Patent Grant
8132812
This application claims priority from Japanese Patent Application No. 2005-159431, filed on May 31, 2005, the entire subject matter of which is incorporated herein by reference.
Aspects of the present invention relate to a sheet discharging device and an image forming apparatus having the sheet discharging device.
Conventionally, a sheet discharging device used in an image forming apparatus is generally provided with upper discharge roller pairs each having a driving discharge roller and a driven discharge roller brought into pressure contact therewith. Further, the following technique is known. That is, in order to provide a sheet being discharged with stiffness so as to prevent a leading end of the sheet being discharged from drooping down and from pushing out a sheet already discharged and placed on a discharge tray, the driving discharge rollers and the driven discharge rollers are arranged by being inclined by a predetermined angle θ. The driving discharge rollers and the driven discharge rollers are arranged symmetrically about a substantially central portion, in a widthwise direction perpendicular to a sheet transporting direction, of a sheet discharge path (e.g., JP-A-2004-35175). Specifically, two drive shafts of the driving discharge rollers are used, which are joined by a joint member in a state in which the drive shafts are inclined symmetrically about a widthwise substantially central portion of the sheet discharge path. According to such a construction, the driving discharge rollers and the driven discharge rollers are inclined, and the sheet is also curved in conformity with their inclination, so that the sheet is provided with stiffness and is discharged without drooping down.
However, if a member for connecting the two drive shafts of the discharge rollers, such as a joint member, is used, the number of parts used and the number of man-hour increase, so that the manufacturing cost becomes high.
Aspects of the invention provide a sheet discharging device with discharge rollers, which makes it possible to lower the manufacturing cost as compared with a conventional example, as well as an image forming apparatus having such a sheet discharging device.
According to an aspect of the invention, there is provided a sheet discharging device including: a discharge roller that discharges a transported sheet to outside the sheet discharging device, the discharge roller being integrally formed with a flexible rotating shaft; first and second bearing members that rotatably hold one end side and another end side of the rotating shaft, respectively; a nipping member that nips the transported sheet in cooperation with the discharge roller, the nipping member being opposed to a peripheral surface of the discharge roller; and an abutment member abutting against one of the rotating shaft and the nipping member between the first bearing member and the second bearing member to curve the rotating shaft.
Hereafter, a description will be given of aspects of the invention with reference to the drawings.
[First Aspect]
(a) Overall Configuration
First, referring to
As shown in
As shown in
The paper feed cassette 6 is detachably installed on the bottom portion inside the body casing 2 and is used to accommodate sheets of the paper 3 in a stacked state. A front surface wall 130 that is integrally molded from a synthetic resin material is provided at the front end of the paper feed cassette 6. This front surface wall 130 is formed in such a manner as to cover the front lower portion of the body casing 2 over the entire width in a state in which the paper feed cassette 6 is loaded in a proper loading position (the state shown in
As the paper pressing plate 7 is swingably supported at its end portion that is remote from the paper feed roller 8, an end portion of the paper pressing plate 7 close to the paper feed roller 8 is vertically movable and is upwardly urged by an unillustrated spring. For this reason, as the amount of sheets of the paper 3 stacked increases, the paper pressing plate 7 is downwardly swung against the urging force of the spring by using as a fulcrum its end portion that is remote from the paper feed roller 8.
The pickup roller 11 is set so as to abut against an uppermost one of the sheets of the paper 3 stacked in the paper feed cassette 6 by means of the paper pressing plate 7. The pickup roller 11 feeds the paper 3 to a position at which the paper 3 is transportable by the paper feed roller 8 (to the position between the paper feed roller 8 and the separation pad 9).
The separation pad 9 is disposed at a position opposing the paper feed roller 8. The separation pad 9 is pressed toward the paper feed roller 8 by the spring 13 disposed on the back side of the separation pad 9. In addition, this separation pad 9 has a function for preventing a plurality of sheets of the paper 3 from being fed into a transporting path in an overlapping state. Namely, the paper 3 that has been fed by the pickup roller 11 comes into contact with the paper feed roller 8 and the separation pad 9. At this time, since an appropriate frictional force is applied between the separation pad 9 and the paper 3, even if a plurality of sheets o the paper 3 are fed to the separation pad 9 by the pickup roller 11, the sheets of the paper 3 other than the uppermost sheet of the paper 3 are retained by the separation pad 9. For this reason, sheets of the paper 3 are fed one sheet at a time by the paper feed roller 8. Then, the paper 3 fed by the paper feed roller 8 is inverted so as to be turned back in the vicinity of the front end of the paper feed cassette 6, and after paper dust is removed by the paper dust removing roller 14, the paper 3 is fed to the registration rollers 12.
After the registration of the paper 3, the registration rollers 12 transport the paper 3 to a transfer position P which is located between a photosensitive drum 27 and a transfer roller 30 for transferring a toner image on the photosensitive drum 27 onto the paper 3.
The image forming section 5 includes a scanner unit 16, the process cartridge 17, and a fixing unit 18.
The scanner unit 16 is provided in an upper portion inside the body casing 2. The scanner unit 16 has a laser emitting portion (not shown), a polygon mirror 19 rotatably driven by a scanner motor 25, lenses 20 and 21, reflecting mirrors 22 and 23, and the like. A laser beam based on predetermined imaged at a emitted from the laser emitting portion is applied by high-speed scanning to the surface of the photosensitive drum 27 in the process cartridge 17 by being passed through or reflected by the polygon mirror 19, the lens 20, the reflecting mirror 22, the lens 21, and the reflecting mirror 23 in that order, as shown by the chain line in
An accommodating portion 49 communicating with the opening 48 is formed in the body casing 2 below the scanner unit 16. The process cartridge 17 is detachably loaded in this accommodating portion 49. The process cartridge 17 includes a development cartridge 28 and a drum cartridge 26.
The development cartridge 28 has a development roller 31, a layer thickness regulating blade 32, a toner supply roller 33, a toner box 34, and the like. This development cartridge 28 is detachably mounted on the drum cartridge 26.
Toner (developer) is filled in the toner box 34. The toner in the toner box 34 is discharged from a toner supply port 37 provided in the toner box 34, as the toner is agitated by the rotation in the direction of the arrow (clockwise direction) by an agitator 36. The agitator 36 is supported by a shaft 35 provided in the center of the toner box 34.
The toner supply roller 33 is provided at a lateral position of the toner supply port 37. The toner supply roller 33 is rotatable in the counterclockwise direction. The development roller 31 is disposed in face-to-face relation to this toner supply roller 33 and is rotatable in the counterclockwise direction. The toner supply roller 33 and the development roller 31 are abutted against each other in such a state that they are compressed to some extent.
As for the toner supply roller 33, a metallic roller shaft is covered with a roller formed of an electrically conductive foaming material. As for the development roller 31, a metallic roller shaft is covered with a roller formed of an electrically conductive rubber material that does not have magnetic properties. More specifically, as for the roller portion of the development roller 31, the surface of a roller body formed of electrically urethane rubber or silicone rubber containing carbon particles is covered with a coating layer of urethane rubber or silicone rubber containing fluorine. It should be noted that a development bias is applied to the development roller 31.
In addition, the layer thickness regulating blade 32 is disposed in the vicinity of the development roller 31. This layer thickness regulating blade 32 has a pressing portion 40 having a semicircular cross section and made of insulating silicone rubber. The pressing portion 40 is provided at a distal end portion of a blade body formed of a metallic leaf spring material. The layer thickness regulating blade 32 is supported by the development cartridge 28 in the vicinity of the development roller 31. The pressing portion 40 is arranged to be brought into pressure contact with the development roller 31 by the resiliency of the blade body.
The toner discharged from the toner supply port 37 is supplied to the development roller 31 by the rotation of the toner supply roller 33. At this time, the toner is frictionally charged positively between the toner supply roller 33 and the development roller 31. Further, the toner supplied onto the development roller 31 advances into the nip between the development roller 31 and the pressing portion 40 of the layer thickness regulating blade 32 in conjunction with the rotation of the development roller 31, and here the toner is further frictionally charged sufficiently and is carried on the development roller 31 with a thin layer of a fixed thickness.
The drum cartridge 26 has the photosensitive drum 27 serving as an image carrier, a scorotron charger 29, the transfer roller 30, and the like.
The photosensitive drum 27 is disposed at a lateral position of the development roller 31 in face-to-face relation to the development roller 31 in such a manner as to be rotatable in the clockwise direction. As for this photosensitive drum 27, its drum body is grounded, and its surface portion is formed by a positively chargeable photosensitive layer formed by polycarbonate or the like.
The scorotron charger 29 is disposed at a predetermined interval with the photosensitive drum 27 so as not to come into contact with it. This scorotron charger 29 is disposed at a position approximately 30 degrees upward from the horizontal direction in the radial direction of the photosensitive drum 27. This scorotron charger 29 is a positively charging scorotron type charger for generating a corona discharge from a charging wire made of tungsten or the like. The scorotron charger 29 is so constructed as to positively charge the surface of the photosensitive drum 27 uniformly.
After the surface of the photosensitive drum 27 is first positively charged uniformly by the scorotron charger 29 in conjunction with the rotation of the photosensitive drum 27, the surface of the photosensitive drum 27 is exposed by high-speed scanning involving the turning on and off of the laser beam from the scanner unit 16 on the basis of image data inputted from the outside, thereby forming an electrostatic latent image based on the image data.
Next, as the development roller 31 rotates, the toner being carried on the development roller 31 and being positively charged is supplied to an electrostatic latent image formed on the surface of the photosensitive drum 27, i.e., to an exposed portion where the potential is lowered on exposure by the laser beam on the surface of the photosensitive drum 27 positively charged uniformly, thereby allowing the toner to be selectively carried on the photosensitive drum 27 as a visible image. Thus, reversal development can be attained.
The transfer roller 30 is disposed below the photosensitive drum 27 in face-to-face relation to the photosensitive drum 27 and is supported by the drum cartridge 26. The transfer roller 30 is rotatable in the counterclockwise direction. As for this transfer roller 30, a metallic roller shaft is covered with a roller formed of an ion conducting rubber material. A transfer bias (transfer forward bias) is applied to the transfer roller 30 during transfer. For this reason, the visible image carried on the surface of the photosensitive drum 27 is transferred onto the paper while the paper 3 passes between the photosensitive drum 27 and the transfer roller 30.
The fixing unit 18 is provided on the rear side on the process cartridge 17. The fixing unit 18 has a heat roller 41 and a pressure roller 42.
The heat roller 41 has a metal pipe whose surface is coated with a fluororesin as well as a halogen lamp provided in the metal pipe for heating. The heat roller 41 is rotatively driven by the input of power from an unillustrated motor. Meanwhile, the pressure roller 42 is disposed below the heat roller 41 in face-to-face relation thereto so as to press the heat roller 41. This pressure roller 42 is constructed by covering a metallic roller shaft with a roller formed of a rubber material. The pressure roller 42 is driven in accordance with the rotative driving of the heat roller 41.
In the fixing unit 18, the toner transferred onto the paper 3 at a transfer position is thermally fixed while the paper 3 passes between the heat roller 41 and the pressure roller 42. The paper 3 with the toner fixed thereon is transferred to a sheet discharge path 44 extending upwardly. The paper 3 transported to the sheet discharge path 44 is discharged onto a paper discharge tray 46, which is formed on the upper surface of the body casing 2, by a paper discharge unit 60 provided at an upper end position of the sheet discharge path 44.
(b) Paper Discharge Unit
Next, referring to
As shown in
The discharge rollers 61a to 61d and the rotating shaft 61e are integrally formed of a flexible material. Both ends of the rotating shaft 61e are rotatably held by a first bearing member 64a and a second bearing member 64b, respectively, as shown by the portions surrounded by the broken-line circles in
The discharge rollers 61a to 61d may be formed of EPDM (etylene propylene diene terpolymer). The rotating shaft 61e may be formed of resin materials that have high wear resistance, such as PC (polycarbonate).
As illustrated in
As shown in
The cavities of the supporting members 62a and 62c among the supporting members 62a to 62c are respectively disposed vertically downwardly of the first bearing member 64a and the second bearing member 64b. The cavity of the supporting member 62b is disposed further vertically downwardly of the cavities of the supporting members 62a and 62c. Namely, the supporting members 62a to 62c support the rotating shaft 61e vertically downwardly of the first bearing member 64a and the second bearing member 64b. Accordingly, the rotating shaft 61e is supported such that its central portion is curved so as to bulge vertically downward relative to the first bearing member 64a and the second bearing member 64b. The central portion of the rotating shaft 61e bulges relative to the first bearing member 64a and the second bearing member 64b, for example, about 0.05 mm-1 mm. In addition, peripheral surfaces of the discharge rollers 61a to 61d and peripheral surfaces of the driven roller pairs 630a to 630d, which are respectively brought into pressure contact with the discharge rollers 61a to 61d, are respectively inclined along the curve of this rotating shaft 61e.
Next, a description will be given of the paper discharging operation of the paper discharge unit 60.
The paper 3, which has passed along the discharge path 44 after the image had been formed on its surface, is nipped between the discharge rollers 61a to 61d and the nipping members 63a to 63d, which are provided in four sets. At this time, the peripheral surfaces of the discharge rollers 61a to 61d and the peripheral surfaces of the driven roller pairs 630a to 630d are inclined along the curve of the rotating shaft 61e. Accordingly, a central portion, in the widthwise direction perpendicular to the paper transporting direction (the term “widthwise” or “widthwise direction” used hereafter is meant to refer to this widthwise direction), of the paper 3 being nipped between the discharge rollers 61a to 61d and the nipping members 63a to 63d becomes curved so as to bulge downward relative to both widthwise end portions thereof.
As shown in
Next, a description will be given of advantages derived from the construction of this aspect.
Since the rotating shaft 61e is curved in the vertical direction by the supporting members 62a to 62c, the paper 3 that is discharged by the discharge rollers 61a to 61d also becomes curved vertically as viewed in the widthwise direction, so that stiffness is formed in the paper 3. Further, since the rotating shaft 61e is flexible and is integrally formed, a member for connecting the shafts, which is required in JP-A-2004-35175, becomes unnecessary, thereby making it possible to reduce the manufacturing cost.
Since the supporting members 62a to 62c are provided that support the rotating shaft 61e at vertically different positions relative to the first bearing member 64a and the second bearing member 64b, the supporting members 62a to 62c are capable of curving the rotating shaft 61e in the vertical direction.
Since the urging members has the springs 67a to 67d as the elastic members, and the springs 67a to 67d respectively urge the discharge rollers 61a to 61d vertically upward through the nipping members 63a to 63d, it is possible to deflect the rotating shaft 61e. Further, since the springs 67a to 67d that are elastic members are used as the urging members, the construction can be simple as compared with a case where the rotating shaft 61e is deflected by using solenoids or the like.
Since the nipping members 63a to 63d are provided with the driven roller pairs 630a to 630d that are abutted against the paper 3 and are respectively rotatably supported by the holders 66a to 66d, the transport of the paper 3 becomes smooth.
As shown in
[Second Aspect]
Next, a description will be given of a second aspect with reference to
In the second aspect as well, springs 70a to 70d, which serve as urging members for respectively urging the holders 66a to 66d and as elastic members, are provided. However, these springs 70a to 70d have greater moduli of elasticity than the springs 67a to 67d in the first aspect, and press the nipping members 63a to 63d more strongly toward the discharge rollers 61a to 61d.
In the second aspect, the rotating shaft 61e is curved so as to have three loop portions 110, 111, and 112.
Specifically, the rotating shaft 61e that is urged by the springs 70a and 70d through the nipping members 61a and 61d has the loop portions 110 and 111, which are formed so as to bulge upward. A central portion of the rotating shaft 61e that is supported by the supporting member 62b downwardly of the first bearing member 64a and the second bearing member 64b has the loop portion 112, which is formed so as to bulge downward.
Further, the peripheral surfaces of the discharge rollers 61a to 61d and the peripheral surfaces of the driven roller pairs 630a to 630d, which are respectively brought into pressure contact with the discharge rollers 61a to 61d, are inclined along the curve of this rotating shaft 61e.
Accordingly, the paper 3 being nipped between the discharge rollers 61a to 61d and the driven roller pairs 630a to 630d also becomes curved in conformity with the inclination of the peripheral surfaces of the discharge rollers 61a to 61d. In addition, the portion of the paper 3 that has passed through the discharge rollers 61a to 61d also keeps its curved state as it is.
Since the rotating shaft 61e is curved so as to have the loop portions 110 to 112, the paper 3 that is discharged also comes to have convex portions 120 to 122 formed in such a manner as to bulge vertically relative to its both end portions 123 in respective correspondence with the ridge portions 110 to 112. Thus the stiffness of the paper 3 becomes stronger.
[Third Aspect]
Next, a description will be given of a third aspect with reference to
The supporting members 62a to 62c are fixed to the base 80 that is vertically movable relative to the upper cover 2a. A cam 81 is provided in a central portion of an upper surface of the base 80. The cam 81 serves as a position adjusting unit for adjusting the amount of deflection of the rotating shaft 61e by adjusting the vertical position of the base 80 in two stages. In a case where paper having strong stiffness such as a postcard is discharged, the base 80 is fixed at the upper position, as shown in
[Fourth Aspect]
Next, a description will be given of a fourth aspect with reference to
The supporting members 62a to 62c and springs 91a to 91c, which serve as elastic members for respectively urging the supporting members 62a to 62c toward the rotating shaft 61e, are provided in grooves 90a to 90c formed in the base 90 that is vertically movable relative to the upper cover 2a.
Since the supporting members 62a to 62c are respectively urged by the springs 91a to 91c, the manner of deflection of the rotating shaft 61e is better adapted to produce the aimed-at stiffness of the paper 3.
Although a number of aspects have been described above, the invention is not limited thereto.
Although the rotating shaft 61e and the discharge rollers 61a to 61d are integrally formed collectively, only the rotating shaft may be integrally formed from a flexible material, and the discharge rollers may be fitted thereto.
As for the springs 67a to 67d for urging the nipping members 63a to 63d, those having different urging forces may be used. In that case, the rotating shaft 61e can be deflected in a various shape.
The rotating shaft 61e may be deflected in a shape such as the one shown in
In addition, in this specification, the term “curve” and the term “deflect” are treated as having the same meanings.
Incidentally, the present invention is also applicable to a sorter and other types of image forming apparatus including an ink-jet printer.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2005-159431 | May 2005 | JP | national |
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| Number | Date | Country | |
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| 20070000966 A1 | Jan 2007 | US |
