This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2013-056367 filed on Mar. 19, 2013, the entire contents of which are incorporated herein by reference.
The present disclosure relates to sheet feed devices that feed sheets, and image forming apparatuses that includes the sheet feed devices.
To date, as sheet feed devices that feed sheets, those devices which are mounted to an image forming apparatus are known. The sheet feed device includes a sheet cassette detachably mounted to the apparatus body of the image forming apparatus, a pickup roller located in the apparatus body, a sheet feed roller, and a retard roller. The sheet cassette accommodates sheets. And with rotation of the pickup roller, the sheets are fed in the sheet conveying direction.
The sheets fed by the pickup roller are conveyed into a fed-sheet nip portion which is formed with a sheet feed roller and a retard roller. With a rotation of the sheet feed roller, the sheets are further conveyed downstream in the sheet conveying direction.
An image forming apparatus known to date is structured such that a sheet conveying path extends along the sheet cassette mounting direction inside the apparatus body.
A sheet feed device according to an aspect of the present disclosure includes an apparatus body, a cassette, a sheet conveying path, a pickup roller, a feeding portion, a lift plate, and a regulation member. The cassette is configured to be detachably mounted to the apparatus body along a sheet conveying direction, and has a sheet storage portion that stores therein sheets. The sheet conveying path extends from the sheet storage portion toward the apparatus body, to convey each of the sheets. The pickup roller is disposed on an inlet side of the sheet conveying path in such a manner as to oppose the sheet storage portion, and is configured to come in contact with the sheet stored in the sheet storage portion to thereby feed the sheet. The feeding portion includes a sheet feed roller and a separation roller. The sheet feed roller is disposed on a downstream side in the sheet conveying direction relative to the pickup roller. The separation roller is in contact with the sheet feed roller to thereby form a nip portion. The feeding portion conveys the sheet fed from the pickup roller downstream in the sheet conveying direction while holding the sheet at the nip portion. The lift plate is disposed in the sheet storage portion so as to allow the sheets to be placed thereon. And the lift plate is configured to be changeable in its position between a first position which is along a bottom portion of the cassette and a second position which is upper than the first position and at which an end of the sheet stored in the sheet storage portion, the end being on the downstream side in the sheet conveying direction, is caused to come in contact with the pickup roller. The regulation member is disposed in the apparatus body. The regulation member is configured, when the cassette is removed from the apparatus body and the lift plate is positioned in the first position, to protrude to the sheet conveying path on an upstream side in the sheet conveying direction relative to the fed-sheet nip portion to thereby regulate entering of the sheets stored in the sheet storage portion into the fed-sheet nip portion. The regulation member is configured, when the cassette is mounted into the apparatus body and the lift plate is positioned in the second position, to retreat from the sheet conveying path thereby to cause the sheet conveying path to become open.
An image forming apparatus according to another aspect of the present disclosure includes the above-described sheet feed device and an image forming portion. The image forming portion forms an image on a sheet conveyed by the sheet feed device.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description with reference where appropriate to the accompanying drawings. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Furthermore, the claimed subject matter is not limited to implementations that solve any or all disadvantages noted in any part of this disclosure.
Hereinafter, an embodiment of the present disclosure will be described in detail based on the drawings.
The image forming apparatus 1 includes a main body housing 10 (apparatus body) structured as an almost rectangular parallelepiped housing, and includes in the main body housing 10, an image forming portion 30, a fixing portion 40, a toner container 80, and a sheet feed portion 20. Various devices that execute image formation are mounted in an internal space 10S of the main body housing 10 that is defined by a front cover 11, a rear cover 12, and a sheet discharge portion 13.
The image forming portion 30 performs an image forming process in which a toner image is formed on a sheet S fed by the sheet feed portion 20. The image forming portion 30 includes a photosensitive drum 31, and also includes a charging device 32, an exposure device (which is not shown in
The fixing portion 40 performs a fixing process in which a transferred toner image is fixed onto a sheet S. The fixing portion 40 includes a fixing roller 41 having a heat source thereinside, and a pressure roller 42 that is pressed against the fixing roller 41 to form a fixing nip portion between the pressure roller 42 and the fixing roller 41. When the sheet S with the toner image transferred thereonto passes through the fixing nip portion, the toner image is heated by the fixing roller 41 and pressurized by the pressure roller 42, to be fixed onto the sheet S.
The toner container 80 stores additional toner to be supplied to the developing device 33. The additional toner stored in the toner container 80 is supplied, by a rotating member 84 being driven to rotate, into the developing device 33 through a toner outlet 821 that is disposed at the bottom surface of an end portion of a cylindrical portion 82.
The sheet feed portion 20 includes a cassette 110 that stores sheets S on which image forming processing is to be performed. The cassette 110 has a sheet storage portion 110S in which a bundle of sheets S are stored, a lift plate 111 that is lifted for feeding the bundle of sheets S, and the like. The sheets S are conveyed from the cassette 110 into a main conveying path 22F which extends inside the main body housing 10. The main conveying path 22F and the cassette 110 will be described in detail below.
In the main body housing 10, the main conveying path 22F and a reverse conveying path 22B are provided for conveying sheets S. The main conveying path 22F extends from the sheet storage portion 110S of the sheet feed portion 20 through the image forming portion 30 and the fixing portion 40 to a sheet discharge outlet 14 that is located facing the sheet discharge portion 13 on the top surface of the main body housing 10. The reverse conveying path 22B is a conveying path through which a sheet S on which a one-side printing has been performed is returned upstream of the image forming portion 30 in the main conveying path 22F when double-side printing is performed for the sheet S.
The main conveying path 22F extends in such a manner as to pass through the transfer nip portion, formed with the photosensitive drum 31 and the transfer roller 34, from the lower side toward the upper side. Further, a pair of registration rollers 23 is disposed upstream of the transfer nip portion in the main conveying path 22F. The sheet S is temporarily stopped at the pair of registration rollers 23 to perform skew correction for the sheet S, and is thereafter fed to the transfer nip portion at a predetermined timing for image transfer. A plurality of conveying rollers for conveying sheets S are disposed at appropriate positions in the main conveying path 22F and the reverse conveying path 22B. For example, a pair of sheet discharge rollers 24 is disposed near the sheet discharge outlet 14.
<Sheet Feed Portion>
Next, the sheet feed portion 20 (sheet feed device) according to this embodiment will be described in detail with reference to
The cassette 110 is detachably mounted to the main body housing 10 (apparatus body). In this embodiment, the cassette 110 is mounted toward the direction (mounting direction) indicated by an arrow DC shown in
The cassette front wall 110B defines the front side of the cassette 110, and is flush with the front cover 11 of the main body housing 10 (see
The cassette 110 further includes the lift plate 111 and a lifting portion 114 (lifting member).
The lift plate 111 is disposed to the bottom side of the cassette 110. Sheets S are placed on the lift plate 111. When the lift plate 111 moves up, the sheets S in the sheet storage portion 110S are caused to move such that their ends on the downstream side in the sheet conveying direction move toward a pickup roller 112. More specifically, the position of the lift plate 111 is changeable between a first position which is along the cassette bottom wall 110A of the cassette 110 and a second position which is upper than the first position and which allows an end of each sheet S in the sheet storage portion 110S, which end is on the downstream side in the sheet conveying direction, to come in contact with the pickup roller 112 to be described below. In
The lifting portion 114 is disposed between the cassette bottom wall 110A of the cassette 110 and the lift plate 111 (see
The guide wall portion 100 is a unit disposed inside the main body housing 10 in such a manner as to face the cassette 110. The guide wall portion 100 includes a guide surface 100A, a side wall 100B (main-body-side wall), and a facing wall 100C. The guide surface 100A is a curved surface located at the top surface of the guide wall portion 100. The guide surface 100A guides a sheet S fed from the cassette 110 toward the pair of registration rollers 23 (see
Further, the sheet feed portion 20 is provided with the pickup roller 112 and a feeding portion 100N.
The pickup roller 112 is disposed at an inlet side of the main conveying path 22F in such a manner as to oppose the sheet storage portion 110S (see
The feeding portion 100N (see
The sheet feed roller 113 is disposed on the downstream side of the pickup roller 112 in the sheet conveying direction. The sheet feed roller 113 is driven to rotate by a driving mechanism (not shown), and thereby the sheet S fed by the pickup roller 112 is held by the fed-sheet nip portion N and further conveyed downstream in the sheet conveying direction.
The retard roller 117 (opposing member) is disposed below the sheet feed roller 113 so as to oppose the sheet feed roller 113. The retard roller 117 is in contact with the sheet feed roller 113 and the fed-sheet nip portion N is formed between the retard roller 117 and the sheet feed roller 113, which allows the sheet S to be conveyed thereinto and pass therethrough. The main conveying path 22F extends from the sheet storage portion 110S of the cassette 110 in such a manner as to pass through the fed-sheet nip portion N. The retard roller 117 is driven to rotate by the sheet feed roller 113. When a plurality of sheets S enter the fed-sheet nip portion N, only one sheet S on the top is conveyed, by the sheet feed roller 113, downstream in the sheet conveying direction. The remaining sheets S abut against the circumferential surface of the retard roller 117 and thus are stopped at the fed-sheet nip portion N.
<Regulation Member>
As shown in
In order to solve the above-described problem, in this embodiment, the sheet feed portion 20 is provided with a regulation member 5. With reference to
When the cassette 110 is removed from the main body housing 10, and the lift plate 111 is positioned in the first position, the regulation member 5 protrudes, relative to the fed-sheet nip portion N, to the upstream in the sheet conveying direction of the main conveying path 22F. As a result, the regulation member 5 regulates entering of sheets S stored in the sheet storage portion 110S into the fed-sheet nip portion N. On the other hand, when the cassette 110 is mounted into the main body housing 10, and the lift plate 111 is positioned in the second position (lifted position), the regulation member 5 moves away and retreats from the main conveying path 22F to cause the main conveying path 22F to be open. Consequently, a sheet S is allowed to be conveyed from the sheet storage portion 110S to the fed-sheet nip portion N. The regulation member 5 protrudes, relative to the fed-sheet nip portion N, to the upstream in the sheet conveying direction of the main conveying path 22F even when the lift plate 111 is positioned in the first position (lowered position) in the main body housing 10.
With reference to
<Movement of Lift Plate and Regulation Member>
Next, movement mechanism of the lift plate 111 and the regulation member 5 according to the present embodiment will be described. The sheet feed portion 20 includes a drive motor 70 (driving portion) and a transmission mechanism 6.
The drive motor 70 (see
The transmission mechanism 6 causes the regulation member 5 to protrude to or retreat from the main conveying path 22F in conjunction with an up-down movement of the lift plate 111 by the drive motor 70. A part of the transmission mechanism 6 is disposed on the side wall 110D of the cassette 110, and another part of the transmission mechanism 6 is disposed on the side wall 100B of the guide wall portion 100. Upon the cassette 110 being mounted into the main body housing 10, the driving force of the drive motor 70 is transmitted to the lift plate 111 and the regulation member 5 via the transmission mechanism 6. The transmission mechanism 6 includes a transmission member 6A and a second transmission gear 64 (gear portion).
The transmission member 6A is disposed on the cassette 110 and connected to the gear of the drive motor 70 to thereby cause the lift plate 111 to rotate about the lifting shaft 114A. With reference to
The input gear 61 is connected to the main-body-side input gear (not shown) disposed in the main-body-side input axis 60. The input gear 61 is a gear that transmits the rotational driving force of the drive motor 70 to the sector gear 62.
The sector gear 62 is a fan-shaped member. The sector gear 62 includes a sector gear axis portion 62A and an outer circumferential gear portion 62B. The sector gear 62 is rotatable about the sector gear axis portion 62A. The outer circumferential gear portion 62B engages with the input gear 61 and the first transmission gear 63. Further, the sector gear axis portion 62A of the sector gear 62 is connected to the lifting shaft 114A which penetrates the cassette left wall 110D of the cassette 110. Further, the first transmission gear 63 is a gear that engages with an upper part of the sector gear 62. When the rotational driving force is transmitted from the input gear 61 to the sector gear 62, and the sector gear 62 rotates about the sector gear axis portion 62A, then the lifting portion 114 causes the lift plate 111 to move up and down. With the rotation of the sector gear 62, the first transmission gear 63 rotates.
The second transmission gear 64 is disposed in the guide wall portion 100. Specifically, the second transmission gear 64 is disposed on the left end (one end) of the shaft 50A of the regulation member 5. Further, the second transmission gear 64 is disposed on the side wall 100B so as to face the first transmission gear 63 in the mounting direction (front-rear direction) of the cassette 110. Accordingly, upon the cassette 110 being mounted to the main body housing 10, the second transmission gear 64 engages with the first transmission gear 63 of the transmission member 6A.
<Operation of Sheet Feed Portion 20>
Next, operation of the sheet feed portion 20 according to the present embodiment will be described.
With reference to
When the cassette 110 is removed from the main body housing 10, the transmission member 6A is not connected to the second transmission gear 64. In other words, driving force of the drive motor 70 is not transmitted to the second transmission gear 64. Further, the regulation pieces 51 of the regulation member 5 (see
Upon placing sheets S onto the sheet storage portion 110S of the cassette 110, the user inserts the cassette 110 into the main body housing 10. In particular, when the sheet storage portion 110S is almost fully filled with the sheets S, insertion force of the cassette 110 is applied to the sheets S in the sheet storage portion 110S as described above, and consequently the top several sheets S become likely to enter the fed-sheet nip portion N at a time. However, in the present embodiment, since the regulation pieces 51 protrude to the main conveying path 22F before the cassette 110 is inserted into the main body housing 10 as described above, entering of the sheets S into the fed-sheet nip portion N is preferably prevented. With this structure, entering of the sheets S into the fed-sheet nip portion N is assuredly prevented, as compared to a case where the regulation member protrudes to the main conveying path 22F in conjunction with insertion of the cassette 110 into the main body housing 10. As a result, multi-feed into the sheet conveying path is prevented, and thereby image forming on each sheet can be performed stably.
When the cassette 110 is mounted into the main body housing 10 such that the cassette rear wall 110C of the cassette 110 faces the facing wall 100C of the guide wall portion 100, the state shown in
To execute a print operation on the image forming apparatus 1, a control portion (not shown) gives an instruction to lift the lift plate 111. The control portion causes the drive motor 70 to drive to rotate, and the rotational driving force of the drive motor 70 is transmitted to the sector gear 62 via the input gear 61. Consequently, the sector gear 62 rotates in a direction indicated with an arrow D91 in
In conjunction with the movement of the lift plate 111, the sector gear 62 causes the first transmission gear 63 to rotate in a direction indicated with an arrow D92 in
As described above, according to the present embodiment, when the cassette 110 is mounted to the main body housing 10, the driving force of the drive motor 70 is transmitted to the lift plate 111 and the regulation member 5. Consequently, the transmission member 6A causes the lifting portion 114 to rotate about the lifting shaft 114A, thereby enabling the lift plate 111 to move up and down. Further, with a connection between the transmission member 6A and the second transmission gear 64, rotation of the regulation pieces 51 about the support portion 50 is attained. Accordingly, the rotation of the regulation pieces 51 allows the main conveying path 22F to be closed or opened.
It should be noted that, in the present embodiment, as shown in
That is, the gear ratio among the sector gear 62, the first transmission gear 63, and the second transmission gear 64 is previously set such that the regulation pieces 51 retreat from the main conveying path 22F soon after the cassette 110 is mounted into the main body housing 10 and the sector gear 62 starts rotating in the direction indicated with the arrow D91 in
It should be noted that even in the case where the cut portion 64S faces the first transmission gear 63, a gear tooth 64T which defines one end of the cut portion 64S is positioned so as to engage with a gear tooth of the first transmission gear 63. In particular, in the present embodiment, with the urging force applied to the shaft 50A by the spring member 50B, the second transmission gear 64 is urged toward a direction indicated with an arrow D121 in
In the state shown in
The sheet feed portion 20 and image forming apparatus 1 including the sheet feed portion 20 according to an embodiment of the present disclosure have been described above. However, the present disclosure is not limited to this, but any modified embodiments as described below can be implemented.
The above embodiment describes a structure in which the regulation member 5 is urged by the spring member 50B toward the direction in which the regulation member 5 protrudes to the main conveying path 22F. However, the present disclosure is not limited to this. For example, a structure may be applicable in which the regulation pieces 51 protrude to the main conveying path 22F due to the weight of the regulation member 5 when the cassette 110 is removed from the main body housing 10.
In the above-described embodiment, the retard roller 117 is used as a member opposing the sheet feed roller 113. However, the present disclosure is not limited to this. As the opposing member, a sheet feed pad having a face opposing the sheet feed roller 113 may be used.
It is to be understood that the embodiments herein are illustrative and not restrictive, since the scope of the invention is defined by the appended claims rather than by the description preceding them, and all changes that fall within metes and bounds of the claims, or equivalence of such metes and bounds thereof are therefore intended to be embraced by the claims.
Number | Date | Country | Kind |
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2013-056367 | Mar 2013 | JP | national |