The present disclosure relates to image forming apparatuses, such as a copier, a printer, a facsimile machine, and a multifunction apparatus, which form an image with an electrophotographic method.
Hitherto, in image forming apparatuses, such as a copier, a printer, and a facsimile, apparatuses in which an image is formed by feeding a sheet to an image forming unit from a sheet feeding apparatus are widely used. Note that a typical sheet feeding apparatus is an apparatus in which a sheet feeding cassette that is a sheet storage unit is detachably mounted in a main body of the apparatus, and in which the sheet contained in the sheet feeding cassette is automatically fed to the image forming unit.
Note that there is a sheet feeding cassette in Japanese Patent Laid-Open No. 2008-15077 provided with a sheet supporting member, which is capable of being lifted and lowered, on which sheets are stacked, and that is lifted when the sheets are fed such that the stacked sheets are pressed against a feed roller, for example. Furthermore, when feeding the sheet, the feed roller is rotated, and the sheets that are pressed down with the sheet supporting member are, from the uppermost sheet, sequentially fed to the image forming unit.
Note that in such a sheet feeding apparatus, the sheet supporting member is lifted and lowered with a cam provided coaxial with the feed roller. Furthermore, during a standby period when the sheets are not fed, the sheet supporting member is pushed down to a certain position with the cam so that setting of the sheet and replacement can be facilitated.
However, in such a sheet feeding apparatus configured in the above manner, the sheet supporting member needs to be moved up and down once in a reciprocating manner per each rotation of the drive shaft; accordingly, reduction in size (reduction in the outermost diameter) of the cam is disadvantageously difficult. For example, in a case in which the sheet supporting member is provided in a pivotal manner in the up-down direction, when the size of the cam is reduced, the pivot angle of the sheet supporting member becomes small, and the distance at which the feed roller and the sheet supporting member are spaced away from each other becomes small.
Furthermore, when the distance at which the feed roller and the sheet supporting member are spaced away from each other is reduced, the amount of sheets stacked on the sheet supporting member becomes disadvantageously small. As a result, the user needs to replenish the sheets frequently, such that ease of operation is disadvantageously hindered. As described above, since the size of the cam and the pivot angle of the sheet supporting member are in a tradeoff relationship, miniaturization of the cam is difficult.
Accordingly, the present disclosure provides a sheet feeding apparatus and an image forming apparatus, which achieves miniaturization by lifting and lowering the sheet supporting member without providing a cam coaxial with the feed roller. For example, a cam follower provided in a lift plate includes a curved cam surface. Change in states in which the curved cam surface and a slider are in contact with each other enables the lift plate to move to a feed position and to a retracted position.
According to an aspect of the present invention, a sheet feeding apparatus includes a sheet supporting member to support a sheet and is configured to be lifted and lowered, a feeding member to feed the sheet stacked on the sheet supporting member, and a lift unit to lift and lower the sheet supporting member such that the sheet stacked on the sheet supporting member is abutted against the feeding member, wherein the lift unit includes an urging member that biases the sheet supporting member towards the feeding member, a moving member that, with respect to the sheet supporting member, moves in a first direction that is a direction different from a lifting direction of the sheet supporting member, and a contact member that is supported by the sheet supporting member and is in contact with the moving member, wherein the contact member includes a curved cam surface in a region that comes in contact with the moving member, wherein a contact state between the moving member and the contact member is changed by a movement of the moving member in the first direction and the curved cam surface, and wherein owing to the change in the contact state, the sheet supporting member is capable of moving to a feed position in which the sheet stacked on the sheet supporting member is abutted against the feeding member with the urging member, and moving to a retracted position in which the sheet supporting member countering an urging force of the urging member is retreated more from the feeding member with respect to the feed position.
Further features of the present invention will become apparent from the following description of embodiments with reference to the attached drawings.
Hereinafter, referring to the drawings, embodiments of the disclosure will be exemplified in detail. Note that the dimensions, the materials, and the shapes of the components, the relative configuration of the components, and the like that are described in the following embodiments are to be appropriately altered based on the configuration of the device to which the present disclosure is applied and on various conditions, and the scope of the present disclosure is not intended to be limited by the following embodiments.
Image Forming Apparatus
The sheet feeding apparatus 100 includes a feed cassette 101 on which the sheets S are stacked, a feed roller 102 serving as a feeding member that feeds the sheets S stacked on the feed cassette 101, and a lift plate 307 serving as a sheet supporting member that supports the sheets. In a state in which the lift plate 307 is positioned at a feed position that is a position in which the sheets stacked on the lift plate 307 are abutted against the feed roller 102, the sheets S are fed with the feed roller 102. Note that the sheet S is a recording medium, such as paper or glossy paper.
The sheets S stacked on the feed cassette 101 are sent out by rotating the feed roller 102 that is in pressure contact with the sheets S. Furthermore, the sheets S that have been sent out in the above manner are separated, sheet by sheet, with a separating member 103.
The separated sheet S is conveyed to a pair of conveyance rollers that include a conveyance roller 104 and a conveyance idler roller 105 that opposes the conveyance roller 104, and is conveyed towards the cartridge 200 serving as the image forming unit.
The cartridge 200 includes a process cartridge 201 and a developing cartridge 202. The process cartridge 201 includes a photosensitive drum 203 and a charger. Meanwhile, the developing cartridge 202 includes a developing device including a developing roller 204 (a developing member), and a toner container. The process cartridge 201 and the developing cartridge 202 are detachable from the printer body 1.
In the cartridge 200, a surface of the photosensitive drum 203 is charged in a uniform manner with the charger, and a laser beam 108 is, in accordance with image information, scanned on the photosensitive drum 203 with a laser scanner 107, such that an electrostatic latent image is formed. The latent image that has been formed is developed into a toner image with the developing device, and the toner image is transferred onto the conveyed sheet S at a portion between the photosensitive drum 203 and a transfer roller 106. The sheet S on which the image has been transferred is conveyed to a fixing roller 109 and a pressure roller 110.
The fixing roller 109 includes therein a heat source, and fixes the toner image on the sheet S by performing a heating and compressing process at a nip formed together with the pressure roller 110. The sheet S on which the image has been formed is discharged and stacked outside the apparatus with a pair of discharge rollers formed of a discharge roller 111 and a discharge idler roller 112 opposing the discharge roller 111.
Furthermore, the printer body 1 includes therein a control unit (not shown) including a power supply and electric components that drive and control the components. Abutting and separating mechanism of developing member
Abutting and separating operation between the developing roller 204 and the photosensitive drum 203 of the cartridge 200 will be described next.
The developing cartridge 202 is provided to be pivotal with respect to the process cartridge 201, and is biased in the clockwise direction in
Separation cams 301 serving as separation members are supported by the printer body 1 about a separation cam shaft 302 in a rotatable manner. Sliders 303 serving as moving members that move to follow the separation cams 301 are provided. The sliders 303 guided by slider guides 306 serving as guiding members are held to be slidable and movable in a horizontal direction. Slider pawls 304 serving as first locking members are disposed in the sliders 303 in a pivotal manner with respect to the sliders 303.
Each slider pawl 304 is biased with a slider pawl spring 305 serving as a first urging member. Each slider pawl 304 engages with a cartridge pawl 210 serving as a second locking member of the developing cartridge 202. Each cartridge pawl 210 is attached to the developing cartridge 202 in a rotatable manner, and is biased with a cartridge spring 211 serving as a second urging member.
Each slider pawl 304 and the corresponding cartridge pawl 210 include a first lock portion 304a and a second lock portion 210a, respectively, that engage with each other while the cartridge 200 is in the abutted state. Furthermore, each slider pawl 304 and the corresponding cartridge pawl 210 include a first separation portion 304b and a second separation portion 210b, respectively, that abut against each other while the cartridge 200 is in the separated state.
Referring to
As illustrated in
When the separation cams 301 rotate further, the sliders 303 interlocking with the separation cams 301 slide. In the course of the above, the first separation portions 304b of the slider pawls 304 provided in the sliders 303 and the second separation portions 210b of the cartridge pawls 210 provided in the developing cartridge 202 are separated from each other and the pivoting of the developing cartridge 202 ends.
Subsequently, as illustrated in
Upon half a rotation of the separation cams 301 in the arrow direction from the abutted state in
As described above, in the present embodiment, the developing roller 204 and the photosensitive drum 203 are abutted against or separated from each other by having the sliders 303 provided with the abutting and separating mechanism be moved in the horizontal direction to change the abutted state between the developing cartridge 202 and the sliders 303.
Lift Unit of Sheet Feeding Apparatus
Referring next to
The lift plate 307 serving as the sheet supporting member is provided in a pivotal manner with respect to the printer body 1 about a rotational center 308d of the cam follower 308. The lift plate 307 is biased with a lift plate spring 309 serving as a third urging member in a direction in which the sheets stacked on the lift plate 307 abut against the feed roller 102. The slider 303 serving as a slide member is slid against the lift plate 307 with the separation cam 301.
The slider 303 includes a slider cam 303a serving as an action portion that acts on the cam follower 308. The position of the slider cam 303a in the lifting direction does not change regardless of the sliding motion of the slider 303. The slider cam 303a moves in a space upstream of the feed roller 102 in a sheet feeding direction of the feed roller 102.
In the present embodiment, the cam follower 308 is supported by the lift plate 307, and is lifted and lowered in an integrated manner together with the lift plate 307. The lift unit of the present embodiment includes the lift plate spring 309 described above, the slider 303 including the slider cam 303a, and the cam follower 308. Furthermore, the cam follower 308 includes a cam surface 308a that is a curved cam surface in contact with the slider cam 303a.
Referring to
As illustrated in
When the separation cams 301 rotate further, the sliders 303 interlocking with the separation cams 301 slide. As illustrated in
Upon half a rotation of the separation cam 301 in the arrow direction from the feed position in
As described above, the sliders 303 are capable of performing a sliding motion in the lifting direction (the vertical direction in
In the present embodiment, since the lift plate 307 is lifted and lowered by changing the state in which the slider cam 303a of the slider 303 and the cam surface 308a are in contact with each other, the apparatus cam be made smaller compared to a configuration in which the above is performed by a cam provided to be coaxial with the axis of rotation of a feed roller. In a case in which the pivoting operation of the lift plate 307 is performed using the cam that is coaxial with the axis of rotation of the feed roller, if the amount of sheets on the sheet feeding cassette were to be increased, a large cam will be required, and the sheet feeding apparatus 100 will become large in size. For example, by providing a large cam, the distance between the feed roller 102 and the conveyance roller 104 becomes large and the sheet feeding apparatus 100 becomes large in size.
Assuming that conditions such as the amount of stacked sheet on the sheet feeding cassette and the pivot angle of the lift plate 307 needed for such an amount are the same, compared with conventional configurations, the configuration of the present embodiment does not need a space where the cam coaxial with the axis of rotation of the feed roller operates, such that the size of the body in the height direction in particular can be reduced. Furthermore, as illustrated in
Furthermore, in the present embodiment, while the cam surface 308a of the cam follower 308 is a curved surface as illustrated in
In the first embodiment, a configuration has been described in which the cam surface is provided on a cam follower 308 that is in contact with the slider 303. A second embodiment is configured such that a cam surface is provided on a slider cam 313a that is an action portion of a slider 313. Note that other configurations are similar to those of the printer body 1 and the sheet feeding apparatus 100 of the first embodiment; accordingly, a description will be given while similar portions are denoted with similar reference numerals.
Referring to
The lift plate 307 serving as the sheet supporting member is provided in a pivotal manner with respect to the printer body 1 about a rotational center 318d of the cam follower 318. The lift plate 307 is biased with the lift plate spring 309 serving as an urging member in a direction in which the sheets stacked on the lift plate 307 come in contact with the feed roller 102. The slider 313 serving as a slide member is slid against the lift plate 307 with the separation cam 301. The slider 313 includes a slider cam 313a provided with a cam shape. Furthermore, the lift plate 307 is provided with the cam follower 318 that is a contact member. The lift unit includes the lift plate spring 309 described above, the slider 313 including the slider cam 313a, and the cam follower 318.
A sheet feeding operation will be described next.
As illustrated in
When the separation cam 301 rotates further, the slider 313 interlocking with the separation cam 301 slides. As illustrated in
Upon half a rotation of the separation cam 301 in the arrow direction from the feed position in
In the present embodiment as well, similar to the first embodiment, reduction in size of the sheet feeding apparatus 100 and that of the printer body 1 can be made. Furthermore, while the cam surface 313b of the slider cam 313a is a curved surface as illustrated in
As another embodiment, positioning of the lift plate 307 in the width direction will be described.
Referring to
As illustrated in
By having the position of the lift plate 307 be determined by the cam follower 308 and the slider cam 303a, the positional accuracy of a front end side of the lift plate 307 in a conveyance direction can be improved. By improving the positional accuracy of the lift plate 307 in the width direction, the pressure of the lift plate spring 309 that biases the lift plate 307 is applied to the lift plate 307 as a desired pressure, such that deformation and inclining of the lift plate 307 can be prevented. With the above, when the lift plate 307 is lifted, the state in which the feed roller 102 contacts the sheets S stacked on the lift plate 307 becomes stable such that the sheets S can be conveyed from the feed roller 102 in a stable manner.
However, when the position in the width direction is determined by the cam follower 308 when the lift plate 307 is lifted or lowered, the motion of the lift plate 307 is hindered. Accordingly, the present embodiment is configured so that the lifting and lowering of the lift plate 307 is performed in a smooth manner by changing the state in which the slider cam 303a is positioned with respect to the cam follower 308 in accordance with the lifting and lowering of the lift plate 307.
In a state illustrated in
When the separation cams 301 rotate further, the sliders 303 interlocking with the separation cams 301 slide. As illustrated in
Upon half a rotation of the separation cam 301 in the arrow direction from the feed position in
Furthermore, by having the positioning surface 308b of the cam follower 308 abut against the slider cam 303a once more, the lift plate 307 is maintained at the separated position while in a state in which the position in the width direction has been determined.
Note that the sliders 303 are capable of performing a sliding motion in the lifting direction (the vertical direction in
In the present embodiment, since the position of the lift plate 307 in the width direction is determined by using the slider 303 and the cam follower 308 that restrict the lifting and lowering operation of the lift plate 307, the portions in which the position of the lift plate 307 is determined can be increased. Furthermore, since the slider 303 and the cam follower 308 that restricts the lifting and lowering operation of the lift plate 307 are used, a dedicated positioning member is not needed.
Furthermore, in the present embodiment, the lift plate 307 is lifted and lowered by changing the state in which the slider cam 303a of the slider 303 and the cam surface 308a are in contact with each other. Such a configuration allows the apparatus to be smaller in size when compared with a configuration in which the lifting and the lowering are performed by using a cam provided coaxial with the axis of rotation of the feed roller. In a case in which the pivoting operation of the lift plate 307 is performed using the cam that is coaxial with the axis of rotation of the feed roller, if the amount of sheets on the sheet feeding cassette were to be increased, a large cam will be required, and the sheet feeding apparatus 100 will become large in size. For example, by providing a large cam, the distance between the feed roller 102 and the conveyance roller 104 becomes large and the sheet feeding apparatus 100 becomes large in size.
Assuming that conditions such as the amount of stacked sheet on the sheet feeding cassette and the pivot angle of the lift plate 307 needed for such an amount are the same, compared with conventional configurations, the configuration of the present embodiment does not need a space where the cam coaxial with the axis of rotation of the feed roller operates, such that the size of the body in the height direction in particular can be reduced. Furthermore, as illustrated in
While the present invention has been described with reference to embodiments, it is to be understood that the invention is not limited to the disclosed 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. 2016-129044 filed Jun. 29, 2016 and No. 2016-144639 filed Jul. 22, 2016, which are hereby incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
2016-129044 | Jun 2016 | JP | national |
2016-144639 | Jul 2016 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5564690 | Oshida | Oct 1996 | A |
8251364 | Morinaga | Aug 2012 | B2 |
9851675 | Takiguchi | Dec 2017 | B2 |
20120163857 | Kamimura | Jun 2012 | A1 |
Number | Date | Country |
---|---|---|
2008-15077 | Jan 2008 | JP |
Number | Date | Country | |
---|---|---|---|
20180002123 A1 | Jan 2018 | US |