1. Field of the Invention
This invention relates to a sheet conveying apparatus for conveying a sheet, and an image forming apparatus provided with the sheet conveying apparatus.
2. Related Background Art
Among conventional image forming apparatuses, there are image forming apparatuses in which the discharging direction of a recording medium after image fixing can be changed over to thereby effect face-down discharge and face-up discharge. Such image forming apparatuses are described, for example, in Japanese Patent Application Laid-open No. H09-278252, Japanese Patent Application Laid-open No. 2002-145504 and Japanese Patent Application Laid-open No. 2001-341919. The image forming apparatuses of include a construction as shown in Japanese Patent Application Laid-open No. H09-278252 and Japanese Patent Application Laid-open No. 2002-145504 wherein a plurality of pairs of rollers are provided downstream of a rockable guide provided downstream of a fixing device, and a construction as shown in Japanese Patent Application Laid-open No. 2001-341919 wherein only one pair of rollers are provided. An example of this construction will hereinafter be described with reference to
There is an image forming apparatus which effects discharge in a face-down state (hereinafter referred to as the face-down discharge) in which, as shown in
In case of the face-down discharge of the recording medium, the tray 111 is closed as shown in
In case of the face-up discharge of the recording medium, the tray 111 is opened as shown in
According to the above-described art, however, when in the face-up discharge of the recording medium, if the recording mediums are stacked with the surfaces thereof having images formed thereon facing up, there has been the following problem. In
Depending on the ambient environment, there is a case where as shown in
Also, even in a construction wherein the pair of rollers 107 are absent and only one pair of rollers are provided on the most downstream side of a conveying path, when the trailing edge of the recording medium Pt and the recording medium Pn enter a conveying path 116, there is the possibility that the smooth discharge of the recording medium may be hampered.
It is an object of the present invention to secure the smooth conveyance of a sheet in a sheet conveying apparatus.
It is another object to provide a sheet conveying apparatus having a pair of first conveying rotary members for conveying a sheet, an openable and closable conveying guide configured to guide the sheet conveyed by the pair of conveying rotary members, a pair of second conveying rotary members and an obstructing member movable between a first position and a second position, wherein the obstructing member positioning at the first position allows a sheet conveyed by the pair of first conveying rotary members to come into the nip portion of the pair of second conveying rotary members and the obstructing member positioning at the second position obstructs an entrance to the nip portion of the pair of second conveying rotary members so that the obstructing member prevents a sheet conveyed by the pair of first conveying rotary members from coming into the nip portion of said pair of second conveying rotary members, wherein in a state in which said conveying guide is closed the obstructing member positions at the first position, and the sheet conveyed by the pair of first conveying rotary members is guided to the pair of second conveying rotary members by the operable and closable conveying guide, and in the state in which said conveying guide is opened, the obstructing member is positioned at the second position, and the sheet is conveyed to outside of a main body of the sheet conveying apparatus, wherein the obstructing member positioning at the second position covers at least a part of a peripheral surface portion of one of the pair of second conveying rotary members, and wherein the obstructing member is pivotably supported, and a pivot center of the obstructing member is provided downstream with regard to the nip portion of said pair of the second conveying rotary members in a conveying direction of the pair of second conveying rotary members.
By the construction as described above, when the sheet guide is closed, the sheet guide guides the sheet to the conveying path and the obstructing member is retracted from the entrance of the conveying path. Consequently, the sheet is guided by the conveying path, and is discharged to the discharging portion. Also, when the sheet guide is opened, the obstructing member obstructs the entrance of the conveying path. Consequently, the sheet is not guided into the conveying path.
A first embodiment of the present invention will hereinafter be described with reference to the drawings. In the following, after the schematic description of an image forming apparatus 20, detailed description will be made of a shutter member 12 which is a characteristic portion of the present embodiment.
(Schematic Construction of the Image Forming Apparatus 20)
An example of the image forming apparatus will hereinafter be schematically described.
As shown in
A sheet conveying apparatus H is incorporated in the image forming apparatus 20, and in the present embodiment, it is comprised of the first pair of conveying rollers 6, the openable and closable unit G, the second pair of conveying rollers 7, a conveying path 16, the pair of discharging rollers 8, the first discharging tray 9, etc.
The openable and closable unit G is openable and closable. When the openable and closable unit G is opened, the openable and closable unit G functions as a second discharging portion on which the discharged recording mediums P are stacked. The openable and closable unit G is constituted by two members. That is, the openable and closable unit G is constituted by a conveying guide 10 and a second discharging tray 11. The conveying guide 10 is a member for guiding the recording medium conveyed by the first pair of conveying rollers 6 to the conveying path 16 when the openable and closable unit G is closed. When the openable and closable unit G is opened, the recording mediums conveyed by the first pair of conveying rollers 6 are stacked on the conveying guide 10. Also, when the openable and closable unit is opened, the recording mediums conveyed by the first pair of conveying rollers 6 are stacked on the second discharging tray 11. That is, when the openable and closable unit G is opened, the recording mediums are stacked on both of the conveying guide 10 and the second discharging tray 11.
The transferring portion 4 has a photosensitive drum (image bearing member) 4a from which the toner image is transferred to the recording medium P, a transfer roller 4b for urging the recording medium P against the photosensitive drum 4a, an optical scanner 4c for writing an electrostatic latent image (hereinafter referred to as the laser information)
onto the photosensitive drum 4a by a laser, and a cartridge 4d having the photosensitive drum 4a and a developing portion (not shown) for supplying a toner to the photosensitive drum 4a.
A shutter member 12 is disposed near the second pair of conveying rollers 7 or the entrance 16a of the conveying path 16. The shutter member 12 will be described later in detail.
(Flow of the Recording Medium P during Image Formation)
The recording medium P during image formation is conveyed as follows.
First, the uppermost recording medium P of the recording mediums P stacked on the feeding tray 1 is fed by the feeding portion 2, passes the pair of feeding rollers 3 and is conveyed to the transferring portion 4.
In the interior of the cartridge 4d, the scanner 4c applies a laser beam to the photosensitive drum 4a by an electrical signal transmitted from an electrical equipment portion, not shown, and the laser information is written onto the photosensitive drum 4a. A toner is supplied from the developing portion to this laser information 4d. Thereby, a toner image is formed on the photosensitive drum 4a. Therefore, when the recording medium P is conveyed to the transferring portion 4, and the transfer roller 4b is urged against the photosensitive drum 4a with the recording medium P nipped therebetween, the toner image on the photosensitive drum 4a is transferred to the recording medium P, and the toner image is formed on the recording medium P.
The recording medium P to which the toner image has been transferred by the transferring portion 4 comes into the fixing portion 5. The fixing portion 5 performs the function of fixing the toner image on the recording medium P and also the function as conveying means for conveying the recording medium P. The recording medium P is conveyed by the fixing portion 5. Also, in the fixing portion 5, toner particles are heat-fused to the recording medium P to thereby fix the toner image on the recording medium P.
Here, in the case of face-down discharge, the openable and closable unit G is closed and used. That is, the discharging tray 11 and the conveying guide 10 operatively associated with a discharging guide are closed. By the openable and closable unit G being brought into a closed state, the recording medium P conveyed along the guide surface of the conveying guide 10 by the first pair of conveying rollers 6 is guided to the second pair of conveying rollers 7 side. The recording medium P passes the first pair of conveying rollers 6, the second pair of conveying rollers 7 and the pair of discharging rollers 8 and is discharged onto the first discharging tray 9, and is stacked thereon. In the process of the recording material P being conveyed by the first pair of conveying rollers 6, the second pair of conveying rollers 7 and the pair of discharging rollers 8, that surface of the recording medium on which the toner image is formed is reversed upside down. Therefore, the recording medium P is discharged onto the first discharging tray with its surface having the image formed thereon facing down.
Also, in the case of face-up discharge, the openable and closable unit G is opened and used. That is, the discharging tray 11 and the conveying guide 10 are opened. By the openable and closable unit G being brought into an opened state, it never happens that the recording medium P is guided to the conveying path 16 side by the guide surface of the conveying guide 10. Accordingly, the recording medium P passes the first pair of conveying rollers 6, and thereafter is discharged onto the opened second discharging tray 11 and conveying guide 10. Here, the recording medium P is conveyed with its surface having the image formed thereon kept facing up. Therefore, the recording medium P is discharged with its surface having the image formed thereon facing up.
That is, in a state in which the openable and closable unit G (the second discharging tray 11 and the conveying guide 10) is opened, the recording medium conveyed by the first pair of conveying rollers 6 is conveyed to the sideways direction of the apparatus which is a direction differing from the conveying path 10, and is discharged onto the opened second discharging tray 11 and conveying guide 10.
(Construction of the Shutter Member 12)
The shutter member (obstructing member) 12 for smoothing the conveyance of the recording medium P onto the openable and closable unit G during face-up discharge will now be described in detail with reference to the drawings.
As shown in
The length and shape of the shutter portion 12a are designed such that when the shutter portion 12a is pivotally moved in a clockwise direction as viewed in
By this construction, when the pushing portion 12c is pushed toward the interior of the apparatus, the shutter member 12 is pivotally moved about the pivot shaft 12b toward the outside of the apparatus (clockwisely as viewed in
(Operation of the Shutter Member 12)
By the above-described construction, the operation during the discharge of the recording medium P when the face-up discharge is effected becomes as follows. Description will hereinafter be made with reference to
When the face-down discharge is effected, the openable and closable unit G (conveying guide 10) is brought into a closed state, as shown in
Therefore, the shutter portion 12a of the shutter member 12 keeps its posture shown in
Next, when the face-up discharge is to be effected, the openable and closable unit G (conveying guide 10) is brought into an opened state, as shown in
As described above, the shutter member 12 is operatively associated with the opening and closing operation of the openable and closable unit G. With the opening and closing of the openable and closable unit G, the shutter member 12 is pivotally moved to a position for obstructing the entrance 16a of the conveying path 16 and a position retracted from the entrance 16a of the conveying path 16. That is, by the operation of closing the openable and closable unit G, the pushing portion 12c abuts against the openable and closable unit G, whereby the shutter member 12 is pivotally moved to the position retracted from the entrance 16a of the conveying path 16. By the operation of opening the openable and closable unit G, the pushing portion 12c is spaced apart from the openable and closable unit G, whereby the shutter member 12 is pivotally moved from the position for obstructing the entrance 16a of the conveying path 16 from gravity.
(Behavior of the Shutter Member 12 and the Recording Medium P during the Conveyance of the Recording Medium P)
Reference is now had to
When during the face-up discharge, the recording mediums P are stacked on the second discharging tray 11 and the conveying guide 10 as shown in
When in the state in which the trailing edge of the recording medium Pt is flexed, a recording medium Pn to be conveyed next to the recording medium Pt is conveyed, the upper portion of the leading edge of the recording medium Pn contacts with the lower portion of the trailing edge of the recording medium Pt in some cases. If in such case, the first pair of conveying rollers 6 intactly continues their conveying operation, the leading edge of the recording medium Pn pushes up the trailing edge of the recording medium Pt.
Even in this case, the nip portion 7N between the second pair of conveying rollers 7 is covered with the shutter portion 12a of the shutter member 12. Also, the shutter portion 12a is of a construction in which the cross section thereof is substantially C-shaped, and the surface of the lower portion of the shutter portion 12a is smoothly formed. Therefore, when the recording medium Pn is conveyed from the first pair of conveying rollers 6, the leading edge portion of the recording medium Pn goes toward the second discharging tray 11 while the trailing edge of the recording medium Pt is pushed by the surface of the lower portion of the shutter portion 12a. Thus, the trailing edge of the recording medium Pt and the leading edge of the recording medium Pn conveyed by the first pair of conveying rollers 6 are conveyed along the shutter portion 12a of the shutter member 12 toward the second discharging tray 11. As the result, the recording mediums P are stacked on the second discharging tray 11 and the conveying guide 10 in good order.
As described above, when the face-up discharge is to be effected, the shutter portion 12a of the shutter member 12 covers and thereby obstructs the second pair of conveying rollers 7 and the entrance 16a of the conveying path 16, in operative association with the operation of opening the openable and closable unit G. Thereby, even if the trailing edge of the recording medium Pt or the leading edge of the recording medium Pn is moved to the conveying path 16 side, the recording medium P only contacts with the lower portion of the shutter member 12, and does not pass through the nip portion 7N between the second pair of conveying rollers 7 into the conveying path 16. Further, the underside of the shutter portion 12a guides the contacting recording medium P to the second discharging tray 11 side. Accordingly, the recording medium P can be smoothly conveyed.
Even if, for example, in the state in which the openable and closable unit G is opened, the uppermost recording medium of the recording mediums stacked on the second discharging tray 11 and the conveying guide 10 is flexed and discharged with a result that the trailing edge of the uppermost recording medium and the leading edge of a recording medium conveyed next thereto go toward the conveying path 16 while being in contact with each other, the shutter member 12 obstructs the conveying path 16. Therefore, the trailing edge of the uppermost recording medium and the leading edge of the recording medium conveyed next thereto are not guided into the conveying path 16, but these recording mediums are discharged along the underside of the shutter member 12 onto the opened openable and closable unit G.
Also, the shutter member 12 in the present embodiment is pivotally moved from gravity when the openable and closable unit G is opened. Thus, without the apparatus being made complicated, the obstruction of the entrance of the conveying path 16 can be effected by the opening of the openable and closable unit G, and the shutter member 12 can be made small. Also, the size of the discharging portion of the apparatus near the recording medium P can be made small.
Also, when the face-up discharge is to be effected with the openable and closable unit G opened, the shutter portion 12a covers the nip between the second pair of conveying rollers 7. Therefore, when for example, the user attempts to adjust the posture of the discharged recording medium Pn when the recording medium Pn is being discharged from the first pair of conveying rollers 6, the user is prevented from inadvertently touching the second pair of controlling rollers 7, or from making the discharged recording medium or the like touch the second pair of conveying rollers 7 by mistake to thereby damage the recording medium or the second pair of conveying rollers 7.
Also, the pivot shaft 12b of the shutter member 12 is provided above the roller of the second pair of conveying rollers 7 which is on the outer side of the apparatus, or outside the conveying path 16, and is provided at a location nearer to the second discharging tray 11. In the present embodiment, it is preferable that the biasing of the pushing portion 12c against the second discharging tray 11 be effectively effected, and by the pivot shaft 12b being provided more outside the apparatus, the biasing of the pushing portion against the second discharging tray 11 can be effected simply and effectively.
A second embodiment of the present invention will now be described with reference to the drawings. Members similar in construction to those in the aforedescribed embodiment are given the same reference characters and need not be described. In the present embodiment, detailed description will be made of a plate 15 which is a characteristic portion.
(Construction of the Plate 15)
The plate member (obstructing member) 15 for smoothing the conveyance of the recording medium P onto the openable and closable unit G during the face-up discharge will hereinafter be described in detail with reference to the drawings.
As shown in
Thereby, when the pushing portion 15a is pushed in a direction in which the second discharging tray 11 side is closed, the plate portion 15b shrinks against the urging force of the spring 15c, and the plate portion 15b is horizontally moved to the inside of the apparatus. Also, when the pushing portion 15a is freed, the plate portion 15b is horizontally moved from the inside toward the outside of the apparatus by the urging force of the spring 15c, as shown in
(Operation of the Plate Member 15)
By the above-described construction, the operation during the discharge of the recording medium P when the face-up discharge is effected becomes as follows. Description will hereinafter be made with reference to
First, when the face-down discharge is to be effected, the openable and closable unit G is brought into a closed state, as shown in
Next, when the face-up discharge is to be effected, the openable and closable unit G is brought into an opened state, as shown in
As described above, the plate member 15 is operatively associated with the opening and closing operation of the openable and closable unit G. With the opening and closing of the openable and closable unit G, the plate member 15 is moved to a position for obstructing the entrance 16a of the conveying path 16 and a position retracted from the entrance 16a of the conveying path 16. That is, by the operation of closing the openable and closable unit G, the pushing portion 15a abuts against the openable and closable unit G, whereby the plate member 15 is moved to the position retracted from the entrance 16a of the conveying path 16 against the urging force of the spring 15c. By the operation of opening the openable and closable unit G, the openable and closable unit G and the pushing portion 15a are spaced apart from each other, whereby the plate member 15 is moved to the position for obstructing the entrance 16a of the conveying path 16 by the urging force of the spring 15c.
(Behavior of the Plate Member 15 and the Recording Medium P During the Conveyance Thereof)
Reference is now had to
When during the face-up discharge, the recording mediums P are stacked on the openable and closable unit G (on the second discharging tray 11 and the conveying guide 10), it sometimes happens that as shown in
When with the trailing edge of the recording medium Pt upwardly flexed, a recording medium Pn to be conveyed next to the recording medium Pt is conveyed, as previously described, the leading edge of the recording medium Pn pushes up the trailing edge of the recording medium Pt, as shown in
Even in this case, the nip portion 7N between the second pair of conveying rollers 7 is covered with the plate portion 15b of the plate member 15. Also, the plate portion 15b is of a flat plate-like construction, and the surface of the lower portion of the plate portion 15b is formed smoothly. By such a construction, when the recording medium Pn is conveyed from the first pair of conveying rollers 6, the leading edge portion of the recording medium Pn goes toward the second discharging tray 11 while pushing the trailing edge of the recording medium Pt by the surface of the lower portion of the plate portion 15b. Thus, the trailing edge of the recording medium Pt and the leading edge of the recording medium Pn conveyed by the first pair of conveying rollers 6 are conveyed toward the second discharging tray 11 along the underside of the plate portion 15b of the plate member 15. As the result, the recording mediums P are stacked on the conveying guide 10 and the second discharging tray 11 in good order.
As described above, when the face-up discharge is to be effected, the plate portion 15b of the plate member 15 covers and thereby obstructs the second pair of conveying rollers 7 and the conveying path 16 in operative association with the operation of opening the openable and closable unit G. Thereby, even if the trailing edge of the recording medium Pt and the leading edge of the recording medium Pn are moved to the conveying path 16 side, the recording mediums only contact with the underside of the plate member 15, and do not pass through the nip portion 7N between the second pair of conveying rollers 7 into the conveying path 16. Also, the underside of the plate portion 15b guides the contacting recording mediums P to the second discharging tray 11 side. Therefore, the recording mediums P can be conveyed smoothly.
Also, the plate portion 15b of the plate member 15 is provided more inside than the inner roller of the second pair of conveying rollers 7 with respect to the apparatus and the conveying path 16. Therefore, it can also be applied to a compact apparatus such as one in which a sufficient space is absent outside the conveying path 16.
Also, when the face-up discharge is to be effected, the plate portion 15b covers the nip between the second pair of conveying rollers 7. Therefore, when for example, the user attempts to adjust the posture of the discharged recording medium Pn when the recording medium Pn is being discharged from the first pair of conveying rollers 6, the user is prevented from touching the second pair of conveying rollers 7 by mistake, or making the discharged recording medium or the like touch the second pair of conveying rollers 7 by mistake to thereby damage the recording medium or the second pair of conveying rollers 7.
In the aforedescribed embodiments, there has been shown by way of example a construction in which there are provided two pairs of rollers (the second pair of conveying rollers 7 and the pair of discharging rollers 8) for conveying the recording medium P in the conveying path 16 to the first discharging tray 9. However, this is not restrictive. For example, there can also be applied a construction in which as shown in
As described above, when the openable and closable unit G is opened when the face-up discharge is to be effected, the entrance 16a of the conveying path 16 is covered with the obstructing portion (the shutter portion 12a and the plate portion 15b) of the obstructing member (the shutter member 12 and the plate member 15) in operative association with this operation. Thereupon, the trailing edge of the recording medium Pt and the leading edge of the recording medium Pn contact with the lower portion of the obstructing portion, whereafter these recording mediums are conveyed toward the second discharging tray 11. As the result, the recording mediums P are stacked on the openable and closable unit G in good order. Also, this embodiment is of a construction in which the second pair of conveying rollers 7 are not disposed, but only one pair of discharging rollers 8 are disposed at the most downstream end of the conveying path 16 and therefore, can make the apparatus more compact.
While in the aforedescribed embodiments, the shutter member is moved from gravity or by the spring, this is not restrictive. For example, design may be made such that the shutter portion is moved not by gravity or the spring, but is electrically moved by the use of a drive source such as a motor.
While in the aforedescribed embodiments, description has been made with a printer shown as the image forming apparatus, this is not restrictive. The present invention can also be applied, for example, to a copying machine, a facsimile apparatus, etc.
This application claims priority from Japanese Patent Application No. 2005-053582 filed on Feb. 28, 2005, which is hereby incorporated by reference herein.
Number | Date | Country | Kind |
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2005-053582 | Feb 2005 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4750016 | Kusumoto et al. | Jun 1988 | A |
4945390 | Hasegawa et al. | Jul 1990 | A |
5184734 | Yamaguchi | Feb 1993 | A |
5237381 | Hamada | Aug 1993 | A |
5553528 | Zoltner | Sep 1996 | A |
5586758 | Kimura et al. | Dec 1996 | A |
5862435 | Suzumi et al. | Jan 1999 | A |
6953192 | Jang | Oct 2005 | B2 |
7079806 | Baek et al. | Jul 2006 | B2 |
7448621 | Yasumoto | Nov 2008 | B2 |
Number | Date | Country |
---|---|---|
5-24732 | Feb 1993 | JP |
05024732 | Feb 1993 | JP |
05051160 | Mar 1993 | JP |
9-278252 | Oct 1997 | JP |
10-35981 | Feb 1998 | JP |
2001-341919 | Dec 2001 | JP |
2002-145504 | May 2002 | JP |
Number | Date | Country | |
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20060192831 A1 | Aug 2006 | US |