The present invention relates to a sheet conveyance apparatus and to an image forming apparatus.
As an image forming apparatus forming an image on a sheet, there have been widely known a printer including a copier, a facsimile machine and a laser printer, a plotter, a printing machine or a multi-function printer including a plurality of functions of those apparatuses in general. Hitherto, as disclosed in Japanese Patent Application Laid-open No. 2014-106294 for example, there has been proposed that a sheet post-processing apparatus is disposed within a body of an in-body discharge type image forming apparatus and is configured to be able to be drawn out of the body by means of a sliding unit such as a rail. It is possible to readily take out a sheet jammed within the sheet post-processing apparatus disposed within the body by drawing out the sheet post-processing apparatus even if the sheet is jammed by arranging such that the sheet post-processing apparatus can be drawn out as described above.
However, if a sheet jams within the sheet post-processing apparatus as disclosed in Japanese Patent Application Laid-open No. 2014-106294, it is necessary not only to slide and move the sheet post-processing apparatus but also to open a sheet conveyance path by pivoting a cover or the like in order to remove the jammed sheet. In this case, it is desirable not only to keep the cover open but also to keep the sheet post-processing apparatus itself at a drawn-out position so that the sheet post-processing apparatus does not move from that position during a jam processing.
According to a first aspect of the invention, a sheet conveyance apparatus include a first conveyance unit configured to convey a sheet, a second conveyance unit including a cover movable between a close position in which the cover is positioned when the sheet is conveyed on a sheet conveyance path and an open position at which the cover is positioned when the sheet conveyance path is opened, the second conveyance unit being configured to be movable with respect to the first conveyance unit between a first position where the sheet conveyed from the first conveyance unit can be conveyed to the sheet conveyance path and a second position separated from the first position, and a retaining portion configured to retain the cover at the open position and to retain the second conveyance unit at the second position through the cover retained at the open position in a case where the cover is positioned at the open position in a condition in which the second conveyance unit is positioned at the second position.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
A full color laser printer serving as an image forming apparatus according to embodiments of the present disclosure will be described below with reference to the drawings. Note that dimensions, materials and shapes of components and relative arrangements thereof described in the following description are not intended to limit to those claims unless specifically described. Still further, the image forming apparatus of the present disclosure is not limited only to the full color laser printer, but also may be applicable to other image forming apparatuses such as a copier, a facsimile machine and an inkjet printer. A “sheet” in the following description is a recording material including, other than a plain sheet of paper, a special sheet such as a coated sheet, a special shape sheet such as an envelope and an index sheet, a plastic film for an overhead projector and a cloth. A “document” described below is also one example of the sheet and may be a blank sheet of paper or may be what images are formed on one surface or on both surfaces here.
As illustrated in
The sheet stacked in the sheet cassette 10 is delivered out of the sheet cassette 10 by a pickup roller 21 of the sheet feeding unit 20 and is separated one by one by a separating roller pair 22. The sheet fed by the separating roller pair 22 is conveyed by a conveyance roller pair 23 toward a secondary transfer portion T2 of the image forming unit 30. A skew thereof is corrected by a registration roller pair 24 and the sheet is conveyed further to the secondary transfer portion T2 in synchronism with timing for forming an image.
The image forming unit 30 within the image forming apparatus body 100 includes process cartridges 31Y through 31K of yellow (Y), magenta (M), cyan (C) and black (K) disposed along an intermediate transfer belt 33. The image forming unit 30 also includes a scanner unit 32 detailed later, an intermediate transfer unit 43 and a fixing unit 50 configured to fix non-fixed toner images which have been transferred onto the sheet at the secondary transfer portion T2 to the sheet. The four process cartridges 31Y through 31K described above are provided removably to the image forming apparatus body 100 and are arrayed in order of yellow, magenta, cyan and black as described above along a rotation direction T of the intermediate transfer belt 33. These four process cartridges 31Y through 31K have approximately same structures except that their toner colors are different. Therefore, the yellow process cartridge 31Y will be typically described and descriptions of other process cartridges will be omitted in the following description.
The process cartridge 31Y is composed of a charging roller 35Y, a developing unit 36Y, a cleaning blade 37Y and others disposed around a photosensitive drum 34Y. A surface of the photosensitive drum 34Y is homogeneously charged by the charging roller 35Y and is exposed by the scanner unit 32 based on image signals so as to form an electrostatic latent image thereon. This electrostatic latent image is developed by the developing unit 36Y as a toner image. Then, the toner image is primarily transferred onto the intermediate transfer belt 33 by a transfer voltage applied to a primary transfer roller 38Y facing the photosensitive drum 34Y while interposing the intermediate transfer belt 33 at a primary transfer portion T1.
The primary transfer portion T1 is also provided in each of the process cartridges 31M through 31K of the other colors in the same manner by disposing primary transfer rollers 38M through 38K so as to face photosensitive drums 34M through 34K, respectively. Then, a full color toner image is formed on the intermediate transfer belt 33 as the toner image of each color is sequentially superimposed and transferred onto the intermediate transfer belt 33 at each of the primary transfer portion T1. The toner left without being transferred at the primary transfer portion T1 is removed from surfaces of the photosensitive drums 34Y through 34K by the cleaning blades 37Y through 37K.
The intermediate transfer unit 43 is constituted of the intermediate transfer belt 33 being stretched around a driving roller 39, a tension roller 40 and a secondary transfer inner roller 41 disposed downstream of the primary transfer rollers 38Y through 38K in the rotation direction T of the intermediate transfer belt 33. The secondary transfer inner roller 41 forms the secondary transfer portion T2 with a secondary transfer outer roller 42 disposed so as to face the secondary transfer inner roller 41 while interposing the intermediate transfer belt 33. The toner image on the intermediate transfer belt 33 is transferred onto a sheet conveyed at the secondary transfer portion T2.
The fixing unit 50 is provided downstream in the sheet conveyance direction of the secondary transfer portion T2 and constitutes a fixing nip by a heating roller 51 and a pressure roller 52 that is rotated in pressure contact with the heating roller 51. The heating roller 51 is heated up by a heater 53, e.g., a halogen lump or an induction heating device. The non-fixed toner image transferred onto the sheet at the secondary transfer portion T2 described above is heated and pressed at the fixing nip to be fixed onto the sheet.
The sheet discharging unit 60 is disposed downstream in the sheet conveyance path of the fixing unit 50, and discharges the sheet onto which the toner image has been fixed by the fixing unit 50 out of the image forming apparatus body 100. More specifically, the sheet discharging unit 60 is constituted of the sheet conveyance path branched as first and second conveyance paths 61 and 62. The sheet on which the toner image has been fixed by the fixing unit 50 is conveyed by conveyance roller pairs 63 and 64 and is guided and is switched by a distribution guide member 65, at a branch portion of the first and second conveyance paths 61 and 62, to be guided to the first conveyance path 61 or the second conveyance path 62. The sheet guided to the first conveyance path 61 is conveyed to a post-processing apparatus 80 serving as a sheet processing apparatus described in detail later. The sheet guided to the second conveyance path 62 is conveyed by a conveyance roller pair 66 and is discharged by a sheet discharge roller pair 67 onto a sheet discharge tray 81 provided at an upper surface of the post-processing apparatus 80. Note that the sheet conveyance path including the first and second conveyance paths 61 and 62 is defined such that a space through which the sheet is conveyed is parted from other spaces by disposing conveyance guides on both sides or one side thereof within the image forming apparatus body 100. For instance, the first conveyance path 61 is defined by disposing a conveyance guide 61a on one side thereof and disposing a conveyance guide 61b on the other side. The second conveyance path 62 is defined by disposing conveyance guides 62a and 69 on one side and disposing conveyance guides 62b, 62c and 62d on the other side thereof.
Still further, the discharge roller pair 67 and the conveyance roller pair 66 are configured to be normally and inversely rotatable and a reverse conveyance path 70 is branched from the second conveyance path 62. Therefore, in a case of forming images on both surfaces of the sheet, the sheet on which the image has been formed on one surface thereof is guided to the second conveyance path 62 and is conveyed by the normally rotating conveyance roller pairs 66 and 67 until when a trailing edge of the sheet is conveyed beyond the branch portion with the reverse conveyance path 70. Then, when the trailing edge of the sheet is conveyed beyond the branch portion with the reverse conveyance path 70, the conveyance roller pairs 66 and 67 rotate inversely, so that the sheet is switched back. At this time, the distribution guide member 75 is switched to a position of guiding the sheet to the reverse conveyance path 70, and the sheet switched back is conveyed to the reverse conveyance path 70 while switching back its leading and trailing edges. After that, the sheet is conveyed by conveyance roller pairs 71 through 74 within the reverse conveyance path 70 and is conveyed again to the registration roller pair 24 in a condition in which a front surface and a back surface thereof is reversed.
In the printer 1 constructed as described above, the sheet conveyance unit conveying the sheet in the upper part of the image forming unit 30 may be referred to as a first conveyance unit 300. That is, the printer 1 includes the first conveyance unit 300 constituted of a part including the sheet discharging unit 60 described above and a part defining an in-body space in which the post-processing apparatus 80 is disposed within the image forming apparatus body 100.
Next, a configuration of the post-processing apparatus 80 serving as a second conveyance unit to which the sheet is conveyed from the first conveyance unit 300 described above will be described. The post-processing apparatus 80 is disposed within the in-body space defined between the image forming apparatus body 100 and the image reading unit 200 and is positioned at a position above the image forming unit 30 where a part thereof overlaps with the image forming unit 30 when viewed in a perpendicular direction. The post-processing apparatus 80 is provided with the abovementioned sheet discharge tray 81 formed on an upper surface thereof and is also provided therein with a post-processing portion 82, e.g., a stapler in the present embodiment, for processing the sheet. The sheet received into the post-processing apparatus 80 through the first conveyance path 61 is conveyed by a conveyance roller 84 through a sheet conveyance path 83 within the post-processing apparatus 80. After that, the sheet is processed by the post-processing portion 82 and is discharged by a discharge roller pair 85 onto a sheet discharge tray 86 on a side of the post-processing apparatus 80. When no process is to be performed on the sheet, the sheet may be discharged onto the sheet discharge tray 86 without performing post-processing by the post-processing portion 82. Note that an amount of the sheets discharged onto the sheet discharge tray 81 defined on the upper surface of the post-processing apparatus 80 is detected by a full load detecting flag 68.
In addition, the post-processing apparatus 80 is configured to be able to slide between an operating position, i.e., a first position as illustrated in
For instance, in a case where the sheet is jammed (referred to also a “jam” hereinafter) on the second conveyance path 62 of the image forming apparatus body 100, the post-processing apparatus 80 is drawn out to the abovementioned jam processing position as illustrated in
The post-processing apparatus 80 is drawn out to the jam processing position (see
In the present embodiment, the post-processing apparatus 80 constitutes a sheet conveyance apparatus conveying the sheet together the image forming apparatus body 100 and a retaining mechanism 90 (see
Note that while the cover 87 is constituted of the pivotable conveyance guide unit composing the upper conveyance guide of the sheet conveyance path 83, the present disclosure is not limited to such configuration. For instance, the conveyance guides constituting the sheet conveyance path may be configured to be pivotable and a cover covering the conveyance guide outside thereof may be provided to use this cover as a cover of the invention. In this case, the conveyance guide becomes an inner cover. That is, the cover may be a cover covering the sheet conveyance path 83 of the post-processing apparatus 80 in the present embodiment.
Next, a retaining mechanism 90 serving as a retaining portion configured to retain positions of the post-processing apparatus 80 and the cover 87 will be described with reference to
As illustrated in
Still further, as illustrated in
If the cover 87 is to be opened from a close position as illustrated in
Then, when the retaining shaft 93 passes through an edge 91c of the slide cam 91 and comes to a downstream slope 91b, the slide cam 91 returns to the original standby retaining position by the urging force X of the urging member 92. Here, the slide cam 91 is inclined in the back direction so as to be distant away from the post-processing apparatus 80 as the inclination advances downstream in the opening direction opposite to that of the upstream slope 91a. When the cover 87 is opened completely to the open position where the operator can access the sheet conveyance path 83, a part of the retaining shaft 93 takes a position of riding on the slope 91b of the slide cam 91, so that the cover 87 is kept at the open position as the standby retaining position.
More specifically, as illustrated in
At this time, in the condition in which the cover 87 is pivoted to the position completely and manually opened, the slide cam 91 is urged by an enough urging force that does not move the cover 87 to the close position by own weight of the cover 87 beyond the slide cam 91. Therefore, the cover 87 can be retained at the open position and the operator can remove the sheet jammed in the sheet conveyance path 83 while leaving his hand from the cover 87.
Still further, the slide cam 91 is urged by an enough urging force that enables to keep the retained condition of the post-processing apparatus 80 when the sheet S jammed in a condition of being nipped by the roller pairs 84 and 85 within the post-processing apparatus 80 is pulled out while resisting against a nip force. Therefore, even if the post-processing apparatus 80 tries to move from the jam processing position toward the operating position, it is possible to apply an adequate resistance against a moving force thereof and to remove the sheet S within the post-processing apparatus 80 without moving the post-processing apparatus 80 located at the jam processing position.
In addition to that, as illustrated in
That is, if the post-processing apparatus 80 is moved in the first moving direction from the jam processing position to the operating position in the condition in which the cover 87 is retained at the open position by the retaining mechanism 90, the retaining shaft 93 is displaced while resisting against the urging force of the urging member 92, i.e., an elastic force of an elastic member. Thus, a resistance is applied to the post-processing apparatus 80 by this arrangement. In other words, the downstream slope 91b of the slide cam 91 constitutes a support portion supporting the retaining shaft 93 from downward in terms of the gravity direction. In the same time, the downstream slope 91b constitutes a resistance applying portion applying the resistance to the post-processing apparatus 80 by abutting with the retaining shaft 93 when the post-processing apparatus 80 moves from the jam processing position to the operating position. Note that although the support portion and the resistance applying portion are formed of one member in the present embodiment, they may be formed respectively by different members.
When the retaining shaft 93 goes beyond the edge 91c of the slide cam 91 as illustrated in
As described above, it becomes possible to remove the sheet jammed inside while releasing a hand off by providing the retaining mechanism 90 in the configuration in which operations of the two different movable members, e.g., the post-processing apparatus 80 and the cover 87, are required to access the jammed sheet. Therefore, no such happening that the cover 87 erroneously drops onto the operating position and thus catches the hand occurs in removing the sheet within the post-processing apparatus 80 as illustrated in
Still further, because the retaining mechanism 90 is arranged to retain the post-processing apparatus 80 at the jam processing position through the cover 87 retained at the open position, it is possible to retain the two movable portions by one retaining portion. Accordingly, it is possible to retain the cover 87 and the post-processing apparatus 80 respectively at the open position and the jam processing position by operating one retaining portion, and those movable members can be retained simply with small man-hours. Still further, their mechanism can be simple and can be constructed less expensively. That is, it is not necessary to provide respective retaining mechanisms for retaining positions of the cover and the post-processing apparatus described above, so that the cost can be cut and man-hours required in operating the retaining mechanisms can be cut.
Still further, as illustrated in
Note that according to the present embodiment, the retaining mechanism 90 is arranged so as not retain the post-processing apparatus 80 at the jam processing position even if the post-processing apparatus 80 is positioned at the jam processing position in a condition in which the cover 87 is in the close position.
Next, a second embodiment of the present disclosure will be described with reference to
As illustrated in
As illustrated in
When the post-processing apparatus 80 moves toward the jam processing position and the tip of the retaining shaft 93A enters the arcuate area 120B of the groove 120, the retaining shaft 93A is guided upward along the arcuate area 120B and the cover 87 thus starts to pivot. Then, when the post-processing apparatus 80 is slid and moved near the jam processing position, the cover 87 opens until the operator can access the sheet conveyance path 83 as illustrated in
More specifically, the tip of the retaining shaft 93A butts against the slope 122 at the end of the arcuate area 120B of the groove 120 as illustrated in
Because the shaft holding portion 87b2 deflects and sets back, the retaining shaft 93A rises up the slope 122 and passes through the parting portion 123 between the groove 120 and the retaining hole 121. Then, the deflection of the shaft holding portion 87b2 returns to its original state as the retaining shaft 93A fits with the retaining hole 121, and the tip of the retaining shaft 93A enters the retaining hole 121 in a condition of being supported by the retaining hole 121.
Because the retaining shaft 93A is urged by an elastic force of the shaft holding portion 87b2 in the same manner with the first embodiment, the cover 87 will not return from the open position to the close position by its own weight. Still further, in a case of pulling out the jammed sheet being nipped by the roller pairs 84 and 85 within the post-processing apparatus 80 while resisting against the nip force, the retaining shaft 93A is urged by the urging force of the shaft holding portion 87b2 so as to be able to fully keep the retaining condition of the post-processing apparatus 80.
Still further, if the post-processing apparatus 80 is caused to slide and move to the operating position in the condition in which the cover 87 is opened and the tip of the retaining shaft 93A fits in the retaining hole 121, the retaining shaft 93A slides and moves in the Y direction together with the post-processing apparatus 80 as illustrated in
If the retaining shaft 93A slides and moves from this position, the retaining shaft 93A rises up the retaining hole 121 and passes through the parting portion 123 between the groove 120 and the retaining hole 121 as the shaft holding portion 87b2 deflects and sets back in the same manner with the motion in opening/closing the cover 87. Then, as the retaining shaft 93A fits in the groove 120, the deflection of the shaft holding portion 87b2 returns to its original state and the tip of the retaining shaft 93A enters the groove 120. After that, the retaining shaft 93A is guided along the arcuate area 120B of the groove 120 and the cover 87 is closed as the retaining shaft 93A comes into the straight area 120A.
As described above, according to the present embodiment, the retaining mechanism 90 is consisted of the retaining shaft 93A serving as the projecting portion projecting out of the cover 87 and the retaining hole 121 serving as the recess defined in the image forming apparatus body 100 and fitting with the projecting portion. Then, both of the cover 87 and the post-processing apparatus 80 are retained by arranging such that the retaining shaft 93A fits with the retaining hole 121 at least when the cover 87 is opened in the condition in which the post-processing apparatus 80 is located at the jam processing position.
Note that while the recess is defined on the side of the image forming apparatus body 100 and the projecting portion is provided on the side of the post-processing apparatus 80 in the arrangement of the present embodiment, the recess may be provided on the side of the post-processing apparatus 80 and the projecting portion may be provided on the side of the image forming apparatus body 100. That is, it is also possible to arrange such that one of the first and second engage portions is configured as the projecting portion projecting to the other and the other one of the first and second engage portions is configured as the recess fittable with the projecting portion. Still further, while the retaining mechanism 90 is constituted of both the slide cam and the retaining shaft as the projecting portion in the first embodiment, the downstream slope of the first embodiment may be defined by a recess for example. Still further, the retaining hole 121 and the groove 120 may be defined continuously unless a detent effect of informing the operator of that the post-processing apparatus 80 is located at the open position by a response is not required.
Still further, while the retaining shaft 93A is displaced by the elastic force of the shaft holding portion 87b2 in the second embodiment, it is also possible to arrange such that the retaining shaft is formed of a flexible member or an elastic member such as rubber and is displaced by an elastic force of the retaining shaft itself.
Still further, as illustrated in
While the regulating surface 120D is an essential component that prevents the retaining shaft 93A from jumping over the groove 120 and from being positioned in the area 125 in the present embodiment, it is also possible to dispose the regulating surface also in the first embodiment. The same effect can be obtained by providing the regulating surface 120D.
Next, a third embodiment of the present disclosure will be described with reference to
As illustrated in
Still further, as illustrated in
As illustrated in
The slide cam 140 is also applied with an enough urging force by the urging member 141 that enables to keep the retaining condition of the post-processing apparatus 80 when the sheet S jammed while being nipped by the roller pair within the post-processing apparatus 80 is pulled out by resisting against a nip force.
If the post-processing apparatus 80 is tried to be slid and moved from the jam processing position to the operating position in the condition in which the cover 87 is opened and the retaining shaft 93B enters the cam surface of the slide cam, i.e., between slopes 140b and 140c, as illustrated in
As described above, the slide cam 140 serving as the first engage portion is provided on the plane of the image forming apparatus body 100 extending in the direction parallel to the moving direction of the post-processing apparatus 80. The urging member 141 serving also as the elastic member urges the slide cam 140 upward and vertically displaceably supports the slide cam 140. The retaining shaft 93B serving as the second engage portion is configured so as to pivot corresponding to the pivot operation of the cover 87 from the close position to the open position and so as to engage with the slide cam 140. This arrangement makes it possible to retain the cover 87 and the post-processing apparatus 80 respectively at the open position and the jam processing position with the simple structure not only in the in-body structure in which the image scanner is disposed in the upper part of the apparatus but also in the structure in which the upper part is opened.
Note that although the configuration of the sheet conveyance apparatus has been described by exemplifying the post-processing apparatus and the body of the image forming apparatus, the present disclosure is not limited to such configuration. For instance, the present disclosure is also applicable to a sheet feeding apparatus including an option feeder and a sheet conveyance apparatus composed of a document feeder and the body of the image forming apparatus. That is, the present disclosure is applicable to any sheet conveyance apparatus as long as positions of two movable members are retained by the retaining portion. Still further, the post-processing portion 82 serving as the sheet processing portion for processing the sheet is not limited to the stapler serving as a staple processing portion for stapling a plurality of sheets and may be structured including a punching portion, a sorting portion or the like for example and may include the plurality of functions. Note that the punching portion described above functions as a punching processing portion configured to perforate a hole through the sheet and the sorting portion described above functions as a sorting processing portion configured to sort discharge destinations of the sheets.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2018-197899, filed Oct. 19, 2018, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2018-197899 | Oct 2018 | JP | national |
This application is a continuation of application Ser. No. 16/587,138, filed Sep. 30, 2019.
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7212751 | Kayama et al. | May 2007 | B2 |
8213854 | Iida | Jul 2012 | B2 |
8240662 | Yahata | Aug 2012 | B2 |
8964199 | Onishi | Feb 2015 | B2 |
9598251 | Miyazaki et al. | Mar 2017 | B2 |
10035676 | Shirasaki | Jul 2018 | B2 |
20090194939 | Matsushima | Aug 2009 | A1 |
Number | Date | Country |
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2002-287447 | Oct 2002 | JP |
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Entry |
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Japanese Office Action dated Aug. 30, 2022, in related Japanese Patent Application No. 2018-197899. |
Number | Date | Country | |
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20220144577 A1 | May 2022 | US |
Number | Date | Country | |
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Parent | 16587138 | Sep 2019 | US |
Child | 17584579 | US |