This application is based upon and claims priority under 35 USC 119 from Japanese Patent Application No. 2009-283356, filed Dec. 14, 2009.
According to an aspect of the invention, a medium conveying device includes a first guide member, a second guide member, a conveying member, and a support member. The first guide member guides one face of a medium to be conveyed and opposed to the one face when the medium is conveyed. The second guide member guides the other face of the medium and is opposed to the other face when the medium is conveyed, the second guide member being movable between a close position and an open position. The conveying member is provided in a conveying passage formed by the first guide member and the second guide member being at the close position in order to convey the medium in the conveying passage. The support member keeps the second guide member at the open position and is provided at a position outer than the second guide member in a direction that the medium is conveyed. When the second guide member is at the open position, the medium in the conveying passage is removable from the conveying passage.
Exemplary embodiments of the invention will be described in detail based on the following figures, wherein:
Exemplary embodiments as specific examples of the mode for carrying out the invention will be discussed with reference to the accompanying drawings. However, the invention is not limited to the following exemplary embodiments.
For easy understanding of the description to follow, in the accompanying drawings, back and forth direction is X axis direction, side to side direction (left-right direction) is Y axis direction, and up and down direction is Z axis direction, and directions or sides indicated by arrows X, −X, Y, −Y, Z, and −Z are forward, backward, rightward, leftward, upward, and downward or front, rear (back), right, left, upper side (top), and lower side (bottom).
In the accompanying drawings, a mark including a dot described in a circle means an arrow from the back of the plane of the drawing to the surface and a mark including X described in a circle means an arrow from the surface of the plane of the drawing to the back.
In the description that follows using the accompanying drawings, members other than the members required for the description are not shown in the drawings where appropriate for easy understanding of the description.
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The latent image forming device drive circuit D of the image record section U1a controlled by the main body side control section C1 creates image information of G: Green, O: Orange, Y: Yellow, M: Magenta, C: Cyan, and K: Black based on image information transmitted through the interface module U2 and outputs drive signals responsive to the image information to latent image forming devices ROSg, ROSo, ROSy, ROSm, ROSc, and ROSk of the colors G to K at preset timings.
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The image holding unit UK of black K has a photoconductive drum Pk as an example of an image holding body, a charger CCk, and a drum cleaner CLk as an example of an image holding body cleaner. A developing roll ROk as an example of a developing member of the developing device GK of black K is placed adjacent to the right of the photoconductive drum Pk.
The image holding units UG, UO, UY, UM, and UC of other colors G to C also have photoconductive drums Pg, Po, Py, Pm, and Pc, chargers CCg, CCo, CCy, CCm, and CCc, and drum cleaners CLg, CLo, CLy, CLm, and CLc respectively. Developing rolls ROg, ROo, ROy, ROm, and ROc as examples of developing members of the developing devices GG to GC of other colors G to C are placed adjacent to the right of the photoconductive drums Pg to Pc of other colors G to C respectively. In Exemplary Embodiment 1, the photoconductive drum Pk of color K frequently used with much surface wear has a large diameter as compared with other color photoconductive drums Pg to Pc for high-speed rotation and a longer life.
The image holding units UG to UK and the developing devices GG to GK make up visible image forming devices (UG+GG), (UO+GO), (UY+GY), (UM+GM), (UC+GC), and (UK+GK).
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When the developers in the developing devices GG to GK are consumed by developing, the developing devices GG to GK are replenished with developers from a developer replenishing device Ulc provided in an upper part of the image forming apparatus main body U1. Toner cartridges Kg, Ko, Ky, Km, Kc, and Kk each as an example of a developer replenishing vessel are detachably and replaceably supported in the developer replenishing device Ulc.
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If black image data only exists, only the photoconductive drum Pk of black K and the developing device GK are used and only a toner image of black K is formed. If four-color print of Y, M, C, and K or two-color, three-color print, etc., responsive to setting of the user is executed, the corresponding photoconductive drums Pg to Pk and the corresponding developing devices GG to GK are used.
After the primary transfer, the remaining toner on the surfaces of the photoconductive drums Pg to Pk is cleaned by drum cleaners CLg to CLk for the photoconductive drums and the photoconductive drums are again charged by the chargers CCg to OCR.
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The belt module BM has an intermediate transfer belt B. This intermediate transfer belt B is rotated in an arrow Ya direction by a belt drive roll Rd as an example of an intermediate transfer body drive member for supporting the intermediate transfer belt B from the back and is given tension by a tension roll Rt as an example of a tension giving member and is stretched. The back side of the intermediate transfer belt B is supported by a walking roll Rw as an example of a meander prevention member for preventing the intermediate transfer belt B from meandering, a plurality of idler rolls Rf each as an example of a driven member, and a backup roll T2a as an example of a secondary transfer opposed member.
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The rolls Rd, Rt, Rw, Rf, T2a, and R1-R5 form belt support rolls Rd, Rt, Rw, Rf, T2a, and R1-R5 as an example of an intermediate transfer body support member for supporting the intermediate transfer belt B for rotation from the back.
The intermediate transfer belt B, the belt support rolls Rd, Rt, Rw, Rf, T2a, and R1-R5, the primary transfer rolls T1g to T1k, the static elimination metal sheet JB, and the like make up the belt module BM of Exemplary Embodiment 1.
A secondary transfer unit Ut is placed below the backup roll T2a. The secondary transfer unit Ut is provided with a secondary transfer roll T2b as an example of a secondary transfer member. The secondary transfer roll T2b is placed so that it may come in contact with and out of contact with the backup roll T2a across the intermediate transfer belt B. An area where the secondary transfer roll T2b is in press-contact with the intermediate transfer belt B forms a secondary transfer area Q4. A contract roll T2c as an example of a contact conduction member abuts the backup roll T2a. A secondary transfer voltage of the same polarity as the charge polarity of a developer is applied to the contract roll T2c at a preset timing from the power supply circuit E controlled by the main body side control section C1.
The backup roll T2a, the secondary transfer roll T2b, and the contract roll T2c make up a secondary transfer device T2 of Exemplary Embodiment 1. The primary transfer rolls T1g to T1k, the intermediate transfer belt B, and the secondary transfer device T2 make up transfer device T1g to T1k+T2+B of Exemplary Embodiment 1.
Sheet feed trays TR1 and TR2 each as an example of medium storage section in which a record sheet S as an example of a medium is stored are provided below the belt module BM. A record sheet S stored in the sheet feed tray TR1, TR2 is taken out from the sheet feed tray TR1, TR2 by a pickup roll Rp as a medium taking out member and is separated as one sheet at a time by a separation roll Rs as an example of a separation member and is conveyed to a medium supply passage SH1.
The record sheet S conveyed to the medium supply passage SH1 is conveyed to a deburr device Bt as an example of a medium unnecessary part removal device by a conveying roll Ra as an example of a medium conveying member. The deburr device Bt has a press roll Bt1 as an example of a press member and an opposed roll Bt2 pressed against the press roll Bt1 and coming in contact therewith as an example of an opposed member. The record sheet S is pressed, sandwiched, and conveyed by the press roll Bt1 and the opposed roll Bt2 and an unnecessary part of a record sheet S end part is removed, namely, the record sheet S is deburred.
The deburred record sheet S is conveyed to an overlap convey detector Jk. The overlap convey detector Jk detects whether or not record sheets cannot be separated as one sheet at a time by the separation roll Rs and more than one record sheet S is conveyed in an overlap manner (overlap covey).
A manual supply passage SH0 is connected upstream in the medium conveying direction of the overlap convey detector Jk and overlap convey of a record sheet S supplied from a manual medium supply section (not shown) is also detected by the overlap convey detector Jk.
The record sheet is conveyed from the overlap convey detector Jk to a skew correction device Sh which is an example of an inclined attitude correction device. The skew correction device Sh has a crossed roll Rc which is an example of a skew roll and brings the record sheet S into contact with an end part alignment member (not shown) for correcting inclined attitude of the record sheet S, so-called skew.
The record sheet S whose skew is corrected is conveyed to a registration roll Rr as an example of a conveying timing adjustment member.
The record sheet S conveyed to the registration roll Rr is conveyed through a before-transfer medium guide member SG1 to the secondary transfer area Q4 at the timing at which the multiple color image or single color image on the intermediate transfer belt B is conveyed to the secondary transfer area Q4.
When the multiple color image on the intermediate transfer belt B passes through the secondary transfer area Q4, the image is transferred to the record sheet S by the secondary transfer device. For the multiple color image, toner images primarily transferred to the surface of the intermediate transfer belt B in an overlap manner are secondarily transferred to the record sheet S collectively. The intermediate transfer belt B after the secondary transfer is cleaned by a belt cleaner CLB as an example of an intermediate transfer body cleaner.
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Accordingly, when the record sheet S heated by the fixing device F is sandwiched between the paired conveying belts Co1 and Co2 and is conveyed, heat of the record sheet S is taken away by the conveying belts Co1 and Co2 and the record sheet S is cooled.
The cooled record sheet S is conveyed to a main body decurl device Hd as an example of a bend removal device on the main body side. The main body decurl device Hd has a roll-type decurl member Hd1 for sandwiching the record sheet between an upper soft cylindrical member having a large diameter and a lower hard cylindrical member having a small diameter and removing bend of the record sheet, so-called curl as an example of a first bend removal member. A belt-type decurl member Hd2 for sandwiching the record sheet between a stretched endless belt member and a cylindrical member for coming in contact with the endless belt member from above and removing curl as an example of a second bend removal member is placed downstream in the medium conveying direction of the roll-type decurl member Hd1.
In the main body decurl device Hd, the curl of the record sheet is removed by the roll-type decurl member Hd1 and the belt-type decurl member Hd2 and then the record sheet is discharged from the main body decurl device Hd by a discharge member Hd3.
A conveying passage switch member GT1 is provided downstream in the medium conveying direction of the main body decurl device Hd. The conveying passage switch member GT1 selectively switches the conveying destination of the record sheet S conveyed through a main body processing passage SH2 as an example of a medium conveying passage to either a main body discharge passage SH3 or a medium inversion passage SH4.
The record sheet S conveyed to the main body discharge passage SH3 is conveyed to the interface module U2 with the image record face up, in so-called face up state by a main body discharge roll Rh as an example of a main body discharge member.
To convey the record sheet S to the interface module U2 with the image record face inverted to a down state from an up state, in so-called face down state, the record sheet S conveyed from the main body processing passage SH2 is guided to the medium inversion passage SH4 by the conveying passage switch member GT1. When the trailing end of the record sheet S in the medium conveying direction passes through a conveying passage switch member GT2 provided at the branch part of the medium inversion passage SH4, the record sheet S is inversely conveyed, namely, is switched back by an inversion roll Rb that may rotate forward and backward as an example of an inversion conveying member. The switch-backed record sheet S is guided to the main body discharge passage SH3 by the conveying passage switch member GT2 and the image record face of the record sheet S is inverted to the face down state from the face up state and the record sheet S is conveyed to the interface module U2.
To record an image on both sides of the record sheet S, the record sheet S with an image already recorded on one side conveyed from the main body processing passage SH2 is guided to the medium inversion passage SH4 by the conveying passage switch member GT1. The record sheet S is conveyed to a medium circulation passage SH5 by the inversion roll Rb in the medium inversion passage SH4 and is conveyed toward a double-side record inversion passage SH6. When the trailing end of the record sheet S in the medium conveying direction passes through a conveying passage switch member GT3 provided in a connection part of the medium circulation passage SH5 and the double-side record inversion passage SH6, the record sheet S is switched back. The switched-back record sheet S is guided to the medium supply passage SH1 side by the conveying passage switch member GT3 and is again sent to the medium supply passage SH1.
The record sheet S with an image recorded on one side is conveyed through the medium supply passage SH1 in a surface and back inversion state and is again sent to the secondary transfer area Q4 and an image is recorded on the other side where no image is recorded.
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A curl removal passage SH21 as an example of a conveying passage of a bend removing device is provided in the interface module U2. The record sheet S is conveyed to the curl removal passage SH21 from the main body discharge passage SH3 of the image forming apparatus main body U1. The record sheet S conveyed to the curl removal passage SH21 is conveyed to a module decurl device Md as an example of a bend removing device main body by a conveying roll MRa. Curl of the record sheet S is removed by the module decurl device Md and the record sheet S is discharged from the curl removal passage SH21 to the stacker device U3 by a discharge roll MRh. The module decurl device Md is already known and may adopt a similar configuration to that described in Japanese Patent Laid Open. No. 2006-520333 and therefore will not be discussed again in detail.
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Each latch 29 as an example of a held member is supported at the positions corresponding to the latch passage ports 21d at both left and right ends of the rotation shaft 27. The latches 29 pass through the latch passage ports 21d and extend upward. In a state in which the lower guide plate 21 moves to the closed positions, the latches 29 pass through the latch engagement ports 14a of the upper guide plate 11 and a claw part formed on the upper back face may engage a margin of each latch engagement port 14a.
A closing spring 31 as an example of a rotation giving member for giving a force for rotating the rotation shaft 27 in a direction in which the upper end of the latch 29 rotates backward is attached to the rotation shaft 27 on the left of the handle association member 28.
Therefore, when the operator operates the handle 26 and rotates the front end of the handle 26 downward, the handle association member 28 is pushed downward and rotates and the rotation shaft 27 rotates against the elastic force of the closing spring 31. Thus, the latch 29 also rotates with rotation of the rotation shaft 27 and engagement of the latch 29 and the latch engagement port 14a is released and the lower guide plate 21 becomes a state in which it may rotate toward the open position. When the operator releases the handle 26, the elastic force of the closing spring 31 acts and the latch is held in a state in which it is engaged in the latch engagement port 14a.
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The rotated support part 38 is formed with a large diameter hole 38a that the pin 36 may pierce. The wire support part 39 is formed with a slit-like wire passage slit 39a extending from the large diameter hole 38a and having a narrower width than the diameter of the large diameter hole 38a and having a wider width than the outer diameter of the wire Y.
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The slider 47 has a pin 48 as an example of a rotation shaft projecting to the left from the front end part of the slider 47. A wire hold bracket 49 configured like the wire hold bracket 37 as an example of an opposite end support member is rotatably supported on the pin 48. Therefore, the wire hold bracket 49 has a flat-plate-like rotated support part as an example of an opposite end rotation part and a wire support part as an example of an opposite end support main body. The opposite end of the wire Y, like the one end, is supported by the spherical part Y1 and the wire hold bracket 49.
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The wire hold brackets 37 and 49, the roller 41, the cover guide 42, the slider 47, the spring 52, the wire Y, and the like make up the open hold device 37 to 52+Y of Exemplary Embodiment 1.
In the image forming unit U of Exemplary Embodiment 1 having the configuration described above, if a jam of the record sheet occurs, the handle 26 placed on the front of the relay conveying unit 1 where jam removal is performed is operated and engagement of the latch 29 and the latch engagement port 14a is released. When the latch 29 is released, the lower guide plate 21 becomes a state in which it may be opened and closed and the lower guide plate 21 moves the open position shown in
When the lower guide plate 21 moves to the open position, the front of the relay conveying passage 12 is opened as shown in
If the wire Y is placed astride the front where the record sheet S is removed as former, the wire Y closes a part of the front and hinders removal of the record sheet S. Particularly, if a sheet long in the sheet conveying direction is used, the operator needs to bend, round, buckle, etc., the long sheet to such an extent that the wire Y is avoided, and workability very worsens. In the configuration wherein the wire Y holds the lower guide plate 21 in a dangling state, the wire Y needs to hold a measure of strength and tension acts and if the operator touches the wire during working, it is feared that the operator may be injured. Particularly, if the strength when dangling as a wide belt-like shape rather than a wire is enhanced, the fear of injury of the operator touching it increases.
In contrast, in the configuration of Exemplary Embodiment 1, the wire Y astride up and down is placed on a side and is not placed the front where the record sheet S is removed; the workability of removing the record sheet S improves and unexpected injury of the operator is decreased as compared with the conventional configuration.
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In contrast, in Exemplary Embodiment 1, the wire Y extends onto the extension of the line connecting the rotated support part 38 and the support angular part 39b, the force of the rotating direction 103 scarcely acts, and worsening of rotation of the wire hold bracket 37, 49 and fear of cutting of the wire Y are decreased.
While the exemplary embodiment of the invention has been described in detail, it is to be understood that the invention is not limited to the specific exemplary embodiment described above and various changes and modifications may be made without departing from the spirit and the scope of the invention as claimed. Modified examples (H01) to (H08) of the invention are illustrated below:
(H01) In the exemplary embodiment described above, the printer U is illustrated as an example of the image forming apparatus, but the image forming apparatus is not limited to the printer; for example, it may be implemented as a copier, FAX, or a multiple function device including all or some of the functions, etc.
(H02) In the exemplary embodiment described above, the configuration in which developers of six colors are used is illustrated as the printer U, the print U is not limited to it; for example, the printer U may be applied to a single-color image forming apparatus and a multicolor image forming apparatus of five colors or less or seven colors or more.
(H03) In the exemplary embodiment described above, the configuration having the slider 47 is desirable, but the configuration is not limited to it. For example, the Y expands and contracts and the slider 47 may be omitted or a reel-like configuration wherein the wire is wound and delivered may also be adopted.
(H04) In the exemplary embodiment described above, the coil spring 52 is illustrated as the configuration for damping, but the configuration is not limited to it. Any desired damper mechanism, cushion mechanism, torque limiter, etc., may also be adopted. It is desirable that the configuration for damping should be provided, but the configuration may also be omitted.
(H05) In the exemplary embodiment described above, the configuration of the wire hold bracket 37, 49 is not limited to the illustrated configuration and any desired configuration capable of holding the wire Y may be adopted.
(H06) In the exemplary embodiment described above, the wire Y is illustrated as an example of a string-like member, but it is not limited to the wire Y. A wide string-like member, for example, a band or belt-like member may also be adopted.
(H07) In the exemplary embodiment described above, the latch 29 for holding the closed state is illustrated, but it is not limited to the latch 29 and any desired configuration capable of holding the closed state may be adopted.
(H08) In the exemplary embodiment described above, the configuration wherein the upper guide plate 11 is fixed and the lower guide plate 21 rotates is illustrated, but the configuration is not limited to it. A configuration wherein the upper guide plate 11 rotates or both guide plates 11 and 21 rotate may also be adopted. That is, a second guide member of at least one guide member may be able to move and it is possible to adopt a configuration wherein both guide members may move. The configuration is not limited to the rotating configuration and it is also possible to adopt a configuration wherein the guide plates 11 and 21 slide in a direction in which they are brought close to or away from each other while keeping a parallel relationship between the guide plates 11 and 21.
The foregoing description of the exemplary embodiment of the present invention has been provided for the purpose of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and various will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical application, thereby enabling other skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
1: Medium conveying device
11: First guide member
12: Conveying passage
13: Conveying member
14: Closed hold member
21: Second guide member
29: Held member
37: One end part support member
37 to 52+Y: Open hold device
38: One end rotation part
39: One end support part
46: Move guide part
47: Moving body
48: Rotation shaft
49: Opposite end support member
52: Urging member
S: Medium
U: Image forming apparatus
U1a: Image record section.
Y: Open hold member, string-like member
Number | Date | Country | Kind |
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2009-283356 | Dec 2009 | JP | national |