1. Field of Invention
The invention relates to a sheet feeder that feeds cut sheets and an image forming apparatus including the sheet feeder, and more particularly, to a device that separates and feeds sheets, one by one, by abutting leading edges of the sheets in a sheet feed direction against an inclined separating surface formed by separating plates.
2. Description of Related Art
Conventional image forming apparatuses, such as laser-beam printers, color ink-jet printers, facsimile machines and copying machines, include a sheet feeder that feeds cut sheets, one by one, to an image forming unit provided therein. As disclosed in U.S. Pat. No. 6,158,733 and Japanese Laid-Open Patent Publication No. 2001-278507, the sheet feeder includes an inclined sheet holder, which holds a stack of sheets thereon, a separating plate, which is disposed below the sheet holder and has an inclined separating surface, and a sheet feed roller that is attached to an end of a rotatable arm having a predetermined length so as to face the sheet holder. The inclined separating surface extends such that the inclined separating surface and an upper surface of the sheet holder form an obtuse angle therebetween. Thus, the sheets stacked on the sheet holder are held by the inclined separating surface of the separating plate with the leading edges of the sheets contacting the inclined separating surface.
As the sheet feed roller rotates while pressing a topmost sheet in the stack on the sheet holder, the leading edge of the topmost sheet, which is being downwardly fed, abuts against the inclined separating surface. At that time, with a reaction force from the inclined separating surface, the topmost sheet is conveyed in a state where the lower part of the sheet is bent in a direction orthogonal to a direction that the rest of the sheets extend (the topmost sheet is convexedly warped such that the surface of the topmost sheet comes away from the stack of the sheets). Before long, the trailing edge of the sheet comes away from the inclined separating surface and thus only the topmost sheet is separated from the stack of the sheets. After that, the separated sheet is fed to the image forming unit by a conveying roller provided in a sheet feed path, to form an image thereon. Then, the sheet having the image is ejected from the image forming apparatus.
The above-described conventional inclined separating surface includes a flat surface along a sheet width direction. A sheet feed roller to be provided in the sheet feeder may not have a length across the entire width of the sheet. Recently, the length of the sheet feed roller is designed as short as possible in order to achieve miniaturization and low power consumption of the sheet feeder. Therefore, a small sheet feed roller is provided at the substantially middle in the sheet width direction to contact a portion of a middle area of the sheet with the sheet feed roller.
Further, most of sheet feeders feed cut sheets of different types and sizes by using the same mechanism. When large-sized sheets are fed, the sheet feed roller contacts only a part of the sheets in the sheet width direction to feed the sheets. When soft or week sheets are fed by the sheet feeder that includes the above-described small sheet feed roller that contacts only a part of the sheets, the sheets are conveyed one by one while being warped such that the leading edges of the middle areas of the sheets are abutting against a portion on an extension of the acting portion of the sheet feed roller, in the inclined separating surface. At that time, side areas of the sheets, which are a distance from the acting portion of the sheet feed roller in the sheet width direction, become free ends, which are free from the sheet feeding force by the rotation of the sheet feed roller. Therefore, during the sheet feeding operation by the sheet feed roller, both side areas of the sheets are kept substantially flat while the sheets are being conveyed.
When the above-described situation is viewed from a direction facing the sheets stacked on the sheet holder, the inclined separating surface includes a flat surface along the sheet width direction. With this structure, the lower edges (leading edges in a sheet feed direction) of the side areas of the sheets contact the inclined separating surface before the leading edges of the middle areas of the sheets contact the inclined separating surface. Because of this, the middle areas of the sheets will be further warped. Accordingly, the lower edges (leading edges in the sheet feed direction) of the middle areas of the sheets easily come off from the corresponding portion of the inclined separating surface.
On the other hand, however, the lower edges (leading edges in the sheet feed direction) of the sheets hardly contact a separating member, which is provided on the inclined separating surface, according to a width and/or a position where the separating member is provided. Thus, it becomes difficult to contact the leading edges of the sheets with the separating member, and the separating action by the separating member cannot be surely exerted on the sheets. This may cause a multi-feed problem (feeding two or more sheets at a time).
The invention thus provides a sheet feeder, which can separate and feed sheets, one by one, from a stack of sheets, while a drive system for feeding sheets is compacted, and an image forming apparatus including the above-described sheet feeder.
The sheet feeder of the invention feeds sheets. The sheet feeder includes a sheet holder that holds a plurality of sheets, a sheet feed roller that holds the sheets in cooperation with the sheet holder and feeds a topmost sheet from the sheets held by the sheet holder, and an inclined separating surface that holds leading edges of the sheets held by the sheet holder. The inclined separating surface includes a surface that is gradually lowered in a sheet feed direction toward at least one end of the inclined separating surface in the sheet width direction, from a first portion, as a top, which corresponds to a second portion, which is on or near an extension of a line of sheet feed action by the sheet feed roller which extends from a third portion where the sheet feed roller contacts.
Therefore, the leading edges of the middle areas of the sheets can contact the separating unit in a state where the sheets are held so as not to contact the leading edges of the side areas of the sheets with the inclined separating surface or in a state where the sheets are held with leading edges of the side areas of the sheets contacting the inclined separating surface but with little resistance to the leading edges of the side areas of the sheets by the inclined separating surface. Thus, the leading edges of the middle areas of the sheets can be sufficiently applied with the separating action, thereby preventing a sheet feed problem, such as a multi-feed problem.
Various embodiments of the invention will be described in detail with reference to the following figures wherein:
Embodiments of the invention will be described with reference to the accompanying drawings. A first embodiment of the invention will be described below.
A multifunctional image forming apparatus 1 of
A document holding portion 5 is provided at the rear of the LCD 4. The document holding portion 5 holds original documents, which are to be copied and transmitted to another facsimile machine in the facsimile mode or which are to be copied in the copy mode. The original documents placed on the document holding portion 5 are conveyed to a scanning unit (not shown) provided in the body 2 and surfaces of the original documents are scanned by the scanning unit. Then, the scanned documents are ejected onto a document discharge portion 7 provided at the front of the body 2 (under the operating panel 3).
A sheet feeder 10, on which a stack of recording sheets P are loaded, is provided at the rear of the document holding portion 5. The sheets P placed on the sheet feeder 10 are conveyed, one by one, to a color ink-jet type image forming unit (not shown) provided in the body 2. At the image forming unit, predetermined images are printed onto the sheets P, and then, the sheets P are ejected onto a sheet discharge portion 6. The image forming unit is not limited to the ink-jet type, but can be other types, for example, a laser printing type using toner or a thermal transfer type using an ink ribbon.
As shown in
The guide members 13a, 13b are coupled to racks 16, which are disposed on the back of the sheet holder 12 and extend in a horizontal direction. A pinion 17 is also provided on the back of the sheet holder 12 so as to engage the racks 16. In synchronization of the racks 16 and the pinion 17, the pair of the guide members 13a, 13b slide in a width direction of the sheet holder 12 (in the right and left directions) (
A drive shaft 20 is rotatably supported between the side walls 14, at an appropriate distance upward from the upper surface of the separating plate 15. A sheet feed roller unit 22 is provided substantially at the middle of the drive shaft 20, that is, at the middle of the sheet P in the width direction (in the right and left directions). The sheet feed roller unit 22 includes a case 24 having a sheet feed roller 21. The drive shaft 20 is inserted into the case 24 of the sheet feed roller unit 22 so that only the case 24 can easily rotate. A gear train 23, including gears 23a, 23b, 23c, 23d, is provided to an outer surface of one of the side walls 14 in order to transmit power to the sheet feed roller 21 from a drive motor (not shown) provided in the body 2 (
As shown in
As the gear 23d, which is fixed to an end of the drive shaft 20, rotates in a normal direction (in a counterclockwise direction in
When the gear 23d rotates in the reverse (clockwise) direction, the planet gear 27 is applied with a force for rotating in the normal direction from the drive gear 25 rotating in the reverse direction. Therefore, the arm 26 swings in the reverse direction, so that the planet gear 27 disengages from the intermediate gear 28 and thus the power to the sheet feed roller 21 is disconnected. Consequently, the sheet feed roller 21 stops rotating, thereby stopping the sheet feeding operation (the sheets P are not fed).
Next, the structure of the inclined separating surface 8 of the first embodiment of the invention will be described in detail. The inclined separating surface 8 is provided with a sheet separating unit 31 having a high coefficient of friction. The sheet separating unit 31 contacts the leading (lower) edges of the middle areas of the sheets P in the sheet width direction to separate the sheets P, one by one, from the sheets P stacked on the sheet holder 12. The sheet separating unit 31, projecting from the inclined separating surface 8, is disposed on an extension of a line of sheet feeding action Q of the sheet feed roller 21 (
In the first embodiment, a distance between outer edges of the movable separating plates 33a, 33b is approximately 210 mm and a difference of elevation in the convexedly curved surface of the inclined separating surface 8 is approximately between 2 and 3 mm (a radius of curvature of the order of 1500 mm) (
The sheet separating unit 31 includes a separating strip 34, extending in the front to rear direction, so that the separating strip 34 is disposed at the upper surface of the fixed separating plate 15, at the substantially middle in the right and left direction.
Only the outer frame portion 39b, which has a substantially rectangular shape when viewed from above (
As shown in
As shown in
As shown in
Referring to
When a print command is executed in response to a signal transmitted from an external control device, such as a personal computer and a facsimile machine, the drive motor (not shown) drives to rotate the sheet feed roller 21. Therefore, the drive shaft 20 rotates in the reverse direction via the gear train 23 including the gears 23a to 23d, and then the sheet feed roller 21 rotates in the clockwise direction in
Sheets P having different rigidity will be placed on the sheet holder 12. When weak or soft sheets P (e.g. sheets are thin in thickness) are fed, a topmost sheet P, which is subjected to the sheet feeding action, is fed in the direction indicated by the arrow A while deforming such that a middle area of the topmost sheet P is uplifted in a direction to come away from the stack of the sheets P, between the sheet feed roller 21 and the sheet separating unit 31. On the other hand, when the strong or rigid sheets P, such as cardboard, post cards, envelops, and overhead transparency films, are fed from the sheet holder 12, a topmost sheet P, which is subjected to the sheet feeding action, deforms such that the middle area of the sheet P is uplifted in a direction toward the stack of the sheets P, between the sheet feed roller 21 and the sheet separating unit 31.
However, regardless of the rigidity of the sheets P, the sheet P is conveyed while its side areas, which are other than the middle area of the sheet P and are not subjected to the sheet feeding action, are flat. When the above-described situation happens, a distance (in straight line) between a point on a contact line (nip line) 45 of the sheet feed roller 21 and the sheet P subjected to the sheet feeding action and a point of the leading edge of the middle area of the topmost sheet P becomes shorter than a distance (in straight line) between a point on an extension 46 of the contact line 45 and a point on the side area of the leading edge of the topmost sheet P.
In order to cope with the above-described situation, in the sheet feeder 10 of the first embodiment, the sheet separating unit 31 having a high coefficient of friction protrudes from the inclined separating surface 8, in the extension of the line of the sheet feeding action Q of the sheet feed roller 21, on order to abut against the leading edges of the middle areas of the sheets P to separate the sheets P one by one from the stack. In addition, because the inclined separating surface 8 has a curved surface such that the portion near the sheet separating unit 31 is uplifted and the surface is gradually lowered near the ends in the sheet width direction, the leading edges of the middle areas of the sheets P can be sufficiently subjected to the sheet separating action by contacting the sheet separating unit 31 while the leading edges of the side areas of the sheets P do not interfere with the inclined separating surface 8 or contact the inclined separating surface 8 but with little resistance to the leading edges of the side areas of the sheets P. Accordingly, the sheet feeding problem, such as the multi-feed problem, can be prevented.
When sheets P to be fed have the letter size and the rigidity of plain sheets, the sheets P are normally conveyed as described above without interfering with the movable separating plates 32a, 32b, 33a, 33b. However, when sheets P to be fed have a size (width) and rigidity, which are extremely different from the reference size and rigidity, leading edges of side areas of the sheets P may contact the movable separating plates 32a, 32b, 33a, 33b before the leading edges of the middle areas of the sheets P contact the fixed separating plate 15 and/or the sheet separating unit 31.
Even when the above-described case happens, in the first embodiment, the position of the fixed separating plate 15, which corresponds to the middle areas of the sheets P in the sheet width direction, is not changed, and the first separating plates 32a, 32b and/or the second separating plates 33a, 33b rotate against the urging forces from the torsion spring 42 so that the free ends of the first separating plates 32a, 32b and/or the second separating plates 33a, 33b rotate downward. By doing so, the upper surfaces of the separating plates 32a, 32b, 33a, 33b (the inclined separating surface 8) descend in a direction to get away from the leading edges of the sheets P to make a clearance between the leading edges of the sheets P and the separating plates 32a, 32b, 33a, 33b. Therefore, the leading edge of the topmost sheet P can be prevented from being interfered with the first movable separating plates 32a, 32b and/or the second movable separating plates 33a, 33b during the sheet feeding operation. Thus, the leading edge of the topmost sheet P is not pressed or supported by the first movable separating plates 32a, 32b and/or the second movable separating plates 33a, 33b. Consequently, the sheet separating action by the sheet separating unit 31 can be surely applied to the leading edges of the middle areas of the sheets P. In addition, the occurrence of a paper jam due to, such as the multi-feed problem (feeding two or more sheets at a time), can be restricted regardless of the size and rigidity of the sheets P.
In the above-described embodiments, the inclined separating surface 8 includes the movable separating plates 32a, 32b, 33a, 33b with consideration given to the sheet feeder 10 that feeds sheets P having different sizes and rigidity. However, if only limited types (size and rigidity) of sheets are used in the sheet feeder 10, the inclined separating surface 8 can be structured as described below.
As described above, in the sheet feeder 10 of each of the embodiments, the sheet separating unit 31, which contacts the leading edges of the middle areas of the sheets P to separate the sheets P, protrudes from the inclined separating surface 8, at a portion on or near the extension of the line of the sheet feeding action Q of the sheet feed roller 21. Further, the inclined separating surface 8 includes a surface such that the portion near the sheet separating unit 31 is uplifted and the surface is gradually lowered in the sheet feed direction near the ends in the sheet width direction, when viewed from a direction perpendicular to the sheet feed direction.
Accordingly, the leading edges of the middle areas of the sheets P can be sufficiently applied with the separating action by abutting the sheet separating unit 31 in a state where the leading edges of the side areas of the sheets P do not interfere with the inclined separating surface 8 or in a state where the leading edges of the side areas of the sheets P contacts the inclined separating surface 8 but with little resistance to the leading edges of the side areas of the sheets P by the inclined separating surface. Consequently, the sheet feed problem, such as the multi-feed problem, can be prevented.
When viewed from a direction perpendicular to the sheet feed direction (the force acting direction of the sheet feed roller 21), the inclined separating surface 8 of each of the embodiments includes the surface such that the portion near the sheet separating unit 31 is uplifted and the surface is gradually lowered near the ends in the sheet width direction. With this structure, the inclined separating surface 8 extends substantially along the curved line formed by the leading edges of the sheets P. Therefore, the sheet feed problem, such as a sheet deviation, can be prevented.
While the invention has been described in detail with reference to the specific embodiments thereof, it would be apparent to those skilled in the art that various changes, arrangements and modifications may be applied therein without departing from the spirit and scope of the invention. For example, the sheet separating unit 31 (the separating strip 34) is not limited to that shown in the above-described embodiments. A sheet separating unit having a different structure can be used as long as the sheet separating unit causes friction. Further, in the above-described embodiments, the invention has been applied to the sheet feeder 10 that includes the inclined sheet holder 12 with the fixed separating plate 15, the first movable separating plates 32a, 32b, and the second movable separating plates 33a, 33b inclinatorily provided at the lower portion of the sheet holder 12 or the sheet feeder 10 that includes the inclined sheet holder 12 with the single separating plate 47 inclinatorily provided at the lower portion of the sheet holder 12. However, the invention can be applied to a sheet feeder wherein the sheet holder 12 is provided substantially in the horizontal position and the long single separating plate 47 or the fixed separating plate 15 and the movable separating plates 32a, 32b, 33a, 33b are disposed such that the sheet advance direction of the sheet P stacked on the sheet holder 12 extends toward the upwardly slanting direction.
Further, in each of the embodiments described above, the inclined separating surface 8 includes the surface that is gently curved in the initial state. However, the inclined separating surface 8 may include a surface that is formed by two inclined straight lines, for example, an inverted V-shaped surface, in the initial state.
Furthermore, the inclined separating surface 8 is not limited to the inclined separating surface 8 that forms the upwardly curved surface in a state where the movable separating plates 32a, 32b, 33a, 33b descend. The inclined separating surface 8 in a different structure can be adopted as long as a convex surface, which is different from the shape of the surface in the initial state, is formed by the linearly extending upper surfaces of the movable separating plates 32a, 32b, 33a, 33b, so that the surface is gradually lowered near the ends in the sheet width direction, from the separating strip 34 of the fixed separating plate 15 as the top.
The difference of elevation in the inclined separating surface 8 can be set to various values in accordance with the rigidity and width of the sheets P to be mainly used. However, with consideration given to feeding of letter-sized plain sheets (approximately 210 mm in sheet width), the difference of elevation in the inclined separating surface 8 is set to between 1 mm and 4 mm, preferably between 2 mm and 3 mm. Alternatively, it is preferable that the radius of curvature of the inclined separating surface 8 is between 1000 mm and 2000 mm when the inclined separating surface 8 includes a curved surface. If the difference of elevation or the radius of curvature is too small, the sheet separation may not be excellently performed by the sheet feed roller 21 during the sheet feeding operation. On the other hand, if the difference of elevation or the radius of curvature is too large, the sheets P may deviate or may be partially bent during the sheet feeding operation.
In the above-described embodiments, the description has been made by applying the invention to the multifunctional image forming apparatus 1. However, if an image forming apparatus includes the sheet feeder 10 of either of the above-described embodiments, the invention can be applied thereto. For example, the invention can be applied to a printer that does not have a facsimile function if the printer includes the sheet feeder 10 of either of the embodiments. According to the image forming apparatus including the sheet feeder 10 of either of the embodiments, the multi-feed problem can be surely prevented. Therefore, predetermined images can be surely formed on sheets P, which are supplied one by one, by the image forming unit.
In the above-described embodiments, the sheets P are guided by the pair of the guide members 13a, 13b to contact the middle points of the leading edges of the sheets P with the sheet separating unit 31 (the separating strip 34), regardless of the size (width) of the sheets P. However, it is unnecessary to place the sheets P at the middle of the sheet holder 12. If the leading edges of the sheets P near the middle points of the sheets P contact the sheet separating unit 31 (the separating strip 34) (the sheets P are deviated to some extent in the right and left direction), the substantially same effects are promised by the invention. There is no problem even when the sheet separating unit 31 (the separating strip 34) is shifted to some extent from the extension of the line of the sheet feeding action Q as long as the sheet separating unit 31 (the separating strip 34) is provided near the extension.
Number | Date | Country | Kind |
---|---|---|---|
2002-094506 | Mar 2002 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5145164 | Kan | Sep 1992 | A |
5443251 | Kan et al. | Aug 1995 | A |
5895040 | Oleksa et al. | Apr 1999 | A |
5971390 | Caspar et al. | Oct 1999 | A |
6158733 | Muraki | Dec 2000 | A |
6716254 | Takeuchi | Apr 2004 | B1 |
Number | Date | Country |
---|---|---|
08192933 | Jul 1996 | JP |
2000168980 | Jun 2000 | JP |
A 2001-253580 | Sep 2001 | JP |
A 2001-278507 | Oct 2001 | JP |
Number | Date | Country | |
---|---|---|---|
20030184001 A1 | Oct 2003 | US |