This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2015-092656 filed Apr. 30, 2015.
The present invention relates to an image forming apparatus.
According to an aspect of the invention, there is provided an image forming apparatus including an apparatus body; plural developing devices arranged in a first direction in the apparatus body; plural developer housing containers that house developers to be respectively supplied to the plural developing devices, the plural developer housing containers being arranged in a second direction intersecting with the first direction; plural transport devices that respectively transport the developers to the plural developing devices respectively corresponding to the plural developer housing containers from the plural developer housing containers; an intermediate transfer body on which developer images developed by the plural developing devices are transferred; and a transfer device that transfers the developer images from the intermediate transfer body to a recording medium. The plural developing devices include a first developing device located near the transfer device, and a second developing device located farther from the transfer device than the first developing device. The plural transport devices include a first transport device that transports a developer to the first developing device, and a second transport device that transports a developer to the second developing device. A transport distance by which the first transport device transports the developer is larger than a transport distance by which the second transport device transports the developer.
An exemplary embodiment of the present invention will be described in detail based on the following figures, wherein:
Next, an exemplary embodiment of the present invention is described with reference to the drawings.
As shown in
An opening/closing portion 20 is attached to a surface at the front side of the apparatus body 12. The opening/closing portion 20 is openable and closable with respect to the apparatus body 12. The opening/closing portion 20 rotates around a shaft member 22 as indicated by an arrow a and hence may be opened and closed with respect to the apparatus body 12 (see
The image forming apparatus 10 includes a sheet housing portion 600. The sheet housing portion 600 is used as a recording medium housing portion. The sheet housing portion 600 may be pulled out toward the front side from the apparatus body 12 as indicated by an arrow b1. The sheet housing portion 600 may be pushed toward the rear side into the apparatus body 12 as indicated by an arrow b2. Thus, the sheet housing portion 600 is mounted to the apparatus body 12.
The image forming apparatus 10 further includes an image forming section 100 and a fixing device 500. A sheet transport path 700 is formed in the apparatus body 12.
The image forming section 100 includes an intermediate transfer belt 110. On the intermediate transfer belt 110, toner images (developer images) respectively formed by developing devices 150Y, 150M, 150C, and 150K (described later) are transferred. The intermediate transfer belt 110 is supported by, for example, two support rollers 112 and 114, and rotates in an arrow c direction.
The image forming section 100 includes plural, for example, four image forming units 140. To be more specific, the image forming section 100 includes an image forming unit 140Y that forms a toner image of yellow color (hereinafter, referred to as yellow toner image), an image forming unit 140M that forms a toner image of magenta color (hereinafter, referred to as magenta toner image), an image forming unit 140C that forms a toner image of cyan color (hereinafter, referred to as cyan toner image), and an image forming unit 140K that forms a toner image of black color (hereinafter, referred to as black toner image).
The image forming units 140Y, 140M, 140C, and 140K respectively include photoconductor drums 142Y, 142M, 142C, and 142K used as image holding bodies, and respectively include the developing devices 150Y, 150M, 150C, and 150K. In this case, a direction, in which the developing devices 150Y, 150M, 150C, and 150K are arranged, indicated by an arrow d (see
The image forming section 100 further includes first transfer rollers 120Y, 120M, 120C, and 120K. The first transfer rollers 120Y, 120M, 120C, and 120K transfer toner images respectively formed by the photoconductor drums 142Y, 142M, 142C, and 142K, on the intermediate transfer belt 110.
The sheet transport path 700 includes a main transport path 710 and a reverse transport path 750. The main transport path 710 is a transport path for transporting a sheet from the above-described sheet housing portion 600 to the above-described output portion 16. A sending roller 610, a registration roller 712, a second transfer roller 122, the fixing device 500, and an output roller 716 are arranged along the main transport path 710 in the order from the upstream side in a sheet transport direction.
The sending roller 610 sends out a sheet at the top of sheets housed in the sheet housing portion 600 to the sheet transport path 700. The registration roller 712 temporarily stops movement of the leading edge of the sheet sent out by the sending roller 610, and re-starts the movement of the leading edge of the sheet to meet a timing at which an image transferred on the intermediate transfer belt 110 reaches the position of the second transfer roller 122.
The second transfer roller 122 is used as a transfer device that transfers a toner image from the intermediate transfer belt 110 to a sheet. The second transfer roller 122 transfers the toner image to the sheet supplied from the registration roller 712.
The fixing device 500 fixes the toner image transferred on the sheet by the second transfer roller 122 to the sheet by using, for example, heat and pressure. The fixing device 500 includes, for example, a heating roller 502 and a pressing roller 504.
The output roller 716 outputs the sheet with the toner image fixed by the fixing device 500, to the output portion 16. However, after the toner image is formed on one surface of the sheet, if a toner image is also formed on the other surface of the sheet, the output roller 716 rotates in the opposite direction at a timing when a portion near the trailing edge of the sheet reaches the position at which the sheet contacts the output roller 716, and the sheet having the toner image formed on the one surface is sent to the reverse transport path 750 from the trailing edge side.
The reverse transport path 750 is a transport path for transporting the sheet having the toner image formed on the one surface toward the upstream side of the registration roller 712 in the main transport path 710 while reversing the sheet. For example, two transport rollers 752 are arranged along the reverse transport path 750. The sheet sent out from the output roller 716 to the reverse transport path 750 is transported to the main transport path 710 by the transport rollers 752.
The image forming apparatus 10 includes, for example, four toner housing containers 200, the number of which is equivalent to the number of the developing devices 150. To be more specific, the image forming apparatus 10 includes toner housing containers 200Y, 200M, 200C, and 200K (
The toner housing containers 200Y, 200M, 200C, and 200K are arranged below the output portion 16 in the gravity direction (also see
The image forming apparatus 10 includes an attachment device 280 to which the toner housing containers 200Y, 200M, 200C, and 200K are attached.
The image forming apparatus 10 includes, for example, four toner transport devices 300, the number of which is equivalent to the number of the developing devices 150 and the number of the toner housing containers 200. To be more specific, the image forming apparatus 10 includes toner transport devices 300Y, 300M, 300C, and 300K. The toner transport device 300Y transports the yellow toner from the toner housing container 200Y to the developing device 150Y, the toner transport device 300M transports the magenta toner from the toner housing container 200M to the developing device 150M, the toner transport device 300C transports the cyan toner from the toner housing container 200C to the developing device 150C, and the toner transport device 300K transports the black toner from the toner housing container 200K to the developing device 150K. The details of the toner transport devices 300Y, 300M, 300C, and 300K are described later.
As shown in
The developing devices 150Y, 150M, 150C, and 150K are arranged in the first direction indicated by the arrow d as described above. The toner housing containers 200Y, 200M, 200C, and 200K are arranged in the second direction indicated by the arrow e as described above. The second direction intersects with the first direction as shown in
The order in the first direction of the colors of the developer images respectively formed by the developing devices 150Y, 150M, 150C, and 150K and the order in the second direction of the colors of the toners (the developers) respectively housed in the toner housing containers 200Y, 200M, 200C, and 200K are the order of yellow, magenta, cyan, and black, and hence are the same.
The toner housing containers 200Y, 200M, 200C, and 200K are moved in a direction indicated by an arrow f1 and detached from the apparatus body 12, in a direction the same as the direction indicated by the arrow b1 in which the sheet housing portion 600 is pulled out from the apparatus body 12; and the toner housing containers 200Y, 200M, 200C, and 200K are moved in a direction indicated by an arrow f2 and attached to the apparatus body 12, in a direction opposite to the direction indicated by the arrow b1 in which the sheet housing portion 600 is pulled out from the apparatus body 12.
The toner housing containers 200Y, 200M, 200C, and 200K are moved in the direction indicated by the arrow f1 and detached from the apparatus body 12, in a direction the same as an arrow g in
As shown in
A discharge port in the toner housing container 200M from which the magenta toner is discharged is a discharge port 204M (not shown), a discharge port in the toner housing container 200C from which the cyan toner is discharged is a discharge port 204C (not shown), and a discharge port in the toner housing container 200K from which the black toner is discharged is a discharge port 204K (see
The upstream transport portion 310K has an insertion opening 312K formed at a position at the front side and facing the upper side. The black toner discharged from the discharge port 204K (see
The one end portion of the intermediate transport portion 320K is coupled to the upstream transport portion 310K, and the other end portion thereof is coupled to the downstream transport portion 330K. The intermediate transport portion 320K transports the black toner transported from the upstream transport portion 310K to the downstream transport portion 330K.
An upper end portion of the downstream transport portion 330K is coupled to the intermediate transport portion 320K, and a developing device connection portion 340K is attached to a lower end portion of the downstream transport portion 330K. The developing device connection portion 340K is a mechanism to which the developing device 150K (for example, see
The toner transport device 300C includes an upstream transport portion 310C, an intermediate transport portion 320C, and a downstream transport portion 330C. The upstream transport portion 310C, the intermediate transport portion 320C, and the downstream transport portion 330C each have a pipe shape, and transport the cyan toner by guiding the cyan toner through the pipes.
The upstream transport portion 310C has an insertion opening 312C formed at a position at the front side and facing the upper side. The cyan toner discharged from the discharge port 204C (not shown, see the discharge port 204Y shown in
The one end portion of the intermediate transport portion 320C is coupled to the upstream transport portion 310C, and the other end portion thereof is coupled to the downstream transport portion 330C. The intermediate transport portion 320C transports the cyan toner transported from the upstream transport portion 310C to the downstream transport portion 330C.
An upper end portion of the downstream transport portion 330C is coupled to the intermediate transport portion 320C, and a developing device connection portion 340C is attached to a lower end portion of the downstream transport portion 330C. The developing device connection portion 340C is a mechanism to which the developing device 150C (for example, see
The toner transport device 300M includes an upstream transport portion 310M, an intermediate transport portion 320M, and a downstream transport portion 330M. The upstream transport portion 310M, the intermediate transport portion 320M, and the downstream transport portion 330M each have a pipe shape, and transport the magenta toner by guiding the magenta toner through the pipes.
The upstream transport portion 310M has an insertion opening 312M formed at a position at the front side and facing the upper side. The magenta toner discharged from the discharge port 204M (not shown, see the discharge port 204Y shown in
The one end portion of the intermediate transport portion 320M is coupled to the upstream transport portion 310M, and the other end portion thereof is coupled to the downstream transport portion 330M. The intermediate transport portion 320M transports the magenta toner transported from the upstream transport portion 310M to the downstream transport portion 330M.
An upper end portion of the downstream transport portion 330M is coupled to the intermediate transport portion 320M, and a developing device connection portion 340M is attached to a lower end portion of the downstream transport portion 330M. The developing device connection portion 340M is a mechanism to which the developing device 150M (for example, see
As described above, the toner transport devices 300M, 300C, and 300K respectively include the intermediate transport portions 320M, 320C, and 320K. In contrast, the toner transport device 300Y does not include an intermediate transport portion, and includes an upstream transport portion 310Y and a downstream transport portion 330Y. To be more specific, the toner transport device 300Y includes the pipe-shaped upstream transport portion 310Y and the pipe-shaped downstream transport portion 330Y, and transports the yellow toner by guiding the yellow toner through the pipes.
The upstream transport portion 310Y has an insertion opening 312Y formed at a position at the rear side in the arrangement in the apparatus body 12 and facing the upper side. The yellow toner discharged from the discharge port 204Y (see
An upper end portion of the downstream transport portion 330Y is coupled to the upstream transport portion 310Y, and a developing device connection portion 340Y is attached to a lower end portion of the downstream transport portion 330Y. The developing device connection portion 340Y is a mechanism to which the developing device 150Y (for example, see
The rotational body 314Y has a shaft portion formed with the spiral-shaped protruding portion, and the thickness of the shaft portion is different depending on the position. Since the thickness of the shaft portion is different depending on the position, the upstream transport portion 310Y is able to adjust the amount of the yellow toner to be supplied to the downstream transport portion 330Y.
The upstream transport portion 310K has the rotational body 314K and the upstream transport portion 310Y has the rotational body 314Y. Similarly, the upstream transport portion 310M has a rotational body 314M (not shown), and the upstream transport portion 310C has a rotational body 314C (not shown). The rotational body 314M transports the magenta toner from the front side to the rear side. The rotational body 314C transports the cyan toner from the front side to the rear side.
The breaking member 332K may use, for example, a member formed by bending a long and thin rod-shaped member in a spiral shape. An upper end portion of the breaking member 332K is coupled to, for example, the rotational body 322K. Hence, when the rotational body 322K rotates, the breaking member 332K repetitively moves in the up-down direction. When the breaking member 332K repetitively moves in the up-down direction, the black toner solidified in the downstream transport portion 330K is broken.
The downstream transport portion 330K has the breaking member 332K. Similarly, the downstream transport portion 330Y has a breaking member 332Y (not shown), the downstream transport portion 330M has a breaking member 332M (not shown), and the downstream transport portion 330C has a breaking member 332C (not shown). The breaking member 332Y repetitively moves in the up-down direction and hence breaks the yellow toner solidified in the downstream transport portion 330Y. The breaking member 332M repetitively moves in the up-down direction and hence breaks the magenta toner solidified in the downstream transport portion 330M. The breaking member 332C repetitively moves in the up-down direction and hence breaks the cyan toner solidified in the downstream transport portion 330C.
In the toner transport devices 300Y, 300M, 300C, and 300K configured as described above, the upstream transport portions 310Y, 310M, 310C, and 310K are arranged in parallel to each other, and are used as parallel transport portions. At least one of the upstream transport portions 310Y, 310M, 310C, and 310K transports the toner in the direction opposite to the directions of the other transport portions. To be more specific, in this exemplary embodiment, the upstream transport portion 310Y transports the toner from the rear side to the front side (from the right side to the left side in
Also, the upstream transport portions 310Y, 310M, 310C, and 310K are arranged along the longitudinal directions of the toner housing containers 200Y, 200M, 200C, and 200K.
Also, the distances by which the toner transport devices 300Y, 300M, 300C, and 300K transport the developers are longer as the distances by which the toner transport devices 300Y, 300M, 300C, and 300K transport the developers to the developing devices 150Y, 150M, 150C, and 150K at smaller distances from the second transfer roller 122.
That is, the toner transport device 300K that transports the toner to the developing device 150K at the smallest distance from the second transfer roller 122 transports the toner by the largest distance. The toner transport device 300C that transports the toner to the developing device 150C at a distance second to the smallest distance from the second transfer roller 122 transports the toner by a distance second to the largest distance. The toner transport device 300M that transports the toner to the developing device 150M at a distance third to the smallest distance from the second transfer roller 122 transports the toner by a distance third to the largest distance. The toner transport device 300Y that transports the toner to the developing device 150Y at the largest distance from the second transfer roller 122 transports the toner by the smallest distance.
That is, among the developing devices 150Y, 150M, 150C, and 150K being plural developing devices, for example, the developing device 150K is used as a first developing device located near the second transfer roller 122; for example, the developing device 150C is used as a second developing device located farther from the second transfer roller 122 than the developing device 150K; for example, the toner transport device 300K is used as a first transport device that transports the toner to the developing device 150K; for example, the toner transport device 300C is used as a second transport device that transports the toner to the developing device 150C; and the transport distance for transporting the toner of the toner transport device 300K used as the first transport device is larger than that of the toner transport device 300M used as the second transport device.
As described above, the exemplary embodiment of the present invention may be used for an image forming apparatus, such as a copier, a printer, or a facsimile.
The foregoing description of the exemplary embodiment of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiment was chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2015-092656 | Apr 2015 | JP | national |
Number | Name | Date | Kind |
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20080187357 | Miura | Aug 2008 | A1 |
20110064475 | Yoshida | Mar 2011 | A1 |
20120163872 | Hayashi | Jun 2012 | A1 |
20120251167 | Matsumoto | Oct 2012 | A1 |
Number | Date | Country |
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2003-107885 | Apr 2003 | JP |
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