This application is based on Japanese Patent Application No. 2010-042809 filed with the Japan Patent Office on Feb. 26, 2010, the entire content of which is hereby incorporated by reference.
1. Field of the Invention
The present invention relates to a paper feeding cassette and an image forming apparatus.
2. Description of the Related Art
The image forming apparatus such as a copy machine, a printer, a facsimile machine, and a multifunctional complex machine employs an electrophotographic system for a process of forming an image onto a paper medium (a sheet of paper). In the electrophotographic system, a toner image which is a visible image is formed on the photoreceptor serving as a recording medium, and then transferred onto the paper medium such as plain paper. In order to keep the toner image held on this paper medium as a permanent image, for example, the paper medium is passed through a heat fixing apparatus to cause the toner to be fixed thereon. Then, the paper medium is discharged from the image forming apparatus to the outside.
The above-described image forming apparatus has a lower stage provided with a paper feeding cassette for storing paper media. In order to accommodate various sizes of paper media, this paper feeding cassette is provided with a side edge regulating plate for regulating the position of both side edges of the paper media and a trailing edge regulating plate for regulating the position of the trailing edge of the paper media in the direction in which the paper media are fed. Japanese Laid-Open Patent Publication No. 2000-016601 is cited as a prior art document disclosing that a paper feeding cassette is provided with a trailing edge regulating plate.
It is effective to provide a trailing edge regulating plate in the paper feeding cassette so as to accommodate various sizes of paper media. However, the paper feeding cassette is required to have a space for providing a trailing edge regulating plate. This may cause an increase in the size of the paper feeding cassette, which also leads to an increase in the area of the floor of the image forming apparatus.
In addition, the trailing edge regulating plate is required to reliably regulate the position of not only a sheet of paper but also stacked sheets of paper.
Accordingly, in order to sufficiently ensure the space for providing a trailing edge regulating plate without changing the area size of the floor of the image forming apparatus, it is necessary to reduce the capacity and decrease the maximum size of the paper media that can be stored in the paper feeding cassette.
The present invention aims to provide a paper feeding cassette having a structure capable of storing paper media of a relatively large size without increasing the area of the floor of an image forming apparatus, and the image forming apparatus.
A paper feeding cassette according to the present invention loadable into and unloadable from an image forming apparatus body includes a tray housing stacked paper media and having a bottom of an approximately rectangular shape and a sidewall provided to surround the bottom; and a trailing edge regulating member slidably disposed in a guide region placed in the bottom so as to extend along a paper feeding direction in which the paper media are fed and regulating a position of a trailing edge of the paper media in the paper feeding direction.
The trailing edge regulating member includes a base portion and an upright wall provided in the base portion on a rear side in the paper feeding direction. The sidewall includes a rear sidewall provided on a trailing edge side of the paper media in the paper feeding direction. The upright wall includes a first upright portion extending upright from the base portion and a second upright portion provided above the first upright portion and having a rear end face located rearwardly of a rear end face of the first upright portion. When the trailing edge regulating member is located on a rearmost side in the guide region, the rear end face of the first upright portion is brought into contact with an inner face of the rear sidewall and the second upright portion is located above the rear sidewall.
Preferably, the rear sidewall has a notched sidewall which is lower in height from the bottom than the rear sidewall. When the trailing edge regulating member is located on the rearmost side in the guide region, the rear end face of the first upright portion is brought into contact with an inner face of the notched sidewall and the second upright portion is located above the notched sidewall, and a height of the trailing edge regulating member from the bottom is equal to or lower than a height of the rear sidewall from the bottom.
Preferably, a thickness of the second upright portion in the paper feeding direction is greater than a thickness of the first upright portion.
Preferably, the second upright portion includes at least a part of a first elastic portion for regulating movement of the trailing edge regulating member in the paper feeding direction by applying elastic force in a direction orthogonal to the paper feeding direction.
Preferably, the trailing edge regulating member has a second elastic portion brought into contact with the trailing edge of the paper media to bias, in the paper feeding direction, the trailing edge of the paper media in proximity to the bottom. The second elastic portion having an inverted U-shaped portion has one end located on the rear side in the paper feeding direction and the other end located on a forward side in the paper feeding direction. The one end is connected to the second upright portion and the other end is in a non-connected state and brought into contact with the trailing edge of the paper media.
Preferably, the trailing edge regulating member is made of a resin molded product.
Preferably, the paper feeding cassette includes a raising portion raising, from the bottom, a portion of the paper media in proximity to a leading edge of the paper media in the paper feeding direction.
Preferably, the image forming apparatus body includes a pull-out side support frame supporting loading and unloading of the paper feeding cassette and guiding an upper face of the rear sidewall. A notch width of the notched sidewall is less than a width of the pull-out side support frame.
The image forming apparatus according to the present invention has one of the above-described loadable and unloadable paper feeding cassettes.
The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.
The paper feeding cassette and the image forming apparatus in the embodiment according to the present invention will be hereinafter described with reference to the drawings. In the embodiments described below, when the number, the quantity and the like are mentioned, the scope of the present invention is not necessarily limited thereto unless otherwise specified. Furthermore, the same or corresponding components are designated by the same reference characters, and description thereof may not be repeated.
(Image Forming Apparatus 1)
Referring to
Referring to
Image forming apparatus 1 such as a copy machine, a printer, a facsimile machine, and a multifunctional complex machine employs an electrophotographic system for a process of forming an image onto a paper medium. In the electrophotographic system, a toner image which is a visible image is formed on the photoreceptor serving as a recording medium, and then transferred onto the paper medium such as plain paper. In order to keep the toner image held on this paper medium as a permanent image, for example, the paper medium is passed through a heat fixing apparatus to cause the toner to be fixed thereon. Then, the paper medium is discharged from the image forming apparatus to the outside.
Referring to
(Paper Feeding Cassette 200)
Referring to
The sidewall includes a pull-out side sidewall 212 located on the pull-out side, a forward sidewall 213 located on the forward side in the paper feeding direction, a back sidewall 214 located on the back side, and a rear sidewall 215 located on the rear side in the paper feeding direction. In addition, pull-out side sidewall 212 is equipped with a pull-out panel 216.
A guide region 211G is provided in bottom 211 so as to extend along the paper feeding direction of the paper media (direction B), and a trailing edge regulating member 250 is slidably disposed along this guide region 211G. This trailing edge regulating member 250 allows regulation of the position of the trailing edge of the paper media on the rear side in the paper feeding direction in accordance with the size of the stacked paper media housed in tray 210.
Bottom 211 is provided on its forward side in the paper feeding direction with a raising plate 230 for raising, from the bottom, a portion of the paper media in proximity to its leading edge in the paper feeding direction (direction B). Raising plate 230 has a leading edge in the paper feeding direction provided with a paper feeding roller 220. In accordance with the remaining number (weight) of the stacked paper media housed in tray 210, the paper medium located at the top is pushed toward paper feeding roller 220 by the elastic member (not shown) provided in raising plate 230.
Each of pull-out side sidewall 212 and back sidewall 214 is provided inside with a side regulating member 240. This side regulating member allows regulation of the position of the side edge corresponding to the side of the stacked paper media in accordance with the size of the stacked paper media housed in tray 210.
(Guide Region 211G)
Referring to
Groove portion 211b is provided on its forward side in the paper feeding direction with an opening 211h (see
(Notched Sidewall 215a)
Rear sidewall 215 has a notched sidewall 215a located along the extension line on the rear side of guide region 211G and having an upper end lower than that of rear sidewall 215 (a height H5; see
(Trailing Edge Regulating Member 250)
Then, referring to
Upright wall 252 has a first upright portion 252a having a thickness W2 and extending upright from the rear end of base portion 251; and a second upright portion 252b having a thickness T1 and having a rear end face located rearwardly of the rear end face of first upright portion 252a. In the present embodiment, the front end faces of first upright portion 252a and second upright portion 252b are flush with each other.
Each upright wall 252 is provided on its outside with a longitudinal elastic piece 253 extending downwardly from the upper end of upright wall 252. Furthermore, base portion 251 is also provided on its outside with a lateral elastic piece 254 which extends from the forward side to the rear side on base portion 251. Longitudinal elastic piece 253 and lateral elastic piece 254 are connected to each other in the region on the rear end side of base portion 251. In this connection region, a regulating member side rack 256 engaged with floor side rack 211c is provided. Longitudinal elastic piece 253 and lateral elastic piece 254 constitute the first elastic portion.
Floor side rack 211c and regulating member side rack 256 are engaged with each other to form a ratchet mechanism. Specifically, while movement of trailing edge regulating member 250 in the paper feeding direction (direction B) is not regulated, movement of trailing edge regulating member 250 in the rearward direction (direction D) is regulated. In order to move trailing edge regulating member 250 in the rearward direction (direction D), fingers are used to hold longitudinal elastic piece 253 from both sides to push longitudinal elastic piece 253 to be slightly shifted inward, which causes disengagement of regulating member side rack 256 from floor side rack 211c for movement of trailing edge regulating member 250.
Thickness T1 of second upright portion 252b including longitudinal elastic piece 253 is greater than thickness W2 of first upright portion 252a. This allows longitudinal elastic piece 253 to have sufficient elastic force in the direction orthogonal to the paper feeding direction (B), thereby ensuring the engagement between regulating member side rack 256 of trailing edge regulating member 250 and floor side rack 211c.
Base portion 251 has a back side provided with two guide members 258 located along the sliding direction and protruding downwardly. Each guide member 258 has bottom side engagement member 259 which protrudes in the outward direction. Furthermore, base portion 251 is also provided at its side face on the front side with a front side engagement member 257 protruding in the outward direction.
Guide member 258 and bottom side engagement member 259 are inserted through opening 211h provided in the above-described groove portion 211b in guide region 211G on the forward side in the paper feeding direction. Trailing edge regulating member 250 is moved along groove portion 211b in this state, which causes lower floor portion 211a to be held between bottom side engagement member 259 and base portion 251 together with front side engagement member 257 in another region of groove portion 211b. Consequently, trailing edge regulating member 250 can be prevented from being disengaged from groove portion 211b.
Furthermore, upright wall 252 has a space along its center section in which an elastic member 255 is provided that is brought into contact with the trailing edge of the paper media to bias the paper media in the forward direction in the paper feeding direction. This elastic member 255 has an inverted U-shape in which the end of one leg 255a located on the rear side is connected to a second upright portion 252b and the end of the other leg 255c located on the forward side is in the non-connected state. This elastic member 255 forms the second elastic portion.
Furthermore, the other leg 255c located on the forward side is configured in such a manner that the portion closer to the lower end is more inclined in the forward direction. This configuration is provided because, when the quantity of the stacked paper media is decreased, the forward side of the paper media in the paper feeding direction is greatly lifted by raising plate 230, which requires alignment of the position of the leading edge of the paper media on the forward side in the paper feeding direction.
Furthermore, second upright portion 252b has thickness T1 greater than thickness W2 of first upright portion 252a. This allows the rigidity of trailing edge regulating member 250 to be ensured. In addition, an inverted U-shaped region 255b of elastic member 255 can also be formed to have a thickness T2 greater than thickness W2 of first upright portion 252a. This causes elastic member 255 to develop sufficient elastic force (F) in the paper feeding direction. Consequently, the leading edge of the last sheet of the paper media can also be pushed to be located in the paper feeding position with reliability even in the state where the trailing edge of the paper media, particularly of the lower paper media, is inclined by raising plate 230.
Although the description has been made with regard to the case where an integrally molded product made of resin material is employed for trailing edge regulating member 250 in the present embodiment, the assembly formed of metal and the like can also be employed as long as it has the same function.
(Relationship Between Trailing Edge Regulating Member 250 and Notched Sidewall 215a)
Then, referring to
First, referring to
Thus, second upright portion 252b is located above notched sidewall 215a, which prevents an increase in the size of the region of paper feeding cassette 200 on the rear side in the paper feeding direction. Therefore, it becomes possible to store the paper media of a larger size without increasing the area of paper feeding cassette 200. For example, in addition to the paper of A3 size, the sheets of paper of 17 inches can be stacked and stored without increasing the area of paper feeding cassette 200.
In the present embodiment, in order to position the inner face of upright wall 252 of trailing edge regulating member 250 closer to the rear side, notched sidewall 215a is provided behind rear sidewall 215, to thereby cause the inner face of notched sidewall 215a to be located rearwardly, by a thickness (t) of rear sidewall 215, of the inner face of rear sidewall 215. Also, the position of the inner face of rear sidewall 215 may be flush with the position of the inner face of notched sidewall 215a.
The description has been made with regard to the case where rear sidewall 215 having notched sidewall 215a is employed. However, in the configuration in which the interference with a pull-out side support frame 110 provided in body frame 101 which will be described later is not problematic, rear sidewall 215 having no notched sidewall 215a can also be provided with a structure in which the rear end face of first upright portion 252a is brought into contact with the inner face of rear sidewall 215 and second upright portion 252b is located above rear sidewall 215.
Then, referring to
When there is no problem even if the upper end of trailing edge regulating member 250 is in contact with pull-out side support frame 110, the height (H4) of trailing edge regulating member 250 from bottom 211 can be equal to the height (H3) of rear sidewall 215 from bottom 211.
Furthermore, in the configuration in which the interference between pull-out side support frame 110 and trailing edge regulating member 250 is not problematic, the height (H3) of rear sidewall 215 from bottom 211 is not particularly limited.
Referring to
Furthermore, movement of trailing edge regulating member 250 in the rearward direction requires the operation in which fingers are used to hold longitudinal elastic piece 253 from both sides to be pushed and shifted in the inward direction. When trailing edge regulating member 250 approaches notched sidewall 215a, the fingers are brought into contact with rear sidewall 215. Accordingly, it is conceivable that it becomes difficult to perform the operation for holding longitudinal elastic piece 253 from both sides with the fingers. Thus, floor side rack 211c is not provided in the region on the rear side adjacent to notched sidewall 215a, to thereby facilitate the operation for bringing trailing edge regulating member 250 into contact with notched sidewall 215a.
In the present embodiment, the width of notched sidewall 215a only needs to be equal to the width that allows second upright portion 252b of trailing edge regulating member 250 to be located above notched sidewall 215a. However, in order to prevent the fingers from being brought into contact with rear sidewall 215 during the operation of trailing edge regulating member 250, notched sidewall 215a is configured to have a notch width (W12) greater than the width (W13) of trailing edge regulating member 250 (see
(Relationship with Pull-Out Side Support Frame 110 of Body Frame 101)
Referring to
First, referring to
Then, referring to
Thus, in the present embodiment, notched sidewall 215a is configured to have a notch width (W12) smaller than the width (W11) of pull-out side support frame 110, to thereby prevent pull-out side support frame 110 from falling into the notched region of notched sidewall 215a, with the result that paper feeding cassette 200 can be smoothly pulled out (see
Thus, in paper feeding cassette 200 according to the present embodiment and image forming apparatus 1 provided with this paper feeding cassette 200, as described with reference to
Accordingly, paper feeding cassette 200 does not need to be increased in size on the rear side in the paper feeding direction, which allows the paper media of a larger size to be stored without increasing the area of paper feeding cassette 200. For example, in addition to the sheet of paper of A3 size, the sheet of paper of 17 inches can be stacked and stored without increasing the area of paper feeding cassette 200.
Consequently, it becomes possible to provide a paper feeding cassette having a structure that allows the paper media of a larger size to be stored without increasing the floor area of an image forming apparatus 1 and the image forming apparatus.
Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the scope of the present invention being interpreted by the terms of the appended claims.
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2010-042809 | Feb 2010 | JP | national |
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Number | Date | Country | |
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20110210501 A1 | Sep 2011 | US |