This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2016-126521 filed on Jun. 27, 2016, the entire contents of which are incorporated herein by reference.
The present disclosure relates to an image forming apparatus that can convey waste toner removed from a photoconductor drum, to a waste toner container.
In an electrophotographic image forming apparatus, a cleaning device removes waste toner from a photoconductor drum. In addition, a color image forming apparatus of a tandem type includes a plurality of cleaning devices that remove waste toner respectively from a plurality of photoconductor drums and an intermediate transfer belt.
The cleaning device uses, for example, conveyance screws that are disposed along the longitudinal direction of the photoconductor drums so as to convey the waste toner to one of opposite ends of the photoconductor drums that oppose to each other in the longitudinal direction.
In addition, there is known a color image forming apparatus in which a plurality of conveyance belts convey the waste toner from end portions of a plurality of cleaning devices to a plurality of waste toner containers that are disposed above the plurality of cleaning devices.
An image forming apparatus according to an aspect of the present disclosure includes a photoconductor drum, a drum cleaning device, a waste toner container, a toner guide member, a first paddle conveyance member, and a second paddle conveyance member. The drum cleaning device removes drum waste toner that is toner that has remained on a surface of the photoconductor drum after a toner image was transferred from the surface of the photoconductor drum to a transferred member, and conveys the drum waste toner to an end portion thereof disposed at one of opposite ends of the photoconductor drum that oppose to each other in a longitudinal direction of the photoconductor drum. The waste toner container includes a toner introduction port that is located below the end portion of the drum cleaning device and opened upward, and the waste toner container stores the drum waste toner that enters therein through the toner introduction port. The toner guide member includes a toner discharge port that is located above and faces the toner introduction port of the waste toner container, and the toner guide member forms, in its inside, a passage of the drum waste toner from the end portion of the drum cleaning device to the toner discharge port. The first paddle conveyance member includes a first shaft portion and a plurality of first blade portions that extend out from the first shaft portion, the first paddle conveyance member being configured to convey the drum waste toner that has dropped from the end portion of the drum cleaning device, downward by rotating around the first shaft portion in a first rotation direction in the toner guide member. The second paddle conveyance member includes a second shaft portion and a plurality of second blade portions that extend out from the second shaft portion, the second paddle conveyance member being configured to further convey the drum waste toner conveyed by the first paddle conveyance member, downward toward the toner discharge port by rotating around the second shaft portion in a second rotation direction that is opposite to the first rotation direction, at a position lower than the first paddle conveyance member in the toner guide member. A pivotal trajectory of the plurality of first blade portions partially overlaps with a pivotal trajectory of the plurality of second blade portions.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description with reference where appropriate to the accompanying drawings. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Furthermore, the claimed subject matter is not limited to implementations that solve any or all disadvantages noted in any part of this disclosure.
The following describes an embodiment of the present disclosure with reference to the accompanying drawings. It should be noted that the following embodiment is an example of a specific embodiment of the present disclosure and should not limit the technical scope of the present disclosure.
An image forming apparatus 10 according to the present embodiment is configured to form an image on a sheet by an electrophotographic system. The sheet is a sheet-like image formation medium such as a sheet of paper or an envelope.
It is noted that, for the sake of convenience, directions are defined as follows. An up-down direction D0 is defined as the vertical direction in a state where the image forming apparatus 10 is installed usably. A first lateral direction D1 is defined as the width direction of a sheet tray 1x to which a sheet with an image formed thereon is discharged. A second lateral direction D2 is defined as a horizontal direction perpendicular to the first lateral direction D1.
[Configuration of Image Forming Apparatus 10]
As shown in
The printing device 40 executes an image forming process of forming a toner image on the sheet. The printing device 40 executes the image forming process by using a two-component developer 9 that includes toner 9a and carrier 9b. The carrier 9b is a granular material having magnetism.
The printing device 40 includes an image creating device 4. The image creating device 4 includes a photoconductor 41, a charging device 42, a developing device 43, and a drum cleaning device 45. The photoconductor 41 is drum-like. It is noted that the photoconductor 41 corresponds to the photoconductor drum.
The image forming apparatus 10 shown in
As shown in
The image forming apparatus 10 includes four image creating devices 4 and four belt transfer devices 54 both corresponding to the toner 9a of four colors yellow, cyan, magenta, and black. The four image creating devices 4 are arranged along a forward direction of a lower surface of the intermediate transfer belt 51. The lower surface of the intermediate transfer belt 51 contacts a plurality of photoconductors 41.
The replenishing toner container 61 stores the toner 9a that is supplied to the developing device 43. As described below, the replenishing toner container 61 and the waste toner container 62 are integrally formed as a toner container 6 (see
The sheet supply device 2 feeds a sheet to a sheet conveyance path 30 provided in the main body portion 1, and the sheet conveying device 3 conveys the sheet along the sheet conveyance path 30.
The photoconductor 41 rotates, and the charging device 42 charges the surface of the photoconductor 41. Furthermore, the laser scanning unit 46 writes an electrostatic latent image on the surface of the photoconductor 41 by scanning the surface with a laser beam.
The developing device 43 develops the electrostatic latent image as an image of the toner 9a by using the developer 9. The belt transfer devices 54 then transfers the toner image from the surface of the photoconductor 41 to the intermediate transfer belt 51.
Toner images of the plurality of colors are transferred from the plurality of photoconductors 41 to the intermediate transfer belt 51 such that a color toner image is formed on the lower surface of the intermediate transfer belt 51.
The intermediate transfer belt 51 carries the toner images transferred from the plurality of photoconductors 41 to a position where the color toner image is transferred to the sheet.
It is noted that the photoconductor 41 and the intermediate transfer belt 51 are each an example of the image carrying member that carries an image of the toner 9a. In addition, the intermediate transfer belt 51 is an example of the transferred member to which the toner images are transferred from the surfaces of the photoconductors 41.
As shown in
The developing device 43 shown in
The developing tank 430 has a toner replenishing port 43a that is an opening facing a replenishing toner discharge port 61a of the replenishing toner container 61 from below. The toner 9a is supplied into the developing tank 430 from the replenishing toner container 61 via the replenishing toner discharge port 61a and the toner replenishing port 43a.
The stirring screw 435 cyclically conveys, while stirring, the developer 9 in the developing tank 430. The magnetic roller 431 carries the two-component developer 9 on its circumferential surface by the magnetic force of the magnet 432 provided in its inside.
The blade 434 restricts, in thickness, the layer of the developer 9 carried by the magnetic roller 431. The magnetic roller 431 supplies the toner 9a among the developer 9 it carries, to the developing roller 433.
The developing roller 433 carries the toner 9a supplied from the magnetic roller 431, on its circumferential surface, and supplies the toner 9a to the electrostatic latent image on the surface of the photoconductor 41. This allows the developing roller 433 to develop the electrostatic latent image as the toner image.
A sheet transfer device 48 transfers the toner image formed on the intermediate transfer belt 51, to the sheet conveyed along the sheet conveyance path 30. The fixing device 49 fixes the toner image to the sheet by heating. The sheet that has passed through the fixing device 49 and has an image formed thereon, is discharged to the sheet tray 1x provided on an upper portion of the main body portion 1.
As shown in
The cleaning blade 451 removes toner 9a that has remained on the surface of the photoconductor 41 after the toner image was transferred to the intermediate transfer belt 51. Hereinafter, the toner 9a removed from the photoconductor 41 by the drum cleaning device 45 is referred to as drum waste toner 9x (see
Furthermore, the conveyance screw 452 conveys the drum waste toner 9x to an end portion 45a that is at one of opposite ends of the drum cleaning device 45 that oppose to each other in the first lateral direction D1 (see
It is noted that the first lateral direction D1 corresponds to the longitudinal direction of the photoconductor 41. In addition, the end portion 45a of the drum cleaning device 45 corresponds to an end portion of the main body portion 1 to which the toner container 6 is attached.
The belt cleaning device 53 includes a housing 530, a cleaning roller 531, and a conveyance screw 532, wherein the cleaning roller 531 and the conveyance screw 532 are disposed in the housing 530 (see
The cleaning roller 531 rotates while contacting the surface of the intermediate transfer belt 51. With this configuration, the cleaning roller 531 removes toner 9a that has remained on the intermediate transfer belt 51 after the toner image was transferred therefrom to the sheet.
Hereinafter, the toner 9a removed from the intermediate transfer belt 51 by the belt cleaning device 53 is referred to as belt waste toner 9y (see
The conveyance screw 532 of the belt cleaning device 53 conveys the belt waste toner 9y to an end portion 53a that is at one of opposite ends of the belt cleaning device 53 that oppose to each other in the first lateral direction D1 (see
It is noted that the first lateral direction D1 corresponds to the longitudinal direction of the photoconductor 41 and the longitudinal direction of the belt cleaning device 53. In addition, the end portion 45a of the drum cleaning device 45 and the end portion 53a of the belt cleaning device 53 correspond to the end portion of the main body portion 1 to which the toner container 6 is attached.
[Toner Container 6]
As shown in
Furthermore, the replenishing toner container 61 includes a toner stirring member 611 that stirs the toner 9a in the replenishing toner container 61 by rotating.
The replenishing toner container 61 includes a toner replenishing duct 612 that has the replenishing toner discharge port 61a that is opened downward. The toner replenishing duct 612 forms a passage of the toner 9a that extends from the replenishing toner storage chamber 610 to the replenishing toner discharge port 61a.
A toner replenishing screw 613 is provided in the toner replenishing duct 612 (see
The toner replenishing screw 613 rotates as a link portion 613a that is provided at an end thereof, is rotationally driven, and the toner replenishing screw 613 conveys the toner 9a stored in the replenishing toner storage chamber 610, to the replenishing toner discharge port 61a.
As shown in
The waste toner container 62 includes a toner introduction duct 621 that has a toner introduction port 62a that is opened upward. The toner introduction duct 621 forms a passage of the drum waste toner 9x that extends from the toner introduction port 62a to the waste toner storage chamber 620.
A toner introduction screw 622 is provided in the toner introduction duct 621 (see
The toner introduction screw 622 rotates as a link portion 622a that is provided at an end thereof, is rotationally driven, and conveys the drum waste toner 9x that has entered through the toner introduction port 62a, to the waste toner storage chamber 620.
As shown in
Meanwhile, in a case where the waste toner 90 is conveyed by the conveyance belt, the hollow portion and the space for the return path of the loop conveyance belt are wasteful spaces.
In addition, although the conveyance screw can convey the waste toner 90 efficiently, it is often difficult to dispose the conveyance screw between the waste toner container 62 and the drum cleaning device 45 and the belt cleaning device 53 when the layout of the parts such as the motor and the gear in the apparatus is taken into consideration.
On the other hand, in the image forming apparatus 10, satisfying both the miniaturization of the apparatus and the efficient conveyance of the waste toner 90 from the drum cleaning device 45 and the belt cleaning device 53 to the waste toner container 62 is demanded.
The image forming apparatus 10 includes a waste toner conveyance mechanism 7 and a relay guide member 100 that are described below. With this configuration, the image forming apparatus 10 can satisfy both the miniaturization of the apparatus and the efficient conveyance of the waste toner 90 from the drum cleaning device 45 and the belt cleaning device 53 to the waste toner container 62.
[Waste Toner Conveyance Mechanism 7]
As shown in
The photoconductor 41, the charging device 42, the drum cleaning device 45, and the waste toner conveyance mechanism 7 are unitized as a drum unit 410. The image forming apparatus 10 is the tandem type and includes four drum units 410 that correspond to the four colors of the toner 9a. The intermediate transfer belt 51 is disposed above the plurality of drum units 410.
In the present embodiment, a drum unit 410 for black among the four drum units 410 is disposed on the most downstream side in the forward direction of the lower surface of the intermediate transfer belt 51, namely, disposed closest to the sheet transfer device 48. In addition, the belt cleaning device 53 is disposed to face a portion of the upper surface of the intermediate transfer belt 51 that is close to the sheet transfer device 48.
As a result, among the four drum units 410, the drum unit 410 corresponding to the black toner 9a is disposed closest to the belt cleaning device 53.
In the following description, for the sake of distinction, the drum unit 410 closest to the belt cleaning device 53 may be referred to as a specific drum unit 410y, and the other three drum units 410 may be referred to as standard drum units 410x (see
In addition, the four toner containers 6 include a specific toner container 6y and three standard toner containers 6x, wherein the specific toner container 6y corresponds to the specific drum unit 410y, and the three standard toner containers 6x correspond to the three standard drum units 410x (see
The three standard toner containers 6x and the specific toner container 6y have the same structure. However, the specific toner container 6y is larger in size than the three standard toner containers 6x.
Furthermore, the four waste toner conveyance mechanisms 7 are composed of a specific waste toner conveyance mechanism 7y and three standard waste toner conveyance mechanisms 7x, wherein the specific waste toner conveyance mechanism 7y constitutes a part of the specific drum unit 410y and the three standard waste toner conveyance mechanisms 7x constitute a part of the three standard drum units 410x (see
The specific waste toner conveyance mechanism 7y has some additional components compared to the standard waste toner conveyance mechanism 7x. The following describes the structure and function of the waste toner conveyance mechanism 7 that are common to the standard waste toner conveyance mechanisms 7x and the specific waste toner conveyance mechanism 7y.
The waste toner conveyance mechanism 7 conveys drum waste toner 9x that has been conveyed by the drum cleaning device 45 to the end portion 45a of the drum cleaning device 45, toward the toner introduction port 62a of the waste toner container 62 that is located below the end portion 45a. In the present embodiment, the toner introduction port 62a of the waste toner container 62 is located diagonally below the end portion 45a of the drum cleaning device 45.
As shown in
The toner guide member 70 is a housing including a toner discharge port 70a that is located above and faces the toner introduction port 62a of the waste toner container 62. For example, the toner guide member 70 is composed of a plurality of resin members.
The toner guide member 70 forms, in its inside, a passage of the drum waste toner 9x from the end portion 45a of the drum cleaning device 45 to the toner discharge port 70a.
The first paddle conveyance member 71 includes a first shaft portion 711 and a plurality of first blade portions 712 that extend out from the first shaft portion 711. In the example shown in
The first paddle conveyance member 71 is supported so as to be rotatable in the toner guide member 70. For example, the toner guide member 70 includes a bearing portion (not shown) that supports the first shaft portion 711.
The first paddle conveyance member 71 conveys drum waste toner 9x that has dropped from the end portion 45a of the drum cleaning device 45, downward by rotating around the first shaft portion 711 in a first rotation direction R1.
The second paddle conveyance member 72 includes a second shaft portion 721 and a plurality of second blade portions 722 that extend out from the second shaft portion 721. In the example shown in
The second paddle conveyance member 72 is rotatably supported in the toner guide member 70 at a lower position on the downstream side in a conveyance direction of the drum waste toner 9x with respect to the first paddle conveyance member 71. For example, the toner guide member 70 includes a bearing portion (not shown) that supports the second shaft portion 721.
In the present embodiment, the first paddle conveyance member 71 and the second paddle conveyance member 72 are arranged along a direction directed from the end portion 45a of the drum cleaning device 45 to the toner discharge port 70a that is located diagonally below the end portion 45a (
The second paddle conveyance member 72 further conveys the drum waste toner 9x conveyed by the first paddle conveyance member 71, downward toward the toner discharge port 70a by rotating around the second shaft portion 721 in a second rotation direction R2 that is opposite to the first rotation direction R1.
In the example shown in
The conveyance screw 452, the first paddle conveyance member 71, and the second paddle conveyance member 72 rotate in conjunction with each other by the action of the gears 700, 701, and 702. In addition, with the configuration where the two gears 701 and 702 that are directly connected with the first shaft portion 711 and the second shaft portion 721 respectively, mesh with each other, the first paddle conveyance member 71 and the second paddle conveyance member 72 rotate in opposite directions.
In addition, as shown in
In addition, one of the first paddle conveyance member 71 and the second paddle conveyance member 72 may rotate at a speed that is a multiple of two or more integers of the speed of the other.
In the waste toner conveyance mechanism 7, with adoption of the plurality of first blade portions 712 and the plurality of second blade portions 722 that have a relatively large area, it is possible to convey the drum waste toner 9x from the end portion 45a of the drum cleaning device 45 to the toner introduction port 62a of the waste toner container 62 efficiently.
The first paddle conveyance member 71 and the second paddle conveyance member 72 are disposed as close to each other as their pivotal trajectory 71a and pivotal trajectory 72a overlap with each other. As a result, with adoption of the waste toner conveyance mechanism 7, both the miniaturization of the image forming apparatus 10 and the efficient conveyance of the drum waste toner 9x from the end portion 45a of the drum cleaning device 45 to the toner introduction port 62a of the waste toner container 62 are satisfied.
In addition, as shown in
Furthermore, the toner guide member 70 includes a first inclined curved surface 70b that is formed in the circumference of the first paddle conveyance member 71 in a range extending from a position close to the end portion 45a of the drum cleaning device 45 to another position located diagonally below the position. The first inclined curved surface 70b is formed along the outer edge of the pivotal trajectory 71a of the plurality of first blade portions 712.
The first rotation direction R1 matches a direction in which the forward ends of the plurality of first blade portions 712 pivot from the upper end side of the first inclined curved surface 70b to the lower end side (see
With the adoption of the first rotation direction R1, the plurality of first blade portions 712 scrape off the drum waste toner 9x that has dropped from the end portion 45a of the drum cleaning device 45, downward along the first inclined curved surface 70b. This allows the drum waste toner 9x to be conveyed smoothly downward.
In addition, the toner guide member 70 further includes a second inclined curved surface 70c that is formed in the circumference of the second paddle conveyance member 72 in a range extending from a position close to the first inclined curved surface 70b to another position located diagonally below the position. The second inclined curved surface 70c is formed along the outer edge of the pivotal trajectory 72a of the plurality of second blade portions 722.
The second rotation direction R2 matches a direction in which the forward ends of the plurality of second blade portions 722 pivot from the lower end side of the second inclined curved surface 70c to the upper end side (see
In the example shown in
It is noted that when two first blade portions 712 and two second blade portions 722 are provided, the conveyance efficiency of the drum waste toner 9x is not impaired, and it is possible to prevent the drum waste toner 9x from clogging between the plurality of first blade portions 712 and between the plurality of second blade portions 722.
In addition, although not shown, one of the first paddle conveyance member 71 and the second paddle conveyance member 72 may extend out from the shaft portion by a larger size than the other. In that case, the one of the first paddle conveyance member 71 and the second paddle conveyance member 72 that has a larger extension size than the other may rotate at a slower speed than the other.
As a specific example of the above, the plurality of first blade portions 712 may extend out from the first shaft portions 711 by a larger size than the plurality of second blade portions 722 extending out from the second shaft portions 721. In that case, the second paddle conveyance member 72 may rotate at a speed that is a multiple of two or more integers of the speed of the first paddle conveyance member 71.
When one of the first paddle conveyance member 71 and the second paddle conveyance member 72 that has a more circumferential space than the other, has a larger extension size than the other, it is possible to convey the drum waste toner 9x from the end portion 45a of the drum cleaning device 45 to a farther position.
Furthermore, with the configuration where one of the first paddle conveyance member 71 and the second paddle conveyance member 72 that has a larger extension size than the other rotates at a lower speed than the other, it is possible to prevent an unbalance in conveyance amount of the drum waste toner 9x from being generated between the first paddle conveyance member 71 and the second paddle conveyance member 72.
[Relay Guide Member 100 and Specific Waste Toner Conveyance Mechanism 7y]
Next, the relay guide member 100 and the specific waste toner conveyance mechanism 7y are described with reference to
As shown in
As shown in
It is noted that as shown in
Furthermore, as shown in
The relay guide member 100 includes a relay discharge port 103 that is an opening that is located above and faces the relay receiving port 70d. The relay guide member 100 is a duct that forms a passage 101 of the belt waste toner 9y, the passage 101 extending from the end portion 53a of the belt cleaning device 53 to the relay discharge port 103.
The belt waste toner 9y is conveyed to the end portion 53a of the belt cleaning device 53, then passes the passage 101 in the relay guide member 100, the relay discharge port 103, and the relay receiving port 70d, and then drops on the first paddle conveyance member 71 of the specific waste toner conveyance mechanism 7y.
As described above, the first paddle conveyance member 71 and the second paddle conveyance member 72 of the specific drum unit 410y convey the drum waste toner 9x and the belt waste toner 9y. Furthermore, the waste toner container 62 of the specific toner container 6y stores the drum waste toner 9x and the belt waste toner 9y. It is noted that the waste toner container 62 of the specific toner container 6y corresponds to the specific drum unit 410y.
According to the present embodiment, a conveyance mechanism and a container that are dedicated to the belt waste toner 9y are not necessary. Accordingly, the mechanism for conveying the waste toner 90 can have a simple structure.
In addition, as shown in
A second end portion 732 disposed opposite to the first end portion 731 fixed to the flexible member 73 is a free end. The second end portion 732 contacts the plurality of first blade portions 712 of the first paddle conveyance member 71 as the first blade portions 712 rotate.
The flexible member 73 swings in a space between the relay receiving port 70d and the first paddle conveyance member 71, according to the rotation of the first paddle conveyance member 71. Thus, a dedicated driving mechanism for swinging the flexible member 73 is not necessary.
In a case where a movable member is not present between the end portion 53a of the belt cleaning device 53 and the first paddle conveyance member 71, there is a possibility that, in an upper portion of the first paddle conveyance member 71, the belt waste toner 9y adheres to the inner surface of the toner guide member 70 and accumulates thereon.
The flexible member 73 prevents the belt waste toner 9y from accumulating on the inner surface of the toner guide member 70 in a state of adhering thereto. Even in a case where the belt waste toner 9y has accumulated thereon, the flexible member 73 contacts a lower portion of a block of the belt waste toner 9y, and the accumulated belt waste toner 9y crumbles down. With this configuration, it is possible to prevent the passage of the belt waste toner 9y from being closed.
The standard waste toner conveyance mechanism 7x of the image forming apparatus 10 described above may be applied to a monochrome image forming apparatus that does not include the intermediate transfer belt 51 and the belt cleaning device 53.
The waste toner conveyance mechanism 7 may include a third paddle conveyance member disposed below the second paddle conveyance member 72. In that case, the third paddle conveyance member rotates in an opposite direction to the second paddle conveyance member 72, and a pivotal trajectory of a blade portion of the third paddle conveyance member partially overlaps with that of the second paddle conveyance member 72. In addition, the waste toner conveyance mechanism 7 may include one or more paddle conveyance members on the downstream side of the third paddle conveyance member.
Furthermore, in the image forming apparatus 10, the replenishing toner container 61 and the waste toner container 62 may be provided as separate entities.
It is noted that the image forming apparatus of the present disclosure may be configured by freely combining, within the scope of claims, the above-described embodiments and application examples, or by modifying the embodiments and application examples or omitting a part thereof.
It is to be understood that the embodiments herein are illustrative and not restrictive, since the scope of the disclosure is defined by the appended claims rather than by the description preceding them, and all changes that fall within metes and bounds of the claims, or equivalence of such metes and bounds thereof are therefore intended to be embraced by the claims.
Number | Date | Country | Kind |
---|---|---|---|
2016-126521 | Jun 2016 | JP | national |