1. Field of the Invention
The present invention relates to a sheet stacking apparatus which stacks sheets, and more particularly, to a sheet stacking apparatus in which a discharge tray can be folded when a cover of an apparatus body is opened and closed, the discharge tray is extended when the cover is closed and the discharge tray is folded when the cover is opened, and the invention also relates to an image forming apparatus having the sheet stacking apparatus.
2. Description of the Related Art
Conventionally, there is an image forming apparatus which discharges recording sheets of paper (sheets) on which an image is formed in an apparatus body from the apparatus body, and the sheets are stacked on a discharge tray of the apparatus body. Examples of the image forming apparatus are a copying machine, a facsimile machine, a printer and a machine having multifunction of these machines.
As the discharge tray, there is a tray which can be extended if necessary when the recording sheet is of A3 size and long so that the sheet can be stacked and which can handle the long sheet. Such a tray is called an extension tray.
As an extension tray, there is a fixed-type tray which is merely formed into a plate-like shape and is fitted into and fixed to a portion of an exterior of the apparatus body if necessary. There is a turning type tray which is attached to the exterior of the apparatus body by means of a rotation shaft such that the tray can turn, and when the tray is not used, it is in intimate contact with the exterior and when the tray is used, the tray is separated from the exterior and is opened.
As a turning-type extension tray, there is an opening/closing type tray which forms a portion of the exterior and is used also as a cover of the apparatus body and in which the apparatus body is opened and closed. As the opening/closing type tray, there is an extension type tray which can further be pulled out if necessary and extended in a state where the apparatus body is opened (Japanese Patent Application Laid-open No. 2006-188363).
As the extension tray, there is a tray in which a maintenance cover which opens and closes the apparatus body when a cartridge in the apparatus body is to be exchanged or maintenance is to be performed is provided at a location where the cover is turned.
An image forming apparatus of recent years is required to save space for reducing the installation area or an occupying area. In the case of an upper portion of the exterior of the apparatus body is used also as the discharge tray, it is difficult to secure a length of the discharge tray which can stack the long sheet, because of a size limit of the apparatus body.
Generally, in the case of an image forming apparatus having a fixed-type extension tray, since the extension tray projects to a side of the apparatus body, it is necessary to increase a region (occupying region) of space occupied by the image forming apparatus.
In the case of the image forming apparatus having the turning-type extension tray, when the extension tray is opened, the extension tray projects from the side of the apparatus body. Therefore, it is necessary to secure a wide occupied region, and if the occupied region when the extension tray is opened is not taken into account, the extension tray can not be opened.
It is necessary that the image forming apparatus having the extension tray near the maintenance cover is disposed while taking the opening/closing amount of the extension tray, the moving amount of the extension tray and the opening/closing amount of the maintenance cover, and it is necessary to secure a wide occupied region.
It is an object of the present invention to provide a sheet stacking apparatus in which a discharge tray can be folded as a cover of the apparatus body is opened or closed, the discharge tray which can stack the long sheet is capable of installation, and a wide occupied region or a wide installation area is not required, and to provide an image forming apparatus having the sheet stacking apparatus.
A sheet stacking apparatus comprises: an apparatus body; a cover which is opened and closed with respect to the apparatus body; and a stacking portion on which a discharged sheet is stacked; the stacking portion is provided over the apparatus body and the cover, and the stacking portion can be folded as the cover opens.
According to the sheet stacking apparatus of the invention, the discharge tray is can be folded as a cover of the apparatus body is opened or closed, the discharge tray which can stack the long sheet is capable of installation, a wide installation area are not required, and the space can be saved.
Further features of the present invention will become apparent from the following description of exemplary embodiments (with reference to the attached drawings).
An image forming apparatus in which a sheet stacking apparatus according to an embodiment of the present invention is integrally incorporated will be explained based on the drawings. The scope of the invention is not limited to materials, shapes and relative disposition of constituent parts of the image forming apparatus of the embodiment unless otherwise specified.
The image forming apparatus 100 (
The apparatus body 110 (
A recording paper sheet in a sheet cassette 15 is sent out by a sheet feeding roller 16, and the recording paper sheet is pulled out by a pair of pull-out rollers 17. The recording paper sheet is once received by a pair of registration rollers 18, skew feeding is corrected into straight feeding and then, the recording paper sheet is aligned with a toner image on the transfer belt and sent to a nip between a secondary transfer roller 19 and the transfer belt 13.
The secondary transfer roller 19 transfers the toner image on the transfer belt 13 and secondary transfers the toner image on the recording paper sheet. After the toner image is transferred to the recording paper sheet, the sheet is heated by a fixing device 20, the toner image is fixed, the sheet is conveyed by a pair of discharge rollers 21 and 22, discharged into the discharge tray 200 and stacked.
In the above structure, the photosensitive drums 11y, 11m, 11c and 11b, the primary transfer roller 14 and the secondary transfer roller 19 constitute an image forming portion 23.
The front cover 120 opens and closes a front portion of the apparatus body 110 around a lower portion 120a.
A shaft 132 (
The discharge tray 200 as a stacking portion is divided into four, i.e., the upstream tray 210, an intermediate tray 220, a downstream tray 230 and a sheet stacking portion 133 which is a portion of the stacking portion on the side of the upper cover 130 as division members. The sheet stacking portion 133 of the upper cover 130 is also a portion of the upper cover 130, and is also a portion of the discharge tray 200. The downstream tray 230 is fixed to the apparatus body 110. In this manner, the discharge tray 200 is provided on the apparatus body 110 and the upper cover 130 cross over the shaft 132 as a turning fulcrum of the upper cover 130 to form a link structure. Although the discharge tray 200 is divided into four in the discharge direction of the recording paper sheet in this embodiment, the invention is not limited to this only if the discharge tray 200 is divided into two or more.
The trays (division members) are turnably connected to each other. Thus, the discharge tray 200 can be folded as the upper cover 130 opens, and can be extended as the upper cover 130 closes.
An upstream end of the upstream tray 210 in the discharge direction of the recording paper sheet (direction of the arrow A) is turnably connected to the upper cover 130 by an upstream connection 211 (
As shown in
The intermediate connection 212 (
An upstream end of the intermediate tray 220 (
The downstream connection 231 (
The downstream tray 230 is fixed to the apparatus body 110 by a fixing pawl 232.
In this structure, the intermediate connection 212 (
The shaft receivers 215 and 217 of the intermediate connection 212 (
The upstream connection 211 (
In the above structure, if the upper cover 130 (
In the above structure, the positional relation of the various elements of the discharge tray 200 when the upper cover 130 is opened is as follows:
First, the upstream connection 211 as a first connection which connects the upstream tray 210 to the upper cover 130 is set lower than the intermediate connection 212 as a second connection which connects the intermediate tray 220 as the other division member to the upstream tray 210.
It is preferable that the upper cover 130 is opened or closed after recording paper sheets on the discharge tray 200 are removed. However, if the above-described positional relation is established when a user erroneously opens the upper cover 130 while recording paper sheets are stacked on the discharge tray 200, it is possible to prevent the recording paper sheet on the discharge tray from falling.
When the upstream tray moves as the upper cover 130 is opened and the upstream tray turns as shown in
Second, a bent portion K formed by the intermediate connection 212 is set such that it is accommodated within a surface of projection when the upper cover 130 sees the apparatus located in the open position from the ceiling. That is, this structure prevents the bent portion K from projecting outward of the installation region of the image forming apparatus.
This can be set by the relation of lengths of various members. Alternatively, as shown in
The image forming apparatus is extended when the discharge tray 200 closes the upper cover 130, and the image forming apparatus is folded when the upper cover is opened. Thus, the occupied region of the entire apparatus when the upper cover is open and thus, the installation area need not be wide, and the space can be saved.
The discharge tray 200 does not protrude (project) from the installation region of the image forming apparatus 100 irrespective of opening and closing motion of the upper cover 130, the occupied region of the image forming apparatus and thus, the installation area need not be wide, and the space can be saved.
Although the discharge tray 200 is folded into four, a portion of the stacking portion provided in the apparatus body may be omitted like the discharge tray 201 shown in
That is, in the case of the discharge tray 201 shown in
The downstream connection 241 has such a structure that semi-circular shaft receivers 243 provided on both sides of a downstream side of the discharge tray 240 as the division member in the discharge direction of the recording paper sheet are engaged with columnar projections 242 projecting from both sides of the portion 250 of the apparatus body. The shaft receivers 243 have resiliency, and when the shaft receivers 243 receive the projections 242, the opening 243a once opens and then returns to the original position. The projections 242 may project from the discharge tray 240 and the shaft receivers 243 may be formed on the portion 250 of the apparatus body.
The image forming apparatus having the discharge tray 201 also exhibit the same effect as the image forming apparatus having the discharge tray 200.
The positional relation of the various members of the discharge tray 201 as the stacking portion when the upper cover 130 is opened is as follows:
First, the upstream connection 211 as the first connection which connects the upstream tray 210 to the upper cover 130 is set lower than the intermediate connection 212 as the second connection which connects the discharge tray 240 as the other division member to the upstream tray 210.
With this, even when a user erroneously opens the upper cover 130 while recording paper sheets are stacked on the discharge tray 201, and it is possible to prevent the recording paper sheet on the discharge tray from falling.
Since the wide space S between the discharge opening 140 and the upstream tray 210 is secured, it is possible to prevent the recording paper sheet from being sandwiched between the discharge opening 140 and the upstream tray 210.
Second, the bent portion K formed by the intermediate connection 212 is set such that it is accommodated within a surface of projection when the upper cover 130 sees the image forming apparatus located in the open position from the above. That is, this structure prevents the bent portion K from projecting outward of the installation region of the image forming apparatus.
This can be set by the length relation of the various members, but as shown in
With this, the discharge tray 201 does not protrude (project) from the installation region of the image forming apparatus 100 irrespective of opening and closing motion of the upper cover 130, the occupied region of the image forming apparatus and thus, the installation area need not be wide, and the space can be saved.
The two discharge trays 200 and 201 have the common structures in that the upstream tray 210 as the division member is connected to the upper cover 130 having the sheet stacking portion 133 as the division member constituting a portion of the discharge tray. The downstream tray 230 of the discharge tray 200 among the downstream trays 230 and 240 as the division members connected to the apparatus body 110 is integrally formed on the apparatus body 110, and the discharge tray 240 of the discharge tray 201 is turnably connected to the apparatus body 110. The upstream ends of the two discharge trays 200 and 201 are integrally formed on the upper cover 130, and the downstream ends thereof are integrally or turnably provided on the apparatus body, and are provided over the upper cover 130 and the apparatus body.
Although the image forming apparatus in which the sheet stacking apparatus is integrally incorporated in the apparatus body is explained in the embodiment, the present invention is also effective even if the sheet stacking apparatus is connected to the image forming apparatus as a separate apparatus such as a finisher which processes a sheet.
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. 2007-137841, filed May 24, 2007, No. 2008-128238 filed May 15, 2008 which are hereby incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
2007-137841 | May 2007 | JP | national |
2008-128238 | May 2008 | JP | national |
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Number | Date | Country | |
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