1. Technical Field
This disclosure relates generally to paper feeders and more particularly to a paper feeder used for manual paper feed in image forming apparatuses such as copiers, printers, and facsimile machines.
2. Description of the Related Art
Some image forming apparatuses such as copiers have an automatic paper feed unit and a manual paper feed unit including a manual paper feed tray provided to a manual paper feed opening. In the automatic paper feed unit, a stack of paper sheets is set in one or multiple paper feed cassettes disposed in the main body of the image forming apparatus (the apparatus main body), and the uppermost one of the paper sheets is fed out based on a command. The manual paper feed unit is used to form an image on a paper sheet of a type or size that is not set in the paper feed cassettes of the automatic paper feed unit.
Some conventional image forming apparatuses employ a manual feed tray screwed to a side of the apparatus main body as a manual paper feed unit. Meanwhile, a retractable manual feed tray attached rotatably to the apparatus main body so as to be openable and closable in consideration of space savings and appearance is also employed in many conventional image forming apparatuses.
This retractable manual feed tray stands against a side of the apparatus main body when retracted (closed). In this state, no paper is feedable. However, this does not pose a problem in many cases. This is because the manual feed tray is used to feed paper mostly when specialty paper such as postcards, OHP sheets, and sticker sheets is used, and such specialty paper is used less frequently than plain paper except for some users and it is often the case that only a single copy is made.
Further, for instance, Japanese Laid-Open Utility Model Application No. 4-12425 discloses a paper feed unit into which a paper feed cassette and a manual feed unit are integrated. The paper feed cassette is capable of carrying (containing) a stack of paper sheets as the paper feed cassette of the automatic paper feed unit. The manual feed unit, to which paper sheets are fitted and fed manually one by one, is mounted integrally on the upper surface of the paper feed cassette. In principle, plain paper is contained in the cassette to be fed, and heavy paper is fed from the manual feed unit. However, the side fences of the manual feed unit project upward on the upper surface of the cassette, so that the paper feed unit cannot be retracted as a retractable manual feed tray.
In an aspect of this disclosure, there is provided a paper feeder that has a paper feed unit for heavy paper and a manual paper feed unit that can receive and feed a stack of paper such as plain paper, and can be housed (retracted) in an image forming apparatus so as to stand against (be flush with) a side of the apparatus main body.
In addition, an image forming apparatus using the paper feeder can be provided.
A paper feeder for feeding paper in an image forming apparatus, in an exemplary embodiment, includes a plurality of manual paper feed openings, and a plurality of manual paper feed parts positioned corresponding to the manual paper feed openings, wherein the manual paper feed openings and the manual paper feed parts are provided in a main body of the paper feeder.
In another aspect of this disclosure, there is provided an image forming apparatus including a paper feeder, the paper feeder including: a plurality of manual paper feed openings; and a plurality of manual paper feed parts positioned correspondingly to the manual paper feed openings, wherein the manual paper feed openings and the manual paper feed parts are provided in a main body of the paper feeder.
In another aspect of this disclosure, a paper feeder enables both manual feeding of heavy paper and placement and feeding of a stack of paper such as plain paper. Further, the paper feeder may be retracted (housed) in the main body of an image forming apparatus so as to stand against (be flush with) a side thereof. This saves space and provides a good appearance.
Other aspects, features and advantages of the present invention will become more apparent from the following detailed description when read in conjunction with the accompanying drawings, in which:
A description is given below, with reference to the accompanying drawings, of an embodiment of the present invention.
An image reading part (a scanner part) for image reading is provided above the paper output part 6a on the apparatus main body 1 as an input system for inputting the image data (printing data) of an image to be formed in the image forming part 2. In
The conveyance part 3 includes a pair of conveyance rollers 10, a conveyance direction guide part 11, and a press roller 12. The conveyance rollers 10 convey upward a paper sheet fed from the main body paper feed unit 4 by a pickup roller 9. The conveyance direction guide part 11 is disposed on the upstream side of the image forming part 2 in a direction in which the paper sheet is conveyed (a paper conveyance direction). The conveyance direction guide part 11 conveys the paper sheet fed from below while changing the paper conveyance direction by substantially 90°. The output paper conveyance part 5, which is on the downstream side of the image forming part 2 in the paper conveyance direction, includes multiple pairs of conveyance rollers 13 for conveying the paper sheet on which an image is formed, a paper output path 14, and a pair of paper output rollers 15 for outputting the paper sheet sent out through the paper output path 14 onto the paper output part 6a.
The manual paper feeder 20 is integrated with the right door 21 as its apparatus main body, the right door 21 covering the right side of the apparatus main body 1 in
The right door 21 has its lower end supported by a shaft so as to rotate upward and downward as indicated by the double-headed arrow A in
Like the right door 21, the first manual paper feed part 22 has its shaft part (not graphically illustrated), provided on the outside of its bottommost part, supported by a shaft inside the recess 21a so as to be rotatable upward and downward as indicated by the double-headed arrow A in
A flat surface part 26 for receiving paper (on which paper is placed) is provided on a surface of the first manual paper feed part 22 which surface serves as an upper surface when the first manual paper feed part 22 is open. A pair of side fences 27 are provided on the flat surface part 26 so as to be movable in the directions of the width of paper to be fed (the paper width directions). A rack and pinion mechanism 28 for operating the side fences 27 is housed below the flat surface part 26 inside the first manual paper feed part 22. Further, a retractable paper support plate 29 is provided below the flat surface part 26, so that in the case of handling B4 landscape size or A3 size paper, an end part of the paper sticking out of the flat surface part 26 may be supported from its lower side. A recess 22b for avoiding interference with the second manual paper feed part 23 is formed outside the flat surface part 26 (on the end side as a door) in the first manual paper feed part 22. A recess 30 is provided in the center in the paper width directions on the upper surface of the paper support plate 29. The recess 30 makes it easy for a user to pull out the paper support plate 29 with a hand and handle paper on the pulled-out paper support plate 29. Further, the recess 30, which is provided in the position corresponding to the cutout 24 of the right door 21, is also employable as part of a handle for opening and closing the first manual paper feed part 22.
The second manual paper feed part 23 is provided on the upper end side in the recess 21a of the right door 21. The second manual paper feed part 23 has its shaft part (not graphically illustrated), provided on the outside of its bottommost part, supported by a shaft inside the recess 21a so as to be rotatable upward and downward as indicated by the double-headed arrow B in
The second manual paper feed part 23 includes a flat surface for paper setting (on which paper is set), which surface serves as an upper surface when the second manual paper feed part is open. A pair of side fences 31 are provided on the flat surface so as to be movable in the paper width directions. A rack and pinion mechanism 32 for operating the side fences 31 is housed below the flat surface inside the second manual paper feed part 23. A handle 33 for opening and closing operations is provided on a surface of the second manual paper feed part 23 on the opposite side from the flat surface for paper setting, which surface serves as an external surface when the second manual paper feed part 23 is closed. The second manual paper feed part 23 is provided for straight paper feed (feeding paper without bending it) as described below. Accordingly, unlike the first manual paper feed part 22, the second manual paper feed part 23 does not have a pickup roller.
Next, a description is given of a paper feed operation according to this embodiment. First, in the case of performing automatic paper feed, the openable (retractable) parts such as the openable part of the right door 21 are closed so that no warning is issued. Then, the image forming part 2 is put into operation. A paper sheet is fed (or paper sheets are fed one by one) from the main body paper feed unit 4 based on a command from a controller (not graphically illustrated), and a required image is formed (recorded) on the paper sheet by the image forming part 2. Thereafter, the paper sheet is output through the output paper conveyance part 5 onto the paper output part 6a, or is output onto the paper output tray 6b by the conveyance rollers 13. In this case, the paper sheet fed from the main body paper feed unit 4 by the pickup roller 9 is conveyed to the image forming part 2 through a vertical conveyance path P1 (
Next, a description is given of a manual paper feed operation. First, in the case of using the first manual paper feed part 22, with the right door 21 being closed, a hand is put in the gap formed between the cutout 24, open laterally to the outside of the right door 21, and the recess 30, open to the upside of the paper support plate 29, so as to pull down and open the entire first manual paper feed part 22. Then, the distance between the side fences 27 is changed corresponding to paper size, and a required number of paper sheets suitable for image recording are placed on the flat surface part 26. It is often the case that one to one hundred sheets of paper, for instance, are placed on this type of paper feed unit. The maximum number of placeable sheets of paper may be determined by design. Then, the image forming part 2 is put into operation. One of the paper sheets is fed (or the paper sheets are fed one by one) from the first manual paper feed part 22 based on a command from the controller (not graphically illustrated), and a required image is formed (recorded) on the paper sheet by the image forming part 2. Thereafter, the paper sheet is output through the output paper conveyance part 5 onto the paper output part 6a, or is output onto the paper output tray 6b by the conveyance rollers 13. In this case, the paper sheet fed from the first manual paper feed part 22 by the pickup roller 25 at the first paper feed opening 22a is conveyed to the image forming part 2 through a vertical conveyance path P2 (
Next, in the case of using the second manual paper feed part 23, with the right door 21 being closed, the entire first manual paper feed part 22 is pulled down to be open, and then the handle 31 is operated so as to pull down and open the entire second manual paper feed part 23. The distance between the side fences 31 is changed corresponding to paper size, and a single sheet of paper, for instance, heavy paper, is placed on the second manual paper feed part 23. At this point, while being kept horizontal, the paper sheet is pushed straight and deep inside the apparatus main body 1 from the second paper feed opening 23a so as to pass over the conveyance direction guide part 11 to have its leading edge reaching the nip of the press roller 12. Then, the image forming part 2 is put into operation. The paper sheet is fed from the second manual paper feed part 23 based on a command from the controller (not graphically illustrated), and a required image is formed (recorded) on the paper sheet by the image forming part 2. Thereafter, the paper sheet is output through the output paper conveyance part 5 onto the paper output part 6a, or is output onto the paper output tray 6b by the conveyance rollers 13. In this case, the paper sheet fed from the second manual paper feed part 23 is conveyed to the image forming part 2 through a lateral conveyance path P3 (
If a paper jam occurs in, for instance, the conveyance part 3 in paper feeding as described above, the right door 21 may be opened so that a paper removal operation is performable. In this case, with the right door 21 being closed, a hand is put in the gap formed between the cutout 24, open laterally to the outside of the right door 21, and the recess 30, open to the upside of the paper support plate 29. Then, the hand is put on the right door 21 inside the cutout 24 so as to pull down and open the entire right door 21.
The present invention is not limited to the specifically disclosed embodiment, and variations and modifications may be made without departing from the scope of the present invention.
The present application is based on Japanese Priority Patent Application No. 2004-140979, filed on May 11, 2004, the entire contents of which are hereby incorporated by reference.
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2004-140979 | May 2004 | JP | national |
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