1. Field of the Invention
The present invention relates to an image forming apparatus, such as a copying machine, a printer and a facsimile device. More particularly, the present invention relates to a sheet conveying path switching device for switching a sheet conveyance direction in such an image forming apparatus, and to a sheet conveying device that uses this sheet conveying path switching device.
2. Description of the Related Art
In order to downsize the whole image forming apparatus, it is desired to reduce the size of a sheet conveying device that conveys a recording sheet as a recording medium from sheet storage means such as a paper cassette or a paper feed tray. Also, in recent years, image forming apparatuses that support various sizes and types of sheets have become popular. In such image forming apparatuses, sheets of several sizes and types are previously stored in sheet storage means, and a type or size of sheet that is selected arbitrarily by a user or a sheet that is selected automatically by the image forming apparatus can be fed. For this reason, the sheet storage means fills a larger space in the image forming apparatus, thus there is a strong need of reducing the size of the sheet conveying device. From the standpoint of conveyance of sheets, the same thing is required in ADF documents as well.
Furthermore, recently, image forming apparatuses that are capable of selecting one-side printing or both-side printing of a sheet to form an image thereon have become popular. In an image forming apparatus capable of forming an image on both sides of a sheet, a sheet, one side of which has an image fixed, is sent out to a recording body loading section (sheet discharging tray) provided in the apparatus main body, or conveyed to a recording body reversing section (both-side conveying means) in order to form the image on the reverse side. Therefore, separating means for selectively switching the sheet conveyance direction is provided within the sheet conveying path. Even in the case of forming an image on one side, the conveying path needs to be switched when sheets onto which images have been fixed are sorted and discharged.
As described in, for example, Japanese Unexamined Patent Publication No. 2005-178954, there is adopted a sheet conveying device in which a simple and inexpensive separating nail is used as the separating means. In a conveying path within the sheet conveying device where a separating section is provided, the size of the conveyance direction is changed significantly, depending on the positional relation of the apparatus, and the space occupied by the conveying path is reduced in order to downsize the sheet conveying device. As a result, the conveying path is provided with a curvature section that has a predetermined curvature in order to change the conveyance direction of the conveying path continuously and smoothly, whereby the curvature radius of the curvature section can be set relatively small enough to convey a sheet of a fixed size, which is normally used in an image forming apparatus.
In the sheet conveying device having such a configuration as above, when conveying a highly rigid, firm sheet such as a cardboard, or a special type of sheet such as an envelope, the leading edge of the sheet P comes into contact with the wall surface of the curvature section due to the small curvature radius of the curvature section, whereby the friction resistance between the sheet and the wall surface increases. For this reason, there is a problem that the highly rigid sheet or special type of sheet cannot go forward along the conveying path formed in the curvature section, causing a paper jam or conveyance failure that inhibits stable conveyance operation. It is conceivable to use suction-type conveying means using air, in order to prevent such a problem described above. However, such conveying means requires a suction device, thus there is a disadvantage that the configuration of the sheet conveying device becomes complex and the size of the same increase, causing a cost increase.
In, for example, Japanese Patent Application No. 3257712, there is proposed a sheet conveying device that can securely feed sheets to each of the conveying paths intended to convey the sheets at small sheet intervals in response to the high speed of the sheet conveying device, the sheet conveying device being realized at low cost. In this sheet conveying device, as described hereinafter, by using a special switching belt, the conveying force can be applied to a sheet at a sheet-conveyance reversing section so that, even when conveying a firm sheet, smoother conveyance can be performed, compared to a fixed curving guide path having a small curvature radius. However, there is a problem in this device that a risk of a paper jam increases, as described hereinafter.
Technologies relating to the present invention are also disclosed in, e.g., Japanese Unexamined Patent Publication No. H10-129883 and Japanese Patent Application No. 3723067.
The present invention is contrived in view of the above-described background, and an object of the present invention is to provide an easy-to-use, inexpensive, and small sheet conveying path switching device and a sheet conveying device using the sheet conveying path switching device, which can stably and separately convey not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets, and can further separately convey a bent sheet.
Another object of the present invention is to provide an image forming apparatus having the abovementioned sheet conveying device.
In an aspect of the present invention, a sheet conveying path switching device comprises a sheet carrying-in path and a switching separating nail. Outliones of two separating/conveying paths out of a plurality of separating/conveying paths positioned on a downstream side of the switching separating nail are configured by a movable belt surface, the two separating/conveying paths being located closer to the separating nail than the other separating/conveying paths.
In another aspect of the present invention, a sheet conveying path switching device comprises a sheet carrying-in path; a switching separating nail; and a plurality of separating/conveying paths disposed on a downstream side of the switching separating nail. The switching separating-nail is configured by a fixed guiding section and an end switching nail piece that is movable.
In another aspect of the present invention, a sheet conveying device comprises a sheet conveying path switching device having a sheet carrying-in path, and a switching separating nail. Outlines of two separating/conveying paths out of a plurality of separating/conveying paths positioned on a downstream side of the switching separating nail are configured by a movable belt surface, the two separating/conveying paths being located closer to the separating nail than the other separating/conveying paths.
In another aspect of the present invention, a sheet conveying device comprises a sheet conveying path switching device having a sheet carrying-in path, a switching separating nail, and a plurality of separating/conveying paths disposed on a downstream side of the switching separating nail. The switching separating nail is configured by a fixed guiding section and an end switching nail piece that is movable.
In another aspect of the present invention, an image forming apparatus comprises a sheet conveying path switching device having a sheet carrying-in path, and a switching separating nail. Outlines of two separating/conveying paths out of a plurality of separating/conveying paths positioned on a downstream side of the switching separating nail are configured by a movable belt surface, the two separating/conveying paths being located closer to the separating nail than the other separating/conveying paths.
In another aspect of the present invention, an image forming apparatus comprises a sheet conveying path switching device having a sheet carrying-in path, a switching separating nail, and a plurality of separating/conveying paths disposed on a downstream side of the switching separating nail. The switching separating nail is configured by a fixed guiding section and an end switching nail piece that is movable.
In another aspect of the present invention, a recording medium conveying device comprises an introducing path to which a recording medium is introduced; two conveying paths that are separated from the introducing path to form the shape of a letter “Y”; and a conveying path switching device that guides the recording medium from the introducing path to either one of the two conveying paths by switching a separating nail that is disposed so as to face the introducing path. Wall surface sections of the two conveying paths with which the leading edge of the recording medium introduced from the introducing path contacts are configured by a surface of a rotatable single belt that is extended to form the shape of a triangle.
In another aspect of the present invention, an image forming apparatus comprises an image forming device for forming an image on a recording medium; and a recording medium conveying device for conveying the recording medium. The recording medium conveying device comprises an introducing path to which a recording medium is introduced; two conveying paths that are separated from the introducing path to form the shape of a letter “Y”; and a conveying path switching device that guides the recording medium from the introducing path to either one of the two conveying paths by switching a separating nail that is disposed so as to face the introducing path. Wall surface sections of the two conveying paths with which the leading edge of the recording medium introduced from the introducing path contacts are configured by a surface of a rotatable single belt that is extended to form the shape of a triangle.
The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken with the accompanying drawings in which:
Before explaining the present invention hereinafter, the prior art of the present invention and the problems thereof are described with reference to the drawings.
As already described above,
As shown, the separating nail 22 is configured such that a plurality of nail members 22a are disposed coaxially on an axis 22b. Leading ends of the nail members 22a can fitted, respectively, into halls (may be formed into a concave shape) 18a and 19a that are provided on a lower left guide plate 18 and an lower right guide plate 19 respectively as shown in
As shown in
In the conventional sheet conveying device having such a configuration, as described above, when conveying a highly rigid, firm sheet such as a cardboard, or a special type of sheet such as an envelope, the leading edge of the sheet S comes into contact with the wall surface of the curvature section due to the small curvature radius of the curvature section, whereby the friction resistance between the sheet and the wall surface increases. For this reason, there is a problem that the highly rigid sheet or special type of sheet cannot go forward along the conveying path formed in the curvature section, causing a paper jam or conveyance failure that inhibits stable conveyance operation.
In order to solve such a problem,
In a conveyance of a sheet toward the other separating/conveying path 28, as shown in
In this conventional sheet conveying device that has a separating device using such a switching belt described above, as already described above, the conveying force can be applied to the sheet at a sheet-conveyance reversing section so that, even when conveying a firm sheet, smoother conveyance can be performed, compared to a fixed curving guide path having a small curvature radius. However, in the configurations shown in
Hereinafter, each embodiment of the present invention in which the abovementioned problems of the prior art are resolved is described in detail with reference to the drawings.
Hereinafter, the present embodiment is described with reference to the drawings.
The multi-stage developing unit 3 has, starting from the bottom, development devices 3K, 3C, 3M and 3Y storing black, cyan, magenta and yellow developers respectively, the development devices being disposed detachably in a multi-stage manner. Here, references numerals K, C, M and Y represent members for black, cyan, magenta and yellow colors respectively. Also, a primary transfer roller 12, which is primary transfer means, is provided on the inside of the intermediate transfer belt 11 so as to face the photoreceptor 1 (right side in the figure).
Furthermore, three rows of paper cassettes 45a, 45b and 45c each storing sheets are provided in a lower section of the printer 100. Separate feeding means 46a, 46b and 46c are provided so as to correspond to the paper cassettes 45a, 45b and 45c respectively. Moreover, a manual feed tray 63 that can be pulled out and pushed in is provided on the right-side surface of the printer 100.
Separate feeding means 46d is provided in order to feed a sheet from the manual feed tray 63. A pair of grip rollers 47 are provided in order to convey sheets fed by these separate feeding means 46a, 46b, 46c and 46d.
A pair of resist rollers 48 are provided above the pair of grip rollers 47 (downstream side of the sheet conveyance direction). A secondary transfer roller 49, which is secondary transfer means, is provided above the pair of resist rollers 48 so as to face a transfer counter roller 13, which is one of the rollers around which the intermediate transfer belt 11 is wound.
It should be noted that the separate feeding means 46a, 46b and 46c, the pair of grip rollers 47, the pair of resist rollers 48 and the like are configured to be driven independently by a clutch, stepping motor, or the like.
A fixing device 25 is provided above the secondary transfer roller 49, and a conveying path switching device 51 that selectively separates the conveyance direction is provided above the fixing device 25. Reference numerals 64 through 70 each represents a sheet sensor disposed appropriately within each sheet conveying path. It should be noted that a sheet is appropriately guided by a guide member (no reference numeral is applied), such as a guide plate provided in each sheet conveying path. The upper surface of the printer 100 main body is configured as a sheet discharging tray 62, and a pair of discharging rollers 61 for discharging a sheet to the sheet discharging tray 62 are provided in an upper left section of the fixing device 25.
Moreover, a reversing device 80 that reverses a sheet is provided on the right side of the printer 100 main body. The reversing device 80 has a reverse forward path 81 and a reverse backward path 82 as switchback paths. There are also provided a pair of switchback rollers 83 that sandwich a sheet sent into the reverse forward path 81, an entry sensor 84 provided on an upstream side of the pair of switchback rollers 83, and a reversing unit switching nail 85.
Next, the operation of the printer is described.
When the printer receives data items of full-color images, the photoreceptor 1 rotates in a clockwise direction (right-handed direction) in
This cycle is repeated for all colors so that toner images yellow, magenta, cyan and black are sequentially transferred onto the intermediate transfer belt, whereby a full-color toner image having a combination of the four colors is formed.
On the other hand, a feed command is issued in accordance with timing of toner image formation, sheets are selectively fed one by one from the paper cassettes 45a, 45b and 45c or the manual feed tray 63 by any of the separate feeding means 46a, 46b, 46c and 46d, and each sheet reaches the pair of resist rollers 48 via the pair of grip rollers 47 and stops temporarily. The sheet is sent to a secondary transfer position by the pair of resist rollers 48 in accordance with the timing of the toner image supported on the intermediate transfer belt 11. In the secondary transfer position, the toner image supported on the intermediate transfer belt 11 is transferred onto the sheet at once by the secondary transfer roller 49.
When the sheet on which the toner image is transferred passes through the fixing device 25, the toner image is fused onto the sheet by heat and pressure. On the other hand, after the toner image is transferred, the intermediate transfer belt 11 is cleaned by an intermediate transfer belt cleaning device, which is not shown, to prepare for formation of the next electrostatic latent image.
The conveying path switching device 51 switches the conveyance direction of the sheet on which the toner image is fixed by the fixing device 25, so as to direct the sheet to the sheet discharging tray 62 or reversing device 80.
The conveying path switching device 51 has the separating nail 22 as sheet conveyance direction separating means, and the separating nail 22 is switched to the right or left in the figure by an actuator (not shown) such as a solenoid. The conveying path 27 conveys the sheet to the sheet discharging tray 62 side, while the conveying path 28 conveys the sheet to the reversing device 80 side.
The sheet, which is obtained after the toner image is fixed thereon by the fixing device 25, is introduced to the position of the separating nail 22 by the conveying path 26, and conveyed toward either one of the conveying paths 27 and 28 by the separating nail 22. The belt surface of an endless belt 53 serves as a part of an outline of each of the separating/conveying paths 27 and 28. Incidentally, the endless belt 53 can be divided into two parts, and these parts can also serve as an endless belt for the separating/conveying path 27 and an endless belt for the separating/conveying path 28.
The conveying path 26 and the separating/conveying paths 27 and 28 form a conveying path that is in roughly a shape of a letter “Y”. For example, when one-side printing is selected, the sheet is conveyed to the conveying path 27 in the direction of the sheet discharging tray 62 by switching the separating nail 22 using the conveying path switching device 51, and the pair of discharging rollers 61 discharge the sheet to the sheet discharging tray 62 configured on the upper surface of the printer 100 main body. The heavy slid line shown in
When both-side printing is selected, the sheet is conveyed to the conveying path 28 in the direction of the reversing device 80 side by switching the separating nail 22 using the conveying path switching device 51. The sheet that is sent into the reverse forward path 81 of the reversing device 80 by the switching performed by the conveying path switching device 51 is sandwiched between the pair of switchback rollers 83, and sent to the reverse backward path 82 by a reversing operation of the switchback rollers. In the reverse forward path 81, when the entry sensor 84 provided on the upstream side of the pair of switchback rollers 83 detects the rear edge of the sheet, the directions of rotation of the switchback rollers are reversed in response to the detection, and the pair of switchback rollers 83 are driven in the reverse direction, whereby the rear edge and the front edge of the sheet are inverted, and thus obtained sheet is conveyed in a direction opposite to the entering direction. The sheet that is sandwiched between the pair of switchback rollers 83 is conveyed by the conveying operation thereof, and the reversing unit switching nail 85 is driven by the unshown solenoid. Accordingly, the sheet can enter the reverse backward path 82. The sheet that passes through the reverse backward path 82 and is inverted is conveyed to the pair of resist rollers 48 by a reverse outlet 86 in order to perform back-side printing.
The dashed lines shown in
Further detailed configuration and operation of the conveying path switching device 51 are described.
In the printer 100 of the present embodiment, there is provided the endless belt 53 extended around two rollers 29 and 30 such that after the sheet is introduced to either one of the two conveying paths 27 and 28 by the separating nail 22, the leading edge of the sheet comes into contact with the surface of the driven belt 53 when the sheet is conveyed to the sheet discharging tray 62 or reversing device 80, and the sheet is sent in the corresponding conveyance direction.
More specifically, the leading edge of the sheet is gripped by the surface of the endless belt 53, and the conveying path switching device 51 guides the leading edge of the sheet to a sandwiching section located on a downstream side. This belt 53 is configured such that the direction of normal and reverse rotation thereof is freely switched, wherein the belt 53 is rotated in accordance with a predetermined conveyance direction in which the sheet is conveyed to the sheet discharging tray 62 or reversing device 80, thus the resistance obtained when the leading edge of the sheet comes into contact with this belt can be reduced. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed without causing a paper jam or conveyance failure.
Furthermore, by providing such an extended belt, the space required for changing the direction of conveying sheets (curvature radius) can be reduced, whereby a compact printer can be obtained, inhibiting the increase of the cost.
In the illustrated example, there is configured rotating/conveying means for conveying a sheet in both directions of the sheet discharging tray 62 and reversing device 80 by means of one belt 53 whose direction of normal and reverse rotation can be freely switched, but a small endless belt can be disposed in both areas of the rollers 29 and 30, of course, so as to take charge of conveying a sheet in the direction of the sheet discharging tray 62 and the direction of the reversing device 80.
Also, a belt extending rotating member 29 can be configured as one of the pair of discharging rollers 61. In this case, an opposing rotating member 54 can be downsized, and the pair of discharging rollers 61 can be shifted to the right side in the figure, whereby a large dimension for mounting the sheet discharging tray 62 can be ensured.
As the endless belt 53, a known electrically conductive material, such as a silicone rubber with carbon black dispersed therein, is used. By using an electrically conductive material, the occurrence of frictional electrification at the abutment surface between the sheet and the belt can be prevented, and particularly an abnormal image that may be caused when performing printing on the second side can be prevented from occurring.
Furthermore, when mounting the endless belt 53 on the belt extending rotating members 29 and 30, it may be wrapped around the belt extending rotating members 29 and 30. In this case, it is preferred to obtain an extension percentage at which the leading edge of the sheet can be securely gripped by the belt surface, an extension percentage at which the linear velocity of the belt is same as that of the opposing rotating members 54 and 55 (when the belt is driven), or an extension percentage at which the belt does not interfere with the base section of the separating nail.
Moreover, by applying a driving force of a belt driving section (not shown) that can be rotary driven in both normal and reverse directions to at least one of the belt extending rotating members 29 and 30, the direction of rotation of the belt 53 can be switched between the normal direction and reverse direction.
Specifically, when conveying the sheet to the conveying path 27 on the sheet discharging tray 62 side, the direction of rotation of the belt 53 is a right-handed direction (CW) in the figure, and when the sheet is conveyed to the conveying path 28 on the reversing device 80 side, the direction of rotation of the belt 53 is a left-handed direction (CCW) in the figure. Alternatively, by applying the driving force of the driving section to the rotating members 54 and 55 facing the belt extending rotating members 29 and 30 via the belt 53, the belt 53 may be driven and rotated.
Torque limiters 56 and 57 may be provided on such rotating member driving section or the opposing rotating members 54 and 55. That way, the belt 53 can be securely switched so that the sheet is conveyed to different conveying paths, and the belt 53 can be prevented from being damaged even when a trouble such as a paper jam occurs. Furthermore, the conveying paths can be easily opened so as to release the sandwiching state between the belt 53 and the opposing rotating members 54 and 55.
It should be noted that, by disposing the rotating members 54 and 55 in positions facing the rotation axis of the belt 53, the sheet is sandwiched and conveyed regardless of which one of the belt extending rollers 29 and 30 and opposing rotating members 54 and 55 is applied with the driving force, thus the friction resistance between the belt 53 and the sheet increases, improving the sheet conveying performance.
The separating nail 22 is constituted by a movable end switching nail piece 22a and a fixed guiding section 22b. By providing the movable section and a fixed section, even when the bottom section of the fixed guiding section 22b is brought extremely close to the belt 53, the base section of the separating nail does not come into contact with the belt surface when the sheet conveyance passage is switched, thus the sheet can be guided securely. By bending a side of the fixed guiding section 22b to form a curvature section of each separating/conveying path, the sheet can be conveyed smoothly.
As shown in
The operation of switching the separating nail 22 (movable end switching nail piece 22a) is performed prior to the operation of switching the direction of rotation of the belt 53. By doing so, the sheet can be securely guided to different conveying paths without increasing a sheet conveying interval.
In a controller (not shown) within the printer 100 main body, when a both-side printing command is inputted (step S1), the detection state of the photosensor (not shown but corresponding to the reference numeral 21 shown in
If, on the other hand, the detection state of the photosensor is ON in the step S2, the end switching nail opens the separating/conveying path 27 through which the sheet is conveyed to the sheet discharging tray 62, and closes the separating/conveying path 28 through which the sheet is conveyed to the reversing device 80, thus the stepping motor (not shown but corresponding to the reference numeral 20 in
As described above, according to the present embodiment, by configuring the rotatable belt 53 with which the leading edge of the sheet comes into contact at a section between the separating nail 22 and the two conveying paths 27 and 28, a load that is caused when the leading edge of the sheet and the belt abut on each other can b reduced significantly. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed without causing a paper jam or conveyance failure.
In a modification of the present embodiment, as shown in
Moreover, by configuring the separating nail 22 with the fixed guiding section 22b and the movable end switching nail piece 22a, the base vertex angle sections 22c and 22d can be brought close to the sandwiching rollers 72 and 73 on the outline side of the fixed guiding section 22b as much as possible without considering the rotation area of the separating nail (specifically, in the case of a conventional separating nail that has a guide surface extending to the vicinity of a pair of sandwiching rollers 72 and 74 in order to easily guide a sheet to the pair of sandwiching rollers 72 and 74, an end on a downstream side of the nail interferes with the inner guide when the nail rotates, thus there is a risk that the sheet conveying paths may be closed), whereby the sheet can be guided smoothly. In other words, in the case of the conventional configuration, there is a difference in level between the base section of the switching nail and the outline guide that generates a load, but such a level difference can be eliminated in the abovementioned configuration, as a result of which the load of conveyance can be reduced.
It should be noted in this case that a plurality of the fixed guiding sections 22b and movable end switching nail pieces 22a may be disposed in the direction perpendicular to the sheet conveyance direction, as with the embodiment shown in
In the present embodiment, the conveying path switching device 51 is disposed in the vicinity of the base section of the separating nail, thus the conventional separating nail interferes with the belt 53 when the separating nail rotates. Therefore, by disposing the conventional separating nail between the belts in the same manner in place of the fixed guiding sections 22b′, 22b″ described with reference to
It should be noted that the present embodiment describes the sheet switching position (the sheet discharging tray and the both-side reversing path) obtained after fixing the toner image, but the present invention is not limited to this embodiment. For example, the image forming apparatus can be applied to a draft conveying path switching position of an automatic draft feeder (ADF) for conveying and reading a draft, a switching position when discharging a sheet having an image formed thereon to a plurality of loading sections, and a separating position at which the conveying paths are divided into two or more. Moreover, the image forming apparatus may have a configuration in which a loading space is formed between an image reading section and an image forming section, and the image forming section can be applied not only to an apparatus of electrophotographic type or various other types.
According to the present embodiment, the following effects can be obtained.
(1) In the sheet conveying path switching device having a sheet carrying-in path and a switching separating nail, the outlines of the two separating/conveying paths out of a plurality of separating/conveying paths positioned on the downstream side of the switching separating nail are configured by a movable belt surface, the two separating/conveying paths being located closer to the separating nail than the other separating/conveying paths. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed, and even bent sheets can be conveyed securely.
(2) Since the outlines of the two separating/conveying paths are configured with the belt surface of a single endless belt, a simple configuration can be obtained.
(3) The rotating member that faces the belt extending rotating member is disposed on an inner rim of each separating/conveying path, and the sheet is sandwiched between the opposing rotating member and the belt surface and then conveyed, whereby the applied pressure onto the belt can be adjusted without relaying on the tension of the belt, or particularly the friction resistance force can be adjusted, whereby the sheet can be conveyed securely.
(4) A drive may be applied directly to the belt extending rotating member to stably drive the belt. If the belt that is capable of rotating normally and reversely is drive by driving the opposing rotating member, it is not necessary to dispose a driving member on a belt rotation axis located on an outer rim of the sheet conveying path, which is an advantage in terms of the layout, whereby the number of parts can be reduced.
(5) Since one of the belt extending rotating members serves as one of the pair of discharging rollers, the sheet conveyance characteristics of the sheet discharge/conveyance can be securely improved simply by increasing the length of the belt.
(6) The opposing rotating members are provided with the torque limiters. Therefore, in the case in which weight that exceeds the weight tolerated by the conveying members is applied to each conveying member provided in the conveying path switching device due to a paper jam or the like, the drive of the opposing rotating member is stopped. Accordingly, the weight applied to the belt can be kept within the range of the tolerated weight to prevent the belt from being damaged, whereby a sheet conveying device that is hardly broken can be provided
(7) Since the belt is electrically conductive, frictional electrification can be prevented from occurring at the abutment surface, whereby an abnormal image that may be caused when performing printing on the second side can be prevented from occurring.
(8) Since the switching separating nail is constituted by the fixed guiding section and the movable end switching nail piece, the function of switching the conveying paths and the function of reversing the conveyance direction can be provided for each section. Even if the curvature of each side of the fixed guiding section is increased, and the sheet conveying paths are switched compactly, the leading edge of the sheet slides on each side of the fixed guiding section, preventing the occurrence of a conveyance failure.
(9) The base section of the fixed guiding section is brought as close as possible to the belt surface configuring the outlines of the separating/conveying paths, thus the sheet to be conveyed from each side of the fixed guiding section to the belt surface can be conveyed smoothly.
(10) The endless belt is constituted by a plurality of belt sections that are obtained in the direction perpendicular to the sheet conveyance direction, thus the cost of these members can be cut.
(11) The base section of the fixed guiding section can be disposed in the area of the endless belt, closer than the belt surface configuring the outlines of the separating/conveying paths, whereby the sheet to be conveyed from each side of the fixed guiding section to the belt surface can be conveyed more smoothly.
(12) The operation of switching the separating nail is performed prior to the operation of switching the direction of rotation of the belt, thus, in a state in which sheets are continuously enter the carrying-in path, the sheets can be securely guided from the carrying-in path to either one of the separating/conveying paths even in a case in which the sheet intervals are small. Thus a sheet conveying device having an excellent productivity can be provided.
(13) In the sheet conveying path switching device that has the sheet carrying-in path, switching separating nail, and a plurality of separating/conveying paths located on the downstream side of the switching separating nail, the switching separating nail is constituted by the fixed guiding section and the movable end switching nail piece, thus not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed, and even bent sheets can be conveyed securely.
(14) By disposing the pair of sandwiching rollers in the vicinity of both ends of the base of the fixed guiding section, and by causing the base vertex angle sections to face a roller of the pair of sandwiching rollers that configures the outline of the separating/conveying paths, the risk of occurrence of a paper jam can be further prevented.
Next, the present embodiment is described with reference to the drawings.
The conveying path switching device 91 of the present embodiment switches the conveyance direction of a recording sheet obtained after a toner image is fixed thereon by the fixing device 25, to guide the recording sheet to the sheet discharging tray 62 or the reversing device 80.
The conveying path switching device 91 has the separating nail 92 as recording medium conveyance direction separating means, and the separating nail 92 is switched to the right or left in the figure by an actuator (not shown) such as a solenoid. The conveying path 27 conveys the recording sheet to the sheet discharging tray 62 side, while the conveying path 28 conveys the recording sheet to the reversing device 80 side.
The recording sheet, which is obtained after the toner image is fixed thereon by the fixing device 25, is introduced to the position of the separating nail 92 by the introducing path 26, and conveyed toward either one of the conveying paths 27 and 28 in a shape of a letter “Y” by the separating nail 92. For example, when one-side printing is selected, the recording body is conveyed to the conveying path 27 in the direction of the sheet discharging tray 62 by switching the separating nail 92 using the conveying path switching device 91, and the pair of discharging rollers 61 discharge the recording body to the sheet discharging tray 62 configured on the upper surface of the printer 100A main body. The heavy slid line shown in
When both-side printing is selected, the recording sheet is conveyed to the conveying path 28 in the direction of the reversing device 80 side by switching the separating nail 92 using the conveying path switching device 91. The recording sheet that is sent into the reverse forward path 81 of the reversing device 80 by the switching performed by the conveying path switching device 91 is sandwiched between the pair of switchback rollers 83, and sent to the reverse backward path 82 by a reversing operation of the switchback rollers. In the reverse forward path 81, when the entry sensor 84 provided on the upstream side of the pair of switchback rollers 83 detects the rear edge of the recording sheet, the directions of rotation of the switchback rollers are reversed in response to the detection, and the pair of switchback rollers 83 are driven in the reverse direction, whereby the rear edge and the front edge of the recording sheet are inverted, and thus obtained recording sheet is conveyed in a direction opposite to the entering direction. The recording sheet that is sandwiched between the pair of switchback rollers 83 is conveyed by the conveying operation thereof, and the reversing unit switching nail 85 is driven by the unshown solenoid. Accordingly, the recording sheet can enter the reverse backward path 82. The recording sheet that passes through the reverse backward path 82 and is inverted is conveyed to a pair of resist rollers 49 by a reverse outlet 86 in order to perform back-side printing.
The dashed lines shown in
Moreover, in the printer 100A of the present embodiment, a wall surface, with which the leading edge of the recording sheet comes into contact at a section between the separating nail 92 and the two conveying paths 27 and 28, is extended to form a triangular shape by three rollers 96, 97 and 98 to form a rotatable belt 93. This belt 93 is configured rotatably, thus even when the leading edge of the recording sheet comes into contact with this belt, the surface of the belt 93 can be moved in the recording body conveyance direction by the rotation of the belt 93. Accordingly, the conveyance load that is caused when the leading edge o f the recording sheet comes into contact with the wall surface of one of the two conveying paths 27 and 28 can be reduced. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed without causing a paper jam or conveyance failure. By simply providing the belt that is extended to form a triangle, an easy-to-use sheet conveying path switching device can be provided in a small space, inhibiting the increase of the cost.
As the material of the belt 93, an electrically conductive member, such as a silicone rubber with carbon black dispersed therein, is preferably used. By using an electrically conductive member, the occurrence of frictional electrification at the abutment surface between the recording sheet and the belt can be prevented. Particularly an abnormal image that may be caused by the frictional electrification when performing printing on the second side can be prevented from being generated.
Also, the belt 93 is provided with a belt driving section M that can be rotary drive in both normal and reverse directions, and this belt driving section M is rotary driven when the recording sheet is conveyed in the different directions of the two conveying paths 27 and 28. Specifically, when conveying the recording sheet to the conveying path 27 on the sheet discharging tray 62 side, the direction of rotation of the belt 93 is a right-handed direction (CW) in the figure, and when the recording sheet is conveyed to the conveying path 28 on the reversing device 80 side, the direction of rotation of the belt 93 is a left-handed direction (CCW) in the figure. By rotary driving the belt 93 in this manner, the recording sheet conveying performance can be improved, whereby the recording sheet can be conveyed more stably. Moreover, the operation of switching the separating nail 92 is performed in synchronization with the operation of switching the direction of rotation of the belt 93, whereby the recording sheet can be securely guided to different conveying paths. In addition, by providing a torque limiter in the belt driving section M, the direction of rotation of the belt 93 can be securely switched so that the recording sheet is conveyed to different conveying paths.
A pair of turn rollers 94 that are driven in order to sandwich and convey the recording sheet may be disposed in a position facing the belt 93. By providing such a turn roller 94, the friction resistance between the belt 93 and the recording sheet increases, and the recording sheet conveying performance is improved. Furthermore, the turn roller 94 is made of a material that slides easily, such as a polyacetal, whereby even if there is generated the difference between a frictional coefficient between the turn roller 94 and the surface of the recording sheet and a frictional coefficient between the belt 93 and the back of the recording sheet, or even if there is generated the speed difference between turn roller 94 and the belt 93 due to a tolerance caused by assembling the components, the risk of the occurrence of rubbing and the like between the turn roller and the recording sheet can be lowered.
The belt 93 is extended to form a triangle by the rollers 96, 97 and 98, and this belt is divided into a plurality of sections in a direction perpendicular to the sheet conveyance direction. The roller 97 is connected to the belt driving section M capable of being rotary driven in both normal and reverse directions, and rotates in a direction corresponding to a change in the rotation direction of the belt driving section M to rotary drive the belt 93 in a horizontal direction. The rollers 96 and 98 are pivotally supported so as to follow the rotation of the belt 93 caused by the rotation of the roller 97. In
Also, as with the belt 93, the separating nail 92 is divided into a plurality of parts in the direction perpendicular to the sheet conveyance direction. In order to prevent skew from occurring when the leading edge of the recording sheet reaches the plurality of separating nails 92, the separating nails 92 are preferably disposed in the vicinity of the center of the recording sheet conveyance direction or in positions symmetrical with respect to the center of the recording sheet conveyance direction. Therefore, the separating nails 92 are disposed, respectively, in rotation axes 100 of the rollers 96 extending the belt 93, so as to be alternate with the rollers 96, whereby the separating nails are rotatably supported in the horizontal direction.
Here, the direction of rotation of each roller 96 is opposite to the direction of rotation of each separating nail 92 with respect to the rotation axis 100. Specifically, as shown in
Hereinafter, a mechanism for rotating the roller 96 and the separating nail 92 in opposite directions is described.
Also, as shown in
It should be noted that
Furthermore, the relationship between the separating nail 92 and the rotation axis 100 is not limited to the above configuration, thus a mechanism that can rotate the belt 93 and the separating nail 92 in directions opposite to each other can be applied to various embodiments.
The driving force of the turn roller 94a positioned in the near side in the figure (on the conveying path 27 side) is transmitted from the belt driving section M to a gear 111 via a rotation axis 110. The rotation axis 110 is rotated in the right-handed or left-handed direction (direction of the arrow b in the figure) by the belt driving section M by means of the gear 111. Also, a turn roller 94b disposed on the far side in the figure (on the conveying path 28 side) is rotated in the same direction as the turn roller 94a via the rotation axis 110 of the turn roller 94a and a belt 115 extended around pulleys 112, 113 and 114.
The pulley 114 extending the belt 115 is supported by the rotation axis 100 supporting the separating nail 92 and roller 96. The separating nail 92 is rotated by the rotation of the belt 115 in the same direction as the rotation axis 110 via the pulley 114. Therefore, the belt 113 and the separating nail 92 can be rotated in the directions opposite to each other, whereby the recording sheet can be stably conveyed toward the conveying path 27 or 28. Furthermore, the separating nail 92 is provided with a torque limiter 117. When the position of the separating nail 92 is regulated the torque limiter 117 operates, and the load applied to the belt driving section M can be reduced. It should be noted in
In such a configuration, the recording sheet that is introduced to the position of the separating nail 92 by the introducing path 26 is guided by a separating nail 112 to an abutment section between the turn roller 94 and the belt 93, and is conveyed toward the conveying path 27 or 28 by the forces of friction between the surface of the recording sheet and the turn roller 94 and belt 93.
Further,
In
As described above, in the present embodiment, when the recording medium is conveyed to either one of the two conveying paths that are introduced from the introducing path, the leading edge of the recording medium is guided by the surface of the rotatable belt. Accordingly, when the leading edge of the recording medium comes into contact with the belt surface configuring the wall surfaces of the two conveying paths, the belt surface can be moved in the recording medium conveyance direction by the rotation of the belt. As a result, the conveyance load that is applied when the leading edge of the recording medium comes into contact with the wall surfaces of the two conveying paths can be reduced. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed without causing a paper jam or conveyance failure. Moreover, by simply providing the belt that is extended to form a triangle, an easy-to-use sheet conveying path switching device can be provided in a small space, inhibiting the increase of the cost.
As described above, according to the present embodiment, the following effects can be obtained.
(1) The wall surfaces to which the leading edge of the recording sheet comes into contact at a section between the separating nail 92 and the two conveying paths 27 and 28 are configured to form the rotatable belt 93, whereby the friction resistance between the leading edge of the recording sheet and the belt can be reduced. Therefore, not only sheets of a fixed size that are normally used, but also highly rigid sheets and special sheets can be stably conveyed without causing a paper jam or conveyance failure.
(2) The belt 93 can be rotary driven in both normal and reverse directions by the belt driving section M, whereby the recording sheet conveying performance improves, and the recording sheet can be conveyed more stably.
(3) Also, the operation of switching the separating nail 92 is performed at the same time that the operation of switching the direction of rotation of the belt 93 is performed, whereby the recording sheet can be securely guided to different conveying paths.
(4) The turn roller 94 that is driven so as to sandwich and convey the recording sheet is disposed in the position facing the belt 93, whereby the friction resistance between the belt 93 and the recording sheet can be increased, the recording sheet conveying performance improves, and the recording sheet can be conveyed more stably.
(5) Furthermore, by providing the torque limiter in the belt driving section M, the direction of rotation of the belt 93 can be securely switched so that the recording sheet is conveyed to different conveying paths.
(6) Moreover, the turn roller 94 is composed of a sliding member, whereby the risk of the occurrence of rubbing and the like between the turn roller and the recording sheet can be lowered.
(7) In addition, by using an electrically conductive member as the material of the belt 93, frictional electrification can be prevented from occurring at the abutment surface between the belt and the recording sheet. Particularly an abnormal image that may be caused by the frictional electrification when performing printing on the second side can be prevented from being generated.
Various modifications will become possible for those skilled in the art after receiving the teachings of the present disclosure without departing from the scope thereof.
The present patent application claims priority under 35 U.S.C. §119 upon Japanese patent applications No. 2006-148818, filed on May 29, 2006, No. 2006-270578, filed on Oct. 2, 2006, and No. 2007-032869, filed on Feb. 14, 2007, the content of each of which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
---|---|---|---|
2006-148818 | Jun 2006 | JP | national |
2006-270578 | Oct 2006 | JP | national |
2007-032869 | Feb 2007 | JP | national |