The present application claims priority under 35 U.S.C. § 119 to Japanese Patent Application No. 2017-173107, filed on Sep. 8, 2017. The contents of this application are incorporated herein by reference in their entirety.
The present disclosure relates to an image forming apparatus, a sorting device, and a tray unit.
Some image forming apparatus includes a fixing section, a plurality of exit ports, a plurality of sheet stacking sections, a sheet cooling fan, and a duct member. The fixing section fixes a toner image to a sheet by heating the toner image. The exit ports discharge sheets to which toner images have been fixed to the respective sheet stacking sections. The sheet cooling fan and the duct member cool sheets discharged from the respective exit ports or sheets discharged to the respective sheet stacking sections by blowing air toward the sheets.
An image forming apparatus according to the present disclosure includes an image forming section, a discharge device, a plurality of trays, at least one guide member, and a controller. The image forming section forms an image on each of a plurality of recording mediums. The discharge device discharges each of the recording mediums. The recording mediums discharged by the discharge device are to be stacked on the trays. The at least one guide member guides each of the recording mediums from the discharge device toward a discharge destination tray among the plurality of trays. The recording medium guided by the at least one guide member is to be discharged onto the discharge destination tray. Every time one of the recording mediums is discharged by the discharge device, the controller controls the at least one guide member to change the discharge destination tray. The trays are configured such that leading ends of the recording mediums in a discharge direction are superposed on one another.
A sorting device according to the present disclosure includes a plurality of trays and at least one guide member. A plurality of recording mediums are to be stacked on the trays. The at least one guide member guides each of the recording mediums toward a discharge destination tray among the plurality of trays. The recording medium guided by the at least one guide member is to be discharged onto the discharge destination tray. Every time one of the recording mediums is discharged, the at least one guide member changes the discharge destination tray. The trays are configured such that leading ends of the recording mediums in a discharge direction are superposed on one another.
A tray unit according to the present disclosure includes a plurality of trays. A plurality of recording mediums are to be stacked on the trays. Each of the recording mediums is discharged onto a discharge destination tray among the plurality of trays. A length of each of the trays in a discharge direction of the recording mediums is shorter than a length of each of the recording mediums in the discharge direction.
The following describes an embodiment of the present disclosure with reference to the accompanying drawings (
First, the following describes an image forming apparatus 100 according to the embodiment of the present disclosure with reference to
The image forming apparatus 100 includes feeding cassettes 11, conveyance roller pairs 12, an image forming section 13, a discharging roller pair 15, a sorting device 200, and a controller 18. The image forming section 13 includes a fixing section 14. The sorting device 200 includes an exit tray 6 and a guide member 7. Sheets P fed from the feeding cassettes 11 are conveyed to the image forming section 13 by the conveyance roller pairs 12.
The image forming section 13 forms an image on a sheet P. Specifically, the image forming section 13 includes a photosensitive drum, a charger, a light exposure section, a developing section, a transfer section, a cleaning section, and a static eliminator. The image (toner image) is formed on the sheet P by the photosensitive drum, the charger, the light exposure section, the developing section, and the transfer section.
The fixing section 14 fixes the toner image formed on the sheet P to the sheet P. The discharging roller pair 15 discharges sheets P to the exit tray 6 sheet by sheet. The discharging roller pair 15 is an example of a “discharge device”.
Plural sheets P discharged by the discharging roller pair 15 are stacked on the exit tray 6. The exit tray 6 includes a first tray 61, a second tray 62, and a third tray 63. The second tray 62 is located above the first tray 61. The third tray 63 is located above the second tray 62. The first through third trays 61 to 63 are configured such that leading ends PA of the sheets P in a discharge direction D1 are superposed on one another (see
The guide member 7 guides each of the sheets P from the discharging roller pair 15 toward a discharge destination tray TR, which is any of the first through third trays 61 to 63 (see
The controller 18 controls operation of the image forming apparatus 100. The controller 18 includes a processor 181 and storage 182. The processor 181 includes for example a central processing unit (CPU). The storage 182 includes memory such as semiconductor memory and may further include a hard disk drive (HDD). The storage 182 stores a control program therein. The processor 181 controls the operation of the image forming apparatus 100 through execution of the control program. Specifically, every time the discharging roller pair 15 discharges a sheet P among the plural sheets P, the controller 18 controls the guide member 7 to change the discharge destination tray TR.
As described above with reference to
Although the image forming apparatus 100 in the embodiment of the present disclosure includes the first through third trays 61 to 63, the present disclosure is not limited to this configuration. It is only required that the image forming apparatus 100 include a plurality of exit trays. The image forming apparatus 100 may include for example only two exit trays or more than three exit trays.
The following describes a configuration of the sorting device 200 with reference to
The first plate-like member 711 includes a plurality of projections 711a. The projections 711a are provided at an end of the first plate-like member 711 in the discharge direction D1. Each of the projections 711a projects in the discharge direction D1. The projections 711a are arranged in a direction D2. The direction D2 is perpendicular to the discharge direction D1 and a direction D3. The direction D3 indicates a vertical direction.
The third tray 63 includes a third tray body 631. The third tray body 631 is a rectangular plate-like member arranged in the discharge direction D1. The third tray body 631 extends in the direction D2. Sheets P are to be placed on an upper surface of the third tray body 631.
The third tray body 631 includes a plurality of recesses 631a. The recesses 631a are provided at an end of the third tray body 631 in a direction opposite to the discharge direction D1. Each of the recesses 631a is an indented space formed in the discharge direction D1. The recesses 631a are arranged in the direction D2.
The first plate-like member 711 pivots in a manner that the projections 711a pass through the respective recesses 631a. That is, when the first plate-like member 711 pivots, the projections 711a pass through the respective recesses 631a. Specifically, the projections 711a pass through the recesses 631a respectively located opposite to the projections 711a.
Similarly to the third tray 63, the second tray 62 includes a second tray body 621. The second tray body 621 is a rectangular plate-like member arranged in the discharge direction D1. The second tray body 621 extends in the direction D2. Sheets P are to be placed on an upper surface of the second tray body 621.
The second tray body 621 includes a plurality of recesses 621a. The recesses 621a are provided at an end of the second tray body 621 in the direction opposite to the discharge direction D1. Each of the recesses 621a is an indented space formed in the discharge direction D1. The recesses 621a are arranged in the direction D2.
The first plate-like member 711 pivots in a manner that the projections 711a pass through the respective recesses 621a. That is, when the first plate-like member 711 pivots, the projections 711a pass through the respective recesses 621a. Specifically, the projections 711a pass through the recesses 621a respectively located opposite to the projections 711a.
The exit tray 6 further includes a pair of support members 64. The pair of support members 64 supports the second tray body 621 and the third tray body 631. Specifically, the pair of support members 64 supports opposite ends of the second tray body 621 in the direction D2 and opposite ends of the third tray body 631 in the direction D2. The support members 64 are plate-like members standing on an upper surface of the first tray 61.
As illustrated in
A length of the second tray body 621 in the discharge direction D1 is indicated as a length L2. A length of the third tray body 631 in the discharge direction D1 is indicated as a length L3. The length L2 and the length L3 are shorter than a length LP, which is a length of each sheet P in the discharge direction D1.
As described above with reference to
Further, the length L2 and the length L3 are shorter than the length LP. In this configuration, leading ends PA of sheets P discharged onto the second tray body 621 and leading ends PA of sheets P discharged onto the third tray body 631 fall downwards to be located on sheets P discharged onto the first tray body 611. Thus, the leading ends PA of the sheets P respectively discharged onto the second tray body 621 and the third tray body 631 can be superposed on leading ends PA of the sheets P discharged onto the first tray body 611. This will be described later in detail with reference to
Although the first plate-like member 711 in the embodiment of the present disclosure includes the projections 711a, the present disclosure is not limited to this configuration. It is only required that at least one of the first plate-like member 711 and a second plate-like member 721 of the second guide member 72 (see
Although the first plate-like member 711 in the embodiment of the present disclosure includes the plurality of projections 711a, the present disclosure is not limited to this configuration. It is only required that the first plate-like member 711 include at least one projection. A first plate-like member 711 including fewer projections is easier to produce. A first plate-like member 711 including at least a specific number of (for example, five) projections makes it possible to prevent the sheets P from striking the respective ends of the second tray body 621 and the third tray body 631 in the direction opposite to the discharge direction D1.
Although the second tray body 621 includes the recesses 621a and the third tray body 631 includes the recesses 631a in the embodiment of the present disclosure, the present disclosure is not limited to this configuration. It is only required that the second tray body 621 include the recesses 621a or the third tray body 631 include the recesses 631a.
The following describes a configuration and operation of the sorting device 200 with reference to
The first support member 712 pivotably supports the first plate-like member 711. The first support member 712 extends in the direction D2. The first support member 712 is rotationally driven by a motor, for example.
The second support member 722 pivotably supports the second plate-like member 721. The second support member 722 extends in the direction D2. The second support member 722 is rotationally driven by a motor, for example.
The second plate-like member 721 includes a plurality of projections 721a. The projections 721a are provided at an end of the second plate-like member 721 in the discharge direction D1. Each of the projections 721a projects in the discharge direction D1. The projections 721a are arranged in the direction D2.
The second plate-like member 721 pivots in a manner that the projections 721a pass through the respective recesses 631a. That is, when the second plate-like member 721 pivots, the projections 721a pass through the respective recesses 631a. Specifically, the recesses 631a are respectively located opposite to the projections 721a.
When a sheet P is to be discharged onto the first tray 61, the end of the first plate-like member 711 in the discharge direction D1 is located above an end of the first tray body 611 in the direction opposite to the discharge direction D1. The end of the second plate-like member 721 in the discharge direction D1 is located above the end of the second tray body 621 in the direction opposite to the discharge direction D1. The second plate-like member 721 is disposed to be substantially parallel to the first plate-like member 711.
A sheet P is discharged from the discharging roller pair 15 onto the first tray 61 as indicated by a direction D11 with a lower surface of the sheet P being guided by the first plate-like member 711 and an upper surface of the sheet P being guided by the second plate-like member 721. The direction D11 indicates a direction of travel of the sheet P discharged from the discharging roller pair 15. Thus, the sheet P is placed on the first tray 61. The sheet P placed on the first tray 61 will be referred to below as a sheet P1.
After the sheet P is placed on the first tray 61, the controller 18 controls the guide member 7 to discharge another sheet P from the discharging roller pair 15 onto the second tray 62. Specifically, the first plate-like member 711 is caused to pivot in a direction D41 about the first support member 712 and the second plate-like member 721 is caused to pivot in a direction D42 about the second support member 722. The direction D41 and the direction D42 each indicate a counter-clockwise direction.
A sheet P is discharged from the discharging roller pair 15 onto the second tray 62 as indicated by a direction D12 with a lower surface of the sheet P being guided by the first plate-like member 711 and an upper surface of the sheet P being guided by the second plate-like member 721. The direction D12 indicates a direction of travel of the sheet P discharged from the discharging roller pair 15. Thus, the sheet P is placed on the second tray 62. The sheet P placed on the second tray 62 will be referred to below as a sheet P2.
After the sheet P is placed on the second tray 62, the controller 18 controls the guide member 7 to discharge another sheet P from the discharging roller pair 15 onto the third tray 63. Specifically, the first plate-like member 711 is caused to pivot in a direction D51 about the first support member 712 and the second plate-like member 721 is caused to pivot in a direction D52 about the second support member 722. The direction D51 and the direction D52 each indicate a counter-clockwise direction.
A sheet P is discharged from the discharging roller pair 15 onto the third tray 63 as indicated by a direction D13 with a lower surface of the sheet P being guided by the first plate-like member 711 and an upper surface of the sheet P being guided by the second plate-like member 721. The direction D13 indicates a direction of travel of the sheet P discharged from the discharging roller pair 15. Thus, the sheet P is placed on the third tray 63. The sheet P placed on the third tray 63 will be referred to below as a sheet P3.
After the sheet P is placed on the third tray 63, the controller 18 controls the guide member 7 to discharge another sheet P from the discharging roller pair 15 onto the first tray 61. Specifically, the first plate-like member 711 is caused to pivot in a direction D61 about the first support member 712 and the second plate-like member 721 is caused to pivot in a direction D62 about the second support member 722. The direction D61 and the direction D62 each indicate a clockwise direction.
As described above with reference to
Further, the guide member 7 includes the first guide member 71 and the second guide member 72. The first guide member 71 guides the lower surface of each sheet P. The second guide member 72 guides the upper surface of each sheet P. In this configuration, the first guide member 71 prevents the sheet P from being discharged mistakenly onto a tray located below the discharge destination tray TR and the second guide member 72 prevents the sheet P from being discharged mistakenly onto a tray located above the discharge destination tray TR. Thus, the guide member 7 can reliably guide the sheet P.
Although the image forming apparatus 100 includes the first guide member 71 and the second guide member 72 in the embodiment of the present disclosure, the present disclosure is not limited to this configuration. It is only required that the image forming apparatus 100 include at least one of the first guide member 71 and the second guide member 72. For example, the image forming apparatus 100 may include the first guide member 71 only or the second guide member 72 only.
The following describes with reference to
The following describes a case where the total page number N is 12 with reference to
Next, a sheet P with an image of the third page formed thereon is discharged onto the first tray 61, a sheet P with an image of the seventh page formed thereon is discharged onto the second tray 62, and a sheet P with an image of the eleventh page formed thereon is discharged onto the third tray 63. Finally, a sheet P with an image of the fourth page formed thereon is discharged onto the first tray 61, a sheet P with an image of the eighth page formed thereon is discharged onto the second tray 62, and a sheet P with an image of the twelfth page formed thereon is discharged onto the third tray 63.
By changing the discharge destination tray TR as above, the sheets P with the images of the first through fourth pages formed respectively thereon are stacked on the first tray 61 in order from the bottom. Also, the sheets P with the images of the fifth through eighth pages formed respectively thereon are stacked on the second tray 62 in order from the bottom. Further, the sheets P with the images of the ninth through twelfth pages formed respectively thereon are stacked on the third tray 63 in order from the bottom. Thus, the sheets P can be stacked on the first through third trays 61 to 63 in the order of the page numbers.
The following describes a case where the total page number N is 10 with reference to
Next, a sheet P with an image of the third page formed thereon is discharged onto the first tray 61, a sheet P with an image of the seventh page formed thereon is discharged onto the second tray 62, and a sheet P with an image of the tenth page formed thereon is discharged onto the third tray 63. Finally, a sheet P with an image of the fourth page formed thereon is discharged onto the first tray 61.
By changing the discharge destination tray TR as above, the sheets P with the images of the first through fourth pages formed respectively thereon are stacked on the first tray 61 in order from the bottom. Also, the sheets P with the images of the fifth through seventh pages formed respectively thereon are stacked on the second tray 62 in order from the bottom. Further, the sheets P with the images of the eighth through tenth pages formed respectively thereon are stacked on the third tray 63 in order from the bottom. Thus, the sheets P can be stacked on the first through third trays 61 to 63 in the order of the page numbers.
The following describes a case where the total page number N is 11 with reference to
Next, a sheet P with an image of the third page formed thereon is discharged onto the first tray 61, a sheet P with an image of the seventh page formed thereon is discharged onto the second tray 62, and a sheet P with an image of the eleventh page formed thereon is discharged onto the third tray 63. Finally, a sheet P with an image of the fourth page formed thereon is discharged onto the first tray 61 and a sheet P with an image of the eighth page formed thereon is discharged onto the second tray 62.
By changing the discharge destination tray TR as above, the sheets P with the images of the first through fourth pages formed respectively thereon are stacked on the first tray 61 in order from the bottom. Also, the sheets P with the images of the fifth through eighth pages formed respectively thereon are stacked on the second tray 62 in order from the bottom. Further, the sheets P with the images of the ninth through eleventh pages formed respectively thereon are stacked on the third tray 63 in order from the bottom. Thus, the sheets P can be stacked on the first through third trays 61 to 63 in the order of the page numbers.
As illustrated in
When the controller 18 determines that the remainder is not zero when the total page number N is divided by the number of trays (NO at Step S101), the routine proceeds to Step S201 in
At Step S103, the controller 18 assigns to a constant NT an integer part of a quotient of the total page number N divided by the number of trays (=3). Note that “INT(N/3)” represents the integer part of the quotient of the total page number N divided by 3.
Next at Step S105, the controller 18 assigns “1” to a page number M.
Then at Step S107, the controller 18 controls the image forming section 13 to form an image corresponding to the page number M on a sheet P and controls the guide member 7 to discharge the sheet P onto the first tray 61.
Next at Step S109, the controller 18 assigns a sum of the page number M and the constant NT to a page number K.
Then at Step S111, the controller 18 controls the image forming section 13 to form an image corresponding to the page number K on a sheet P and controls the guide member 7 to discharge the sheet P onto the second tray 62.
Next at Step S113, the controller 18 assigns a sum of the page number K and the constant NT to a page number H.
Then at Step S115, the controller 18 controls the image forming section 13 to form an image corresponding to the page number H on a sheet P and controls the guide member 7 to discharge the sheet P onto the third tray 63.
Next at Step S117, the controller 18 determines whether or not the page number H is equal to or greater than the total page number N.
When the controller 18 determines that the page number H is equal to or greater than the total page number N (YES at Step S117), the processing ends. When the controller 18 determines that the page number H is neither equal to nor greater than the total page number N (NO at Step S117), the routine proceeds to Step S119.
At Step S119, the controller 18 increments the page number M by one, and the routine then returns to Step S107.
When a negative determination is made at Step S101, the controller 18 determines, at Step S201 in
When the controller 18 determines that the remainder is not one when the total page number N is divided by the number of trays (NO at Step S201), the routine proceeds to Step S301 in
At Step S203, the controller 18 assigns to a constant NT an integer part of a quotient of the total page number N divided by the number of trays (=3).
Next at Step S205, the controller 18 assigns “1” to a page number M.
Then at Step S207, the controller 18 controls the image forming section 13 to form an image corresponding to the page number M on a sheet P and controls the guide member 7 to discharge the sheet P onto the first tray 61.
Next at Step S209, the controller 18 determines whether or not the page number M is equal to or greater than (constant NT+1).
When the controller 18 determines that the page number M is equal to or greater than (constant NT+1) (YES at Step S209), the processing ends. When the controller 18 determines that the page number M is neither equal to nor greater than (constant NT+1) (NO at Step S209), the routine proceeds to Step S211.
At Step S211, the controller 18 assigns to a page number K a sum of the page number M and (constant NT+1).
Then at Step S213, the controller 18 controls the image forming section 13 to form an image corresponding to the page number K on a sheet P and controls the guide member 7 to discharge the sheet P onto the second tray 62.
Next at Step S215, the controller 18 assigns a sum of the page number K and the constant NT to a page number H.
Next at Step S217, the controller 18 controls the image forming section 13 to form an image corresponding to the page number H on a sheet P and controls the guide member 7 to discharge the sheet P onto the third tray 63.
Then at Step S219, the controller 18 increments the page number M by one, and the routine then returns to Step S207.
When a negative determination is made at Step S201, the controller 18 assigns, at Step S301 in
Then at Step S303, the controller 18 assigns “1” to a page number M.
Next at Step S305, the controller 18 controls the image forming section 13 to form an image corresponding to the page number M on a sheet P and controls the guide member 7 to discharge the sheet P onto the first tray 61.
Next at Step S307, the controller 18 assigns to a page number K a sum of the page number M and (constant NT+1).
Then at Step S309, the controller 18 controls the image forming section 13 to form an image corresponding to the page number K on a sheet P and controls the guide member 7 to discharge the sheet P onto the second tray 62.
Next at Step S311, the controller 18 determines whether or not the page number K is equal to or greater than [(constant NT+1)×2].
When the controller 18 determines that the page number K is equal to or greater than [(constant NT+1)×2] (YES at Step S311), the processing ends. When the controller 18 determines that the page number K is neither equal to nor greater than [(constant NT+1)×2]″ (NO at Step S311), the routine proceeds to Step S313.
At Step S313, the controller 18 assigns a sum of the page number K and the constant NT to a page number H.
Next at Step S315, the controller 18 controls the image forming section 13 to form an image corresponding to the page number H on a sheet P and controls the guide member 7 to discharge the sheet P onto the third tray 63.
Then at Step S317, the controller 18 increments the page number M by one, and the routine then returns to Step S305.
As described above with reference to
Also, every time the discharging roller pair 15 discharges a sheet P, the controller 18 changes the discharge destination tray TR. Therefore, just discharged sheets P having a high temperature are prevented from being stacked on one another. As a result, adhesion of the sheets P to one another can be inhibited more effectively.
Although the controller 18 changes the discharge destination tray TR to the first tray 61, the second tray 62, and the third tray 63 in the stated order in the embodiment of the present disclosure, the present disclosure is not limited to this configuration. It is only required that the controller 18 change the discharge destination tray TR every time the discharging roller pair 15 discharges a sheet P. The controller 18 may change the discharge destination tray TR to the third tray 63, the second tray 62, and the first tray 61 in the stated order, for example.
The following further describes the configuration of the sorting device 200 with reference to
As described with reference to
The first protrusion 622 causes the sheets P2 placed on the second tray 62 to curve so that the leading ends PA of the sheets P are aligned. Specifically, the first protrusion 622 causes the sheets P2 to curve so that the position of the leading ends PA of the sheets P2 substantially coincides with that of the leading ends PA of the sheets P3.
More specifically, the first protrusion 622 protrudes from the upper surface of the second tray body 621 in the direction D3. The first protrusion 622 extends in the direction D2. The first protrusion 622 is located at an end of the second tray body 621 in the discharge direction D1. The first protrusion 622 has an upper surface substantially forming an arc. An end of the first protrusion 622 in the direction opposite to the discharge direction D1 is joined to the upper surface of the second tray body 621 such that the joint gives a smooth surface. The first protrusion 622 has a height H2 in the direction D3.
The first protrusion 612 causes sheets P1 placed on the first tray 61 to curve so that the leading ends PA of the sheets P are aligned. Specifically, the first protrusion 612 causes the sheets P1 to curve so that the position of leading ends PA of the sheets P1 substantially coincides with that of the leading ends PA of the sheets P3.
More specifically, the first protrusion 612 protrudes from the upper surface of the first tray body 611 in the direction D3. The first protrusion 612 extends in the direction D2. The first protrusion 612 is provided on the first tray body 611 so as to be located under the first protrusion 622. The first protrusion 612 has an upper surface substantially forming an arc. An end of the first protrusion 612 in the direction opposite to the discharge direction D1 is joined to the upper surface of the first tray body 611 such that the joint gives a smooth surface. The first protrusion 612 has a height H1 in the direction D3. The height H1 is higher than the height H2.
The second protrusion 613 is provided on the upper surface of the first tray body 611. The second protrusion 613 causes the sheets P (sheets P1 to P3) to curve so that the leading ends PA of the respective sheets P are spaced from the first tray body 611. Specifically, the second protrusion 613 causes the sheets P1 to P3 to curve so that the leading ends PA of the sheets P1, the leading ends PA of the sheets P2, and the leading ends PA of the sheets P3 are spaced from the first tray body 611.
More specifically, the second protrusion 613 is spaced from the position of leading edges of the sheets P by a specific distance in the direction opposite to the discharge direction D1. The second protrusion 613 protrudes from the upper surface of the first tray body 611 in the direction D3. The second protrusion 613 extends in the direction D2. The second protrusion 613 has an upper surface substantially forming an arc. An end of the second protrusion 613 in the direction opposite to the discharge direction D1 is joined to the upper surface of the first tray body 611 such that the joint gives a smooth surface.
As described above with reference to
Further, the second protrusion 613 causes the sheets P (sheets P1 to P3) to curve so that the leading ends PA of the sheets P are spaced from the first tray body 611. As a result, the leading ends PA of the sheets P are spaced from the first tray body 611. Therefore, the sheets P stacked on the first through third trays 61 to 63 can be more easily collected.
Although the first protrusions 612 and 622 align the leading ends PA of the sheets P1, the leading ends PA of the sheets P2, and the leading ends PA of the sheets P3 with one another in the embodiment of the present disclosure, the present disclosure is not limited to this configuration. For example, a stopper ST may align the leading ends PA of the sheets P1, the leading ends PA of the sheets P2, and the leading ends PA of the sheets P3 with one another.
Specifically, the stopper ST restricts the position of the leading ends PA of the sheets P2 and the position of the leading ends PA of the sheets P1 so that the positions of the respective leading ends PA coincide with the position of the leading ends PA of the sheets P3. The stopper ST is a plate-like member standing on the first tray body 611. The stopper ST extends in the direction D2.
The following further describes the second tray 62 and the third tray 63 with reference to
The pivotable member 623 is pivotably supported by the pivot shaft 624. The pivotable member 623 is a rectangular plate-like member. The pivot shaft 624 pivotably supports the pivotable member 623. The pivot shaft 624 extends in the direction D2.
The pivotable member 623 is pivotable between a state in which the pivotable member 623 is accommodated in the second tray body 621 as illustrated with broken lines in
In the state in which the pivotable member 623 is accommodated in the second tray body 621, the length L2 of the second tray 62 is shorter than the length LP as described with reference to
As described above, the second tray 62 is configured such that its length is adjustable. That is, in the state in which the pivotable member 623 is accommodated in the second tray body 621, the length L2 of the second tray 62 in the discharge direction D1 is shorter than the length LP. In the state in which the pivotable member 623 projects from the end of the second tray body 621 in the discharge direction D1, the length L2D of the second tray 62 in the discharge direction D1 is longer than the length LP.
The pivotable member 633 is pivotably supported by the pivot shaft 634. The pivotable member 633 is a rectangular plate-like member. The pivot shaft 634 pivotably supports the pivotable member 633. The pivot shaft 634 extends in the direction D2.
The pivotable member 633 is pivotable between a state in which the pivotable member 633 is accommodated in the third tray body 631 as illustrated with broken lines in
In the state in which the pivotable member 633 is accommodated in the third tray body 631, the length L3 of the third tray 63 is shorter than the length LP as described with reference to
As described above, the third tray 63 is configured such that its length is adjustable. That is, in the state in which the pivotable member 633 is accommodated in the third tray body 631, the length L3 of the third tray 63 in the discharge direction D1 is shorter than the length LP. In the state in which the pivotable member 633 projects from the end of the third tray body 631 in the discharge direction D1, the length L3D of the third tray 63 in the discharge direction D1 is longer than the length LP.
That is, in the state in which the second tray 62 is extended (i.e., the pivotable member 623 projects from the end of the second tray body 621 in the discharge direction D1), the length L2D of the second tray 62 in the discharge direction D1 is longer than the length LP. Accordingly, the sheets P2 can be stacked on the second tray 62.
Also, in the state in which the third tray 63 is extended (i.e., the pivotable member 633 projects from the end of the third tray body 631 in the discharge direction D1), the length L3D of the third tray 63 in the discharge direction D1 is longer than the length LP. Accordingly, the sheets P3 can be stacked on the third tray 63.
As described above with reference to
Although the lengths of the second tray 62 and the third tray 63 in the discharge direction D1 are adjustable in the embodiment of the present disclosure, the present disclosure is not limited to this configuration. It is only required that at least one of the length of the second tray 62 in the discharge direction D1 and the length of the third tray 63 in the discharge direction D1 be adjustable.
Through the above, the embodiment of the present disclosure has been described with reference to the drawings. However, the present disclosure is not limited to the above embodiment and may be practiced in various manners within a scope not departing from the gist of the present disclosure (for example, as described below in (1) to (3)). The drawings schematically illustrate elements of configuration to facilitate understanding thereof. Properties of the elements of configuration, such as thickness and length, and the number of each element may differ from actual ones thereof to facilitate preparation of the drawings. Also, shape, dimensions, and the like of elements of configuration described in the above embodiment are merely examples and not intended as specific limitations. Various alterations may be made within a scope not substantially departing from the configuration of the present disclosure.
(1) As described with reference to
(2) As described with reference to
(3) As described with reference to
Number | Date | Country | Kind |
---|---|---|---|
2017-173107 | Sep 2017 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4822025 | Chung | Apr 1989 | A |
4843434 | Lawrence | Jun 1989 | A |
5131644 | DuBois | Jul 1992 | A |
5141222 | Sawada | Aug 1992 | A |
5358238 | Mandel | Oct 1994 | A |
5603494 | Baker | Feb 1997 | A |
7311303 | Gonzalez | Dec 2007 | B2 |
8424871 | Ino | Apr 2013 | B2 |
10052864 | Tanaka | Aug 2018 | B2 |
20160154358 | Hashimoto | Jun 2016 | A1 |
Number | Date | Country |
---|---|---|
2470747 | Jun 1981 | FR |
2002-072729 | Mar 2002 | JP |
Number | Date | Country | |
---|---|---|---|
20190077626 A1 | Mar 2019 | US |