end portion of the concave portion 50 is more protruded toward the right side than the right side closing plate 48 (see
The light guide member 44 is accommodated in the concave portion 50 so as to be fitted thereto from the front side. In other words, the light guide member 44 is provided at the second frame 36 where the concave portion SO is defined.
The light guide member 44 has a rod-like shape elongated in the widthwise direction and is formed of transparent glass or resin. The widthwise dimension of the light guide member 44 is larger than that of the outer peripheral face of the photosensitive drum 5. Similarly to the right end portion of the concave portion 50, a right end portion of the light guide member 44 is more protruded toward the right side than the right side closing plate 48 (see
As seen in the widthwise direction, the light guide member 44 has a substantially rectangular shape extending slightly longitudinally in the front-back direction. In the exemplary embodiment, each of upper and lower faces of the light guide member 44 is a flat face extending along a substantially horizontal direction, and a rear face of the light guide member 44 is a flat face extending along a substantially vertical direction. The upper, lower and rear faces of the light guide member 44 accommodated in the concave portion 50 are covered with the regions by which the concave portion 50 is defined at the front end portion and extended portion 49 of the lower frame 45. On the other hand, a front face of the light guide member 44 is a curved surface bulged toward the front side in the form of a segment of a circle and is exposed to the front side through the concave portion 50. Functions of the light guide member 44 will be described later.
Furthermore, as shown in FIGS, 4A and 4B, a holding part 51 is integrally provided at each of widthwise end portions of the second frame 36. In other words, a pair of the holding parts 51 is provided at a distance in the widthwise direction.
Each holding part 51 includes: a first holding portion 51A; a second holding portion 51B (see
In the left side holding part 51, the first and second holding portions 51A and 51B are integrally provided at an upper front side end part of the left end portion 46L of the upper frame 46 (see
In the right side holding part 51, the first and second holding portions 51A and 51B are integrally provided at an upper front side end part of the right end portion 46R of the upper frame 46 (see
In each of the right and left holding parts 51, the first holding portion 51A has a plate-like shape. The first holding portion 51A is extended toward the upper front side from an upper front end portion of the associated one of the left end portion 46L and right end portion 46R of the upper frame 46 (see
In each of the right and left holding parts 51, the second holding portion 51B has a plate-like shape and is continuous with a rear end part of the first holding portion 5IA located at the same side in the widthwise direction. The second holding portion 51B is extended toward the lower back side from this rear end part of the first holding portion 51A and is then bent so as to be extended toward the lower front side (see
In each of the right and left holding parts 51, the third holding portion 51C has a plate-like shape as shown in
Next, the primary roller 41 and the secondary roller 42 will be described.
Regarding the primary roller 41 and the secondary roller 42, the upper one of the two rollers shown in
The primary roller 41 is extended longitudinally in the widthwise direction. The primary roller 41 integrally includes: a columnar shaft portion 41A made of metal and elongated in the widthwise direction; and a roller portion 4IB that covers regions of an outer peripheral face of the shaft portion 41A except widthwise end portions thereof. The shaft portion 41A is elongated in the widthwise direction, and thus the axial direction of the primary roller 41 coincides with the widthwise direction. The roller portion 41B is formed of foam (e,g., sponge). A gear is provided at a left end portion of the primary roller 41 (i.e., one axial end portion of the primary roller 41). This gear will be referred to as a primary gear 56 (one example of a second gear). The primary gear 56 has a substantially cylindrical shape with a center axis extending in the widthwise direction, and gear teeth are formed at an outer peripheral face of the primary gear 56.
The secondary roller 42 is made of metal and has a columnar shape elongated in the widthwise direction. Therefore, the axial direction of the secondary roller 42 coincides with the widthwise direction. A gear (which will be referred to as a “secondary gear 57”) is provided at a left end portion of the secondary roller 42. The secondary gear 57 has a substantially cylindrical shape with a center axis extending in the widthwise direction, and gear teeth are formed at an outer peripheral face of the secondary gear 57.
The widthwise dimension of the primary roller 41 and that of the secondary roller 42 are substantially equal to each other.
Respective end portions of the primary and secondary rollers 41 and 42, located at the same side in the widthwise direction, are rotatably supported by the same bearing member 58. In other words, a pair of the bearing members 58 for rotatably supporting axial end portions of both of the primary and secondary rollers 41 and 42 is provided at the second unit 24.
Each bearing member 58 has a substantially “8” shape as seen in the widthwise direction. With reference to the position shown in
Both of the primary and secondary bearing members 59 and 60 each have a substantially cylindrical shape, a center axis of which extends in the widthwise direction.
A convex portion (which will be referred to as a “first convex portion 62”) projected upward (see also
A convex portion (which will be referred to as a “second convex portion 63”) projected toward the lower back side is integrally provided on a lower side outer peripheral face of the secondary bearing member 60 (see also
Furthermore, A convex portion (which will be referred to as a “third convex portion 66”) projected frontward is integrally provided on a front side outer peripheral face of the primary bearing member 59 (sec
In each bearing member 58, the first, second and third convex portions 62, 63 and 66 are located at substantially the same positions with respect to the widthwise direction. More specifically, the first, second and third convex portions 62, 63 and 66 are located at the positions located inwardly of the widthwise center of the bearing member 58 in the widthwise direction (in the case of the right side bearing member 58, at the positions located leftwardly of the widthwise center) (see also
The connecting portion 61 has a substantially rectangular parallelepiped block shape. The connecting portion 61 is provided between a widthwise center portion of the Lower side outer peripheral face of the primary bearing member 59 and that of the upper side outer peripheral face of the secondary bearing member 60. In each bearing member 58, the connecting portion 61 is located outwardly of the first, second and third convex portions 62, 63 and 66 in the widthwise direction (in the case of the right side bearing member 58, the connecting portion 61 is located rightwardly of the first, second and third convex portions 62, 63 and 66 in the widthwise direction).
In the primary roller 41, a right end part of the shaft portion 41A is inserted into a hollow portion of the primary bearing member 59 of the right side bearing member 58 and is rotatably supported by the primary bearing member 59. A left end part of the shaft portion 41A (more specifically, a part of the shaft portion 41A, located rightwardly of the primary gear 56) is inserted into a hollow portion of the primary bearing member 59 of the left side bearing member 58 and is rotatably supported by the primary bearing member 59. Thus, widthwise end portions of the primary roller 41 are rotatably supported by the pair of right and left bearing members 58 (i.e., the primary bearing members 59 thereof).
A right end part of the secondary roller 42 is inserted into a hollow portion of the secondary bearing member 60 of the right side bearing member 58 and is rotatably supported by the secondary bearing member 60. A left end part of the secondary roller 42 (more specifically, a part of the secondary roller 42, located rightwardly of the secondary gear 57) is inserted into a hollow portion of the secondary bearing member 60 of the right side bearing member 58 and is rotatably supported by the secondary bearing member 60. Thus, widthwise end portions of the secondary roller 42 are rotatably supported by the pair of right and left bearing members 58 (i.e., the secondary bearing members 60 thereof).
In the state where the primary and secondary rollers 41 and 42 are each supported by the right and left bearing members 58 in this manner, regions of the upper side outer peripheral face of the secondary roller 42 except the widthwise end portions thereof come into contact with the lower side outer peripheral face of the roller portion 41B of the primary roller 41 across the entire widthwise direction thereof from the lower back side. The primary gear 56 of the primary roller 41 intermeshes the secondary gear 57 of the secondary roller 42 from the upper front side.
In the exemplary embodiment, the second frame 36 (see
More specifically, referring to
In this state, in each bearing member 58, the first convex portion 62 (see
Thus, the second frame 36 holds the respective bearing members 58 in the right and left holding parts 51 so that the bearing members 58 will not be detached therefrom. In other words, the second frame 36 is fixed to the respective bearing members 58. Furthermore, in this state, the coil spring 64 of the primary bearing member 59 (see
In this state, the second unit 24 is completed. In the second unit 24, the second frame 36 holds the primary roller 41, the secondary roller 42, the scraping member 43, the light guide member 44, the pair of bearing members 58 and the pair of coil springs 64 (see also
In the completed second unit 24 (24K), as shown in
Moreover, a part of the secondary roller 42 sandwiched between widthwise end portions thereof is accommodated in the storage chamber 47. The upper front side outer peripheral face of the secondary roller 42 is brought into contact with the lower back side outer peripheral face of the roller portion 41B of the primary roller 41 across the entire widthwise direction thereof from the lower back side, and the back side outer peripheral face of the secondary roller 42 digs into the front face of the scraping member 43 across the entire widthwise direction thereof from the front side.
As shown in
As shown in
As shown in
A widthwise inner surface of the primary guide part 71 (i.e., a frontward surface thereof in
As shown in
The longitudinal dimension of the concave portion 73 of the primary guide part 71 is set to be larger than the outer diameter of the primary bearing member 59 of the bearing member 58, and the longitudinal dimension of the concave portion 73 of the secondary guide part 72 is set to be larger than the outer diameter of the secondary bearing member 60 of the bearing member 58 (see
Moreover, at a rear end portion of the primary guide part 71, there is formed a cut-out 77 by which only a region corresponding to the concave portion 73 in the widthwise direction (i.e., the direction perpendicular to the plane of
Further, at a bottom portion (widthwise outward portion) of the concave portion 73 of each of the primary and secondary guide parts 71 and 72, there is formed an insertion hole 78 passing through the bottom portion in the widthwise direction. The insertion hole 78 is similar in shape to the concave portion 73 (the concave portion 73 of the secondary guide part 72, to be exact) as seen in the widthwise direction and has an elliptical shape slightly smaller than that of the concave portion 73.
Furthermore, an engagement portion 79 extending linearly toward the upper back side is provided at upper front side and lower front side end portions of the primary and secondary guide parts 71 and 72. The engagement portion 79 provided at the primary guide part 71 (which will be referred to as a “first engagement portion 79A”) is extended toward the upper back side so as to be upwardly away from the primary guide part 71. The engagement portion 79 provided at the secondary guide part 72 (which will be referred to as a “second engagement portion 79B”) is extended toward the upper back side so as to be downwardly away from the secondary guide part 72. A hook-like claw 80 is integrally provided at a rear end portion of each engagement portion 79. The claw 80 of the first engagement portion 79A is protruded toward the upper front side, and the claw 80 of the second engagement portion 793 is protruded toward the lower back side.
As shown in
More specifically, in this state, the concave portions 73 (see
Moreover, a portion of the primary bearing member 59 of the associated bearing member 58, located outwardly of the connecting portion 61 in the widthwise direction, is freely fitted to the concave portion 73 of the primary guide part 71 (see
Further, a portion of the shaft portion 41A of the primary roller 41, located outwardly of the primary bearing member 59 of the associated bearing member 58 in the widthwise direction, is freely fitted to the insertion hole 78 of the primary guide part 71 (see
The right end part of the shaft portion 41A of the primary roller 41 is protruded rightward through the insertion hole 78 (see
The right end part of the secondary roller 42 is protruded rightward through the insertion hole 78 (see
The collar 69 is externally fitted to the right end part of each of the shaft portion 41A and the secondary roller 42 from the right side. Therefore, the positioning of the right side guide member 70 is determined with respect to the widthwise direction, and the guide member 70 is thus prevented from being deviated to the right side. The right end face of each of the shaft portion 41A and the secondary roller 42 is exposed to the right side through the associated collar 69. Moreover, the associated gear (either the primary gear 56 or the secondary gear 57) is attached to the left end part of each of the shaft portion 41A and the secondary roller 42. Therefore, the positioning of the left side guide member 70 is determined with respect to the widthwise direction, and the guide member 70 is thus prevented from being deviated to the left side.
In the state where the guide member 70 is attached to each of the right and left bearing members 58 as described above, each bearing member 58 can be moved relatively with respect to the guide member 70 attached thereto by sliding each bearing member 58 along the longitudinal direction of the concave portion 73 (i.e., the direction parallel to the linear portions 74 extending toward the upper back side in the concave portion 73 (see
In addition, referring to
Next, the support relationship between the first and second units 23 and 24 will be described. Prior to this description, the first unit 23 and the first frame 35 will be further described.
Referring to
The front holder 85 integrally includes: a pair of plates (which will be referred to as “front plates 87”) protruded toward the lower front side from the lower face of the first frame 35, with a gap provided between the front plates 87 in the widthwise direction; and a claw 88 provided between the pair of front plates 87 and protruded toward the lower back side (see also
The rear holder 86 integrally includes: a pair of plates (which will be referred to as “rear plates 89”) protruded toward the lower front side from the lower face of the first frame 35, with a gap provided between the rear plates 89 in the widthwise direction; a closing member 90 for closing a space between rear ends of the pair of rear plates 89 and a space between lower ends of the pair of rear plates 89; and an upwardly protruding claw 91 (see
Further, a convex portion 92 (one example of a restricting part) protruding toward the front side is integrally provided on the lower face of each of right and left end portions of the first frame 35 between the front and rear holders 85 and 86 (see also
In the exemplary embodiment, as shown in
As shown in
In this state, parts of the second unit 24, located leftwardly of the second frame 36 (e.g., the left side holding part 51, bearing member 58, guide member 70, coil spring 64, primary gear 56 and secondary gear 57 (see FIGS. 4A and 4B)), are located below the left end portion of the first frame 35 (i.e., a portion of the first frame 35, corresponding to the left side protrusive portion 30).
Moreover, parts of the second unit 24, located rightwardly of the second frame 36 (e.g., the right side holding part 51, bearing member 58, guide member 70, coil spring 64, and right end portion of the light guide member 44 (see FIGS. 4A and 4B)), are located below the right end portion of the first frame 35 (i.e., a portion of the first frame 35, corresponding to the right side protrusive portion 30).
In this case, the collar 69 (see
In the second unit 24, the second frame 36 is accommodated in the space (i.e., the cut-out 31) between the right and left protrusive portions 30 of the first frame 35 and is exposed to the upper back side through the cut-out 31 (see
Next, referring to
Referring to
More specifically, an upper end part of the guide member 70 is sandwiched between the pair of front plates 87 of the front holder 85 (see
Thus, the right and left guide members 70 are each held by the front and rear holders 85 and 86 located at the same side in the widthwise direction. Therefore, the right and left guide members 70 are fixed so as not to be able to move relatively with respect to the first frame 35.
As described above, the guide member 70 is attached to each of the right and left bearing members 58 to which the second frame 36 of the second unit 24 is fixed (see
Furthermore, the entire second unit 24 is slid and is thus allowed to move relatively with respect to the right and left guide members 70 in an integrated manner as described above. Therefore, the second unit 24 is slidably supported by the first unit 23. The sliding direction of the second unit 24 coincides with the longitudinal direction of the concave portion 73 of the guide member 70 (i.e., the direction parallel to the linear portions 74 extending toward the upper back side in the concave portion 73 (see also
In this state, the convex portion 92 provided between the front and rear holders 85 and 86 in the first frame 35 as described above is fitted from the back side into the cut-out 77 (see also
Thus, each of the right and left primary bearing members 59 will not be deviated from a position, in which each of the right and left primary bearing members abuts against the convex portion 92, toward the upstream side in the pressing direction X. In other words, the convex portion 92 is provided at the upstream side in the pressing direction X with respect to the widthwise end portions of the primary roller 41 so as to restrict the movement of the widthwise end portions of the primary roller 41 toward the upstream side in the pressing direction X.
Moreover, referring to
Thus, the coil spring 64 will elongate toward the front side (toward the downstream side in the pressing direction X). In this state, the coil spring 64 presses the primary bearing member 59 toward the downstream side in the pressing direction X. Accordingly, the pair of right and left bearing members 58, the primary roller 41 supported by the primary bearing members 59 of the bearing members 58, and the secondary roller 42 supported by the secondary bearing members 60 of the bearing members 58 are pressed in the pressing direction X (toward the downstream side in the pressing direction X) in an integrated manner. In accordance therewith, the entire second unit 24 is pressed in the pressing direction X. In this state, a front side outer peripheral face of the primary roller 41 (roller portion 41B) is exposed to the front side not only in regard to the second unit 24 but also in regard to the entire sub-unit 19.
In the state where such a support relationship is established between the first and second units 23 and 24, the sub-unit 19 including the first and second units 23 and 24 is located so as to be opposed to the associated photosensitive drum 5 from the upper back side as described above.
In this state, at the front side outer peripheral face of the roller portion 41B, the primary roller 41 is brought into contact with the back side outer peripheral face of the photosensitive drum 5 across the entire widthwise direction thereof from the back side.
In the exemplary embodiment, as seen in the widthwise direction, a straight line (i.e., a reference line Y indicated by the dotted line), connecting a circular center (shaft portion 41A) of the primary roller 41 with a circular center 5A of the photosensitive drum 5, is located on an extension of a line of action of the pressing force applied by the coil spring 64 (see the arrow with the reference character “X”) that presses the primary bearing member 59 toward the downstream side in the pressing direction X.
Therefore, the primary roller 41 is brought into contact with the photosensitive drum 5 toward the circular center 5A of the photosensitive drum 5, and the pair of coil springs 64 presses the pair of primary bearing members 59 (i.e., the primary roller 41) toward the circular center 5A of the photosensitive drum 5 along the pressing direction X. Thus, the pressing force is perpendicularly applied from the primary roller 41 to the photosensitive drum 5.
Referring to
Hence, with the primary bearing member 59 pressed in the pressing direction X by the coil spring 64 (see
Furthermore, a gear is provided at a left end portion of the photosensitive drum 5 (see
Moreover, as shown in
(2-2) Second Units for Colors other than Black
The second units 24Y, 24M and 24C for colors other than black will be described below.
Here,
Referring to
However, as shown in
Specifically, the second frame 36 of each of the second units 24Y, 24M and 24C includes only the lower frame 45 instead of including both of the upper and lower frames 45 and 46. However, the lower frame 45 of each of the second units 24Y, 24M and 24C is different in shape from the lower frame 45 of the second unit 24K (see
As described above, each of the second units 24Y, 24M and 24C does not include the secondary roller 42, the scraping member 43 and the storage chamber 47. Therefore, the second units 24Y, 24M and 24C are each reduced in size accordingly in the front-back direction, specifically, as compared with the second unit 24K. Therefore, also in regard to the entire sub-unit 19, the sub-unit 19 of each of the photosensitive units 21Y, 21M and 21C is reduced in size in the front-back direction as compared with the sub-unit 19 of the photosensitive unit 21K (see also
In the exemplary embodiment, referring to
However, the second units 24Y, 24M and 24C each include only the primary roller 41 instead of including both of the primary and secondary rollers 41 and 42 as described above. Therefore, in the second unit 24 of each of the second units 24Y, 24M and 24C, the primary bearing members 59 of the pair of right and left bearing members 58 rotatably support the widthwise end portions of the primary roller 41, but the secondary hearing members 60 of the pair of right and left bearing members 58 do not support anything.
Further, in the right and left guide members 70 of the second unit 24 of each of the second units 24Y, 24M and 24C, a portion of the primary bearing member 59 of the associated bearing member 58, located outwardly of the connecting portion 61 in the widthwise direction, is freely fitted to the concave portion 73 of the primary guide part 71 (see
Moreover, a portion of the shaft portion 41A of the primary roller 41, located outwardly of the primary bearing member 59 of the associated bearing member 58 in the widthwise direction, is freely fitted to the insertion hole 78 of the primary guide part 71 (see
However, nothing is fitted to the insertion hole 78 of the secondary guide part 72 (see also
Regarding the pair of holding parts 51 described above, each of the holding parts 51 in the second units 24Y, 24M and 24C includes the second and third holding portions 51B and 51C, but includes no first holding portion 51A (see
Therefore, in each of the holding parts 51 of the second units 24Y, 24M and 24C, a substantially half of a widthwise inner portion of the bearing member 58 located at the same side in the widthwise direction is fitted between the second and third holding portions 51B and 51C (see both of
In this state, in each bearing member 58, the second convex portion 63 (see also
As for parts other than those described above, the second unit 24K (see
(2-3) Operations in Photosensitive Unit
Next, regarding operations in the photosensitive unit 21, operations in the photosensitive unit 21K for black will be mainly described.
In the exemplary embodiment, referring to
As described above, at the time of image formation, in each photosensitive unit 21, the outer peripheral face of the photosensitive drum 5 is uniformly electrically charged by the charger 6 and is then exposed to a laser beam emitted from the scanner unit 9 (see
Thereafter, a region of the outer peripheral face of the photosensitive drum 5, which has been brought into contact with the sheet S and from which the toner image has been transferred to the sheet S, is first opposed to the light guide member 44 from the front in accordance with the rotation of the photosensitive drum 5. In this case, the light source (not shown) emits light, and the light emitted from the light source travels toward the left side (i.e., the depth side in
In the exemplary embodiment, in the light guide member 44 accommodated in the concave portion 50 as described above, the upper, lower and rear faces of the light guide member 44 are covered, while the front face of the light guide member 44 is exposed to the front side through the concave portion 50. Therefore, part of the light traveling toward the left side inside the light guide member 44 leaks to the front side through the front face of the light guide member 44. Furthermore, in the middle of the travel, another part of the light traveling toward the left side inside the light guide member 44 is reflected by the regions of the front end portion and extended portion 49 of the lower frame 45 by which the concave portion 50 is defined, and travels toward the front side. The lower frame 45 and the extended portion 49 (i.e., the second frame 36) are made of, for example, a white-color material so that the light can be efficiently reflected.
The light leaked to the front side through the front face of the light guide member 44 in the middle of the travel in this manner and the light traveling toward the front side by the reflection are merged with each other. The merged light subsequently travels toward the front side and is applied to the outer peripheral face of the photosensitive drum 5 (i.e., a region of the outer peripheral face, which is opposed to the light guide member 44 and is immediately before coming into contact with the primary roller 41) across the entire widthwise direction thereof. Thus, at the region to which the light is applied, the outer peripheral face of the photosensitive drum 5 is exposed to the light across the entire widthwise direction thereof, and residual electric charges at the exposed region is removed. In other words, the light guide member 44 guides the light for removing electric charges at the outer peripheral face of the photosensitive drum 5, so that the light is guided to the region of the outer peripheral face of the photosensitive drum 5, which is immediately before coming into contact with the primary roller 41.
Furthermore, the region of the outer peripheral face of the photosensitive drum 5, from which the residual electric charges have been removed in this manner, is then brought into contact with the primary roller 41 that is being rotated due to the rotation of the photosensitive drum 5.
At that time, a primary cleaning bias is applied to the primary roller 41 via the third electrode 28C (see
In the exemplary embodiment, during the transfer of the toner image to the sheet S from the photosensitive drum 5, paper dust might be adhered to the outer peripheral face of the photosensitive drum 5 from the sheet S. In addition, transfer residual toner might remain on the outer peripheral face of the photosensitive drum 5 after the transfer of the toner image to the sheet S.
Among the foreign substances such as paper dust and transfer residual toner on the surface (outer peripheral face) of the photosensitive drum 5, the transfer residual toner is transferred to the outer peripheral face of the primary roller 41 (roller portion 41B) by the primary cleaning bias (which is a primary cleaning bias lower than a surface potential of the photosensitive drum 5 in this case) through a contact position between the photosensitive drum 5 and the primary roller 41, and the transfer residual toner is temporarily captured by the primary roller 41.
Further, at the time when no toner image is transferred to the sheet S (e.g., during a period of time between the transfer of a toner image to the previous sheet S and the transfer of a toner image to the subsequent sheet S when image formation is continuously performed on the two sheets S), the primary cleaning bias higher than the surface potential of the photosensitive drum 5 is applied to the primary roller 41.
Then, the transfer residual toner temporarily captured by the primary roller 41 is returned to the photosensitive drum 5 from the primary roller 41, and the paper dust on the surface of the photosensitive drum 5 is captured by the surface of the primary roller 41 (i.e., the outer peripheral face of the roller portion 41B) instead. The transfer residual toner returned to the photosensitive drum 5 is collected by the developing roller 7 (see
In the exemplary embodiment, a secondary cleaning bias is applied to the secondary roller 42 from the power source (not shown) of the body casing 2 via the fourth electrode 28D (see
When the paper dust captured by the secondary roller 42 is opposed to the scraping member 43 in accordance with the rotation of the secondary roller 42, the paper dust is scraped off and dropped off from the surface of the secondary roller 42 by the scraping member 43 and is contained in the storage chamber 47. Here, a gap between the extended portion 49 and the secondary roller 42 is closed by a film-like sealing member 95. Thus, backflow of the paper dust toward the primary roller 41 via the gap can be prevented.
Further, the lower frame 45 and upper frame 46 by which the storage chamber 47 is defined are dividable as described above. Therefore, the storage chamber 47 can be opened and the paper dust stored in the storage chamber 47 can be discarded by detaching the upper frame 46.
Furthermore, the region of the outer peripheral face of the photosensitive drum 5, from which residual electric charges and foreign substances have been removed in the above-described manner, is then opposed to the charger 6 in accordance with the rotation of the photosensitive drum. 5. In this case, when image formation is continued, the region of the outer peripheral face of the photosensitive drum 5, opposed to the charger 6, is electrically charged again by the charger 6, and an electrostatic latent image is formed on this region by the above-described procedure.
As described above, in the second unit 24K of the black photosensitive unit 21K, the transfer residual toner and paper dust on the surface of the photosensitive drum 5 are electrically captured by the primary roller 41. Then, the transfer residual toner captured by the primary roller 41 is electrically returned to the photosensitive drum 5 and thereafter collected by the developing roller 7 (see
Referring now to
However, referring to
Further, also in each of the second units 24Y, 24M and 24C, the light guide member 44 removes residual electric charges of the photosensitive drum 5 similarly to the second unit 24K.
As described above, referring to
In the exemplary embodiment, as shown in
As a result, the primary roller 41 can be stably brought into contact with the photosensitive drum 5.
As shown in
In other words, the primary roller 41, the pair of primary bearing members 59 and the pair of coil springs 64 are unitized in the second frame 36. Therefore, the photosensitive unit 21 can be easily completed by performing a simple operation in which the first and second frames 35 and 36 are combined with each other.
As shown in
As shown in
Furthermore, the number of components can be reduced by providing the light guide member 44 in the second frame 36 because a member for supporting the light guide member 44 does not have to be additionally provided.
The second frame 36 is formed of a light reflecting material (e.g., a white-color material). Therefore, the second frame 36 can helps the light guide member 44 in guiding the light to the surface of the photosensitive drum 5.
As shown in
Therefore, in the primary roller 41, the position of the left end portion is stabilized. Specifically, the gear teeth of the primary gear 56 provide a helical gear, and the pressure angle direction in the primary gear 56 (i.e., the direction in which the tooth surface of the drum gear 68 presses that of the primary gear 56) is the direction extending outward (leftward) in the widthwise direction. Hence, even if the primary gear 56 has received the driving force, the primary gear 56 is movable only to the left side, but a left wall 35L (see
On the other hand, in the primary roller 41, the position of the other axial end portion (right end portion) side thereof is not stable as the position of the left end portion. Thus, referring to
To cope with this, the convex portion 92 is provided at the upstream side of the pressing direction X with respect to the right end portion of the primary roller 41. Incidentally, in the exemplary embodiment, the convex portion 92 is provided at the upstream side in the pressing direction X with respect to each of right and left end portions of the primary roller 41 (see also
The convex portion 92 restricts the movement of the right end portion of the primary roller 41 toward the upstream side in the pressing direction X. Thus, the position of the right end portion of the primary roller 41 is stabilized similarly to that of the left end portion side. As a result, the primary roller 41 can be stably brought into contact with the surface of the photosensitive drum 5 at both of the right and left end portion sides. Therefore, the primary roller 41 is capable of reliably capturing foreign substances on the surface of the photosensitive drum 5 across the entire widthwise direction thereof.
As shown in
Each guide member 70 include the primary and secondary guide parts 71 and 72 (see
As shown in
The secondary guide part 72 guides the secondary bearing member 60 in the pressing direction X. Therefore, the secondary bearing member 60 is allowed to follow the primary bearing member 59 guided in the pressing direction X by the primary guide part 71, and the secondary roller 42 can maintain the state in which the secondary roller 42 is brought into contact with the surface of the primary roller 41 (see
As shown in FIG, 1, in the photosensitive unit 21K, the storage chamber 47 contains the foreign substances captured by the secondary roller 42. Therefore, the foreign substances on the surface of the photosensitive drum 5 can be reliably collected. Furthermore, the ability of the secondary roller 42 to capture the foreign substances on the surface of the primary roller 41 can be restored.
The tandem photosensitive unit 4 holds the plurality of photosensitive units 21 (four photosensitive units 21 in the exemplary embodiment) in such a manner that the photosensitive units 21 are aligned in the conveyance direction of the sheet S on which a toner image is to be transferred (i.e., the direction which extends toward the back side along a substantially horizontal direction in the exemplary embodiment, and which will hereinafter be simply referred to as the “conveyance direction”), and the tandem photosensitive unit 4 is detachably attached to/ the body casing 2. Therefore, maintenance of each photosensitive unit 21 can be performed by attaching/detaching the tandem photosensitive unit 4 to/from the body casing 2.
In the exemplary embodiment, among the four photosensitive units 21, paper dust of the sheet S is more likely to adhere to the surface of the photosensitive drum 5 in the photosensitive unit 21K located at the most upstream side (most front side) in the conveyance direction, as compared with the photosensitive units 21Y, 21M and 21C located at the downstream side of the conveyance direction with respect to the photosensitive unit 21K. Thus, unlike the primary rollers 41 of the photosensitive units 21Y, 21M and 21C, the primary roller 41 of the photosensitive unit 21K will capture a Large amount of paper dust.
Therefore, the photosensitive unit 21K includes both of the primary and secondary rollers 41 and 42. Thus, in the photosensitive unit 21K, the primary roller 41 is capable of reliably capturing a large amount of paper dust on the surface of the photosensitive drum 5 while the ability of the primary roller 41 to capture the paper dust on the surface of the photosensitive drum 5 is restored by the secondary roller 42.
On the other hand, unlike the primary roller 41 of the photosensitive unit 21K, the primary rollers 41 of the photosensitive units 21Y, 21M and 21C will hardly capture paper dust. This is because the paper dust of the sheet S, which will be adhered to the photosensitive drum 5, is mostly adhered to the photosensitive drum 5 of the photosensitive unit 21K located at the upstream side of the conveyance direction. Accordingly, the photosensitive units 21Y, 21M and 21C each include only the primary roller 41 instead of including both of the primary and secondary rollers 41 and 42.
In other words, in each of the photosensitive units 21K, 21Y, 21M and 21C, settings are made to provide both of the primary and secondary rollers 41 and 42 or provide only the primary roller 41 in an unwasteful manner depending on whether or not paper dust can be adhered to the surface of the photosensitive drum 5.
As a result, the number of components in the tandem photosensitive unit 4 can be reduce, and a size of the tandem photosensitive unit 4 can be reduced.
For example, due to the structure for sheet conveyance, the sheet S on which toner images of all colors have been transferred may go up toward the fixing device 13 at the most downstream side (most rearward position) in the direction of conveyance by the belt 11. In the exemplary embodiment, the photosensitive unit 21C located at the most downstream side in the conveyance direction does not include the secondary roller 42 and the storage chamber 47 (see the photosensitive unit 21K for comparison purposes). Accordingly, a size in the front-back direction thereof can be reduced. Therefore, the photosensitive unit 21C will not inhibit the conveyance of the sheet S that will go up, and unfixed toner of the sheet S can be prevented from being adhered to the photosensitive unit 21C.
(3) Modification to Exemplary Embodiments
In the above-described exemplary embodiment, the guide member 70 (see
In such a case, the relative positions of the photosensitive drum 5 held by the first frame 35 (in this case, the unit frame 20 of the tandem photosensitive unit 4 shown in FIG, 1 is also regarded as the first frame 35) and the guide member 70 are stabilized. Thus, the guide member 70 is capable of accurately guiding the primary bearing member 59 in the pressing direction X, which is the direction extending toward the photosensitive drum 5 (see
While the present invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
2009-111857 | May 2009 | JP | national |