JP2010074625A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus that is miniaturized while preventing a sheet from being curled in a configuration comprising a housing tray between an image reading unit and an image forming section. <P>SOLUTION: The housing tray is provided spaced apart from an image reading unit and a plurality of ribs 63 are provided on a bottom 11s of a housing of the image reading unit. In the plurality of ribs 63, a pair of ribs disposed line-symmetrically with a straight line R passing a width direction center therebetween are slanted at an angle θ (60°) with respect to the straight line R. When a sheet being ejected is curled, the ribs 63 guide sliding of both ends of a sheet top in a width direction to the outside while being abutted on both ends so as to widen an interval between both ends in the width direction as proceeding with the ejection of the sheet. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image forming apparatus including an image reading unit that reads an image of a document, and an image forming unit that is disposed below the image reading unit and forms an image on a sheet.

In an image forming apparatus such as a copying machine, an image forming unit is disposed under a space between an image reading unit and a copied sheet discharged from the image forming unit is placed on a storage tray disposed in the space unit. There is a so-called in-body discharge type housed in The configuration of the in-cylinder discharge type has an advantage that the installation space for the apparatus can be reduced because the sheet storage tray does not protrude from the apparatus in the lateral (width) direction when viewed from the front of the apparatus.
JP 2008-129497 A

In recent years, it has been desired to reduce the overall height of the image forming apparatus to reduce the size. As a method for reducing the size, for example, the position of the image reading unit may be lowered to a position as close as possible to the image forming unit.
However, if this is done, the space between the image reading unit and the image forming unit is narrowed, and the sheet discharged from the image forming unit is curled (both ends in the width direction perpendicular to the sheet discharging direction are raised above the center). When curling occurs, both ends of the leading edge of the sheet are lifted during conveyance and folded by rubbing against the bottom surface of the image reading unit. The folding becomes larger and eventually rolls up and jams (paper jam) ) May occur.

  SUMMARY An advantage of some aspects of the invention is that it provides an image forming apparatus capable of downsizing the apparatus while suppressing the occurrence of a jam.

  In order to achieve the above object, an image forming apparatus according to the present invention includes an image reading unit that reads a document image, an image forming unit that is disposed under the image reading unit and forms an image on a sheet, and the image reading unit. A sheet storage unit having a tray provided through a space between the image forming unit and the image forming unit so that sheets after image formation discharged from the image forming unit are stacked A curl suppression unit provided at the bottom surface of the image reading unit or at a position directly below the curl suppression unit for suppressing curling that occurs at both ends in the width direction of the sheet being discharged from the center, the curl suppression unit, Ribs that protrude downward are provided, and as the ribs move in the sheet discharge direction, the ribs run obliquely in a direction away from the center of the sheet in the width direction with respect to the sheet discharge direction. Is stretched in a direction along the sheet discharge direction, and comes into contact with the leading edge of the sheet discharge direction at both ends lifted by the curl of the sheet being discharged, as the discharge of the sheet proceeds The leading edge of the sheet is slidably guided in the sheet discharge direction.

The ribs protrude from the bottom surface of the image reading unit, and a plurality of the ribs are provided on both sides of the sheet conveyance path in the width direction and at intervals in the sheet discharge direction. It is characterized by being.
Further, the plurality of ribs are provided so as to have a line-symmetric positional relationship across a line passing through the center in the width direction of the sheet conveyance path.

Further, the interval between adjacent ribs in the sheet discharging direction is constant.
Further, the plurality of ribs are provided in a portion of the bottom surface of the image reading unit facing the tray.
The curl suppression unit includes two plates slidably supported on the bottom surface of the image reading unit, and the ribs are provided on the lower surfaces of the two plates, respectively. To do.

Here, the two plates are slidably supported along the width direction so as to maintain a line-symmetric positional relationship across a line passing through the center in the width direction of the sheet conveyance path. Features.
The curl suppressing unit controls the driving means for moving the two plates, the detecting means for detecting the width of the sheet to be used, and the driving means to detect the two plates. Control means for moving the sheet to a position corresponding to the sheet width.

  Further, the image reading unit is supported by the image forming unit via a fulcrum so as to be rotatable in the vertical direction about the fulcrum, and the sheet storage unit is provided above each end in the sheet width direction of the tray. It has extended side walls, the upper ends of the side walls are connected to the bottom surface of the image reading unit, and a sheet take-out port that is an opening to the outside is formed at the downstream end of the sheet discharge direction. And

  By providing the curl suppressing portion having the rib protruding downward in this manner, for example, when the rib is provided in a direction oblique to the sheet discharge direction, the portion lifted by the curl is brought into contact with the rib due to contact with the rib. As the discharge progresses, it is pushed down to prevent the curling from rising, and even if the space between the image reading unit and the image forming unit is narrowed, the occurrence of jam can be suppressed by curling, thereby reducing the size of the device. Can be planned.

Embodiments of an image forming apparatus according to the present invention will be described below with reference to the drawings.
FIG. 1 is a perspective view showing an appearance of the image forming apparatus 1, FIG. 2 is a front view thereof, and FIG. 3 is a rear view thereof.
As shown in each figure, the image forming apparatus 1 has a substantially regular hexahedron shape, and an image reading unit 10 that generates image data corresponding to the document image by reading the document image is formed on the upper part, and the image reading unit. And an image forming unit 20 that forms an image with toner or the like on a sheet based on image data generated by the image reading unit 10 by a known electrophotographic process. Between the image reading unit 10 and the image forming unit 20, a sheet storage unit 40 that stores a sheet after image formation discharged from the image forming unit 20 is provided integrally with the image reading unit 10. The sheet storage unit 40 is provided with a sheet take-out port 44 that opens to the front side wall surface 1 </ b> A of the image forming apparatus 1.

The image reading unit 10 includes a reading main body 11 that reads an image of a document, and an automatic document feeder (ADF) 12 provided on the reading main body 11. The automatic document feeder 12 feeds the documents placed on the document placing table 12 a one by one and supplies them to the reading body 11.
An operation panel 30 is provided at the end of the reading main body 11 on the front side of the apparatus. On the operation panel 30, a key input unit 31 provided with a plurality of keys for instructing execution of a job such as input of characters and numbers and copying, an instruction menu, information on acquired images, and the like are displayed. A display unit 32 composed of a liquid crystal panel or the like is provided.

FIG. 4 is a schematic diagram showing an internal configuration of the reading main body 11 and the automatic document feeder 12 of the image reading unit 10.
As shown in the figure, the reading body 11 includes a flat rectangular housing 11a, and a carriage 11d on which a linear light source 11b and an image sensor 11c are mounted is provided in the housing 11a. ing.

  The carriage 11d is slidably arranged in the housing 11a along the sub-scanning direction indicated by arrows A and B. The sub-scanning direction is a direction along the front side wall surface 1A of the image forming apparatus 1, that is, a left-right direction orthogonal to the front-rear direction of the apparatus. The carriage 11d has a shape extending long along a main scanning direction (corresponding to the front-rear direction of the image forming apparatus 1) orthogonal to the sub-scanning direction, and both end portions in the longitudinal direction are formed in the housing 11a. It is slidably supported on a guide rail (not shown) provided along the scanning direction. A forward rotation and a reverse rotation of the image reading motor 11f are transmitted to the carriage 11d via a drive transmission unit 11g constituted by a belt, a wire, and the like, and are scanned in the sub-scanning direction.

A slit glass 11 h and a platen glass 11 j disposed in a slit extending long along the main scanning direction are provided on the upper surface of the housing 11 a in the reading main body 11. The slit glass 11h is disposed on the side of the housing 11a on the B direction side, and at a document image reading position through which the document D transported by the automatic document transport unit 12 passes.
The platen glass 11j is arranged at a predetermined interval in the direction indicated by the arrow A with respect to the slit glass 11h, and an original is set (placed) on the platen glass 11j with the image surface facing downward. ).

  The image sensor 11c mounted on the carriage 11d is configured by a CCD (Charge Coupled Device) having a plurality of photoelectric conversion elements arranged along the main scanning direction. The linear light source 11b is configured by a xenon lamp, an LED, or the like extending linearly, and is mounted on the carriage 11d in a state parallel to the image sensor 11c. The linear light source 11b irradiates light on a document passing over the slit glass 11h or a document placed on the platen glass 11j, and the light reflected from the document by the image sensor 11c is slit glass 11h or platen glass. The light is received through 11j. Image data corresponding to the document image is output from the image sensor 11c that receives the reflected light from the document.

  The document D on the document table 12a in the automatic document transport unit 12 is fed out to the transport path 12c by the pickup roller 12b. In the conveyance path 12c, there is provided a registration roller 12d that conveys the document D fed by the pickup roller 12b to the platen roller 12e. A first conveying roller 12f is pressed against the upper portion of the platen roller 12e, and the document D conveyed by the registration roller 12d passes between the first conveying roller 12f and the platen roller 12e, thereby causing the platen The roller 12e is transported over a substantially half circumference along the outer circumferential surface.

  A second transport roller 12g is pressed against the lower part of the platen roller 12e, and the document D transported along the outer peripheral surface of the platen roller 12e passes between the second transport roller 12g and the platen roller 12e. Thus, the sheet passes over the slit glass 11h of the reading body 11 and is conveyed to the paper discharge roller pair 12h. The paper discharge roller pair 12h discharges the original D onto the original discharge tray 12j (see FIGS. 1 and 2).

The automatic document feeder 12 is rotatable up and down between a normal position shown in FIG. 1 and an open position above the fulcrum (not shown) with respect to the reading main body 11. By attaching to the open position, the upper surface of the reading main body 11 is opened, and a document can be set on the platen glass 11j of the reading main body 11.
FIG. 5 is a schematic cross-sectional view of the image forming unit 20 along the front-rear direction.

  The internal configuration of the image forming unit 20 is well known, and a photosensitive drum 21 is provided at a substantially central position between the front side wall surface 1A and the rear side wall surface 1B in the image forming apparatus 1. A rotary developing unit 22 is disposed on the front side of the apparatus with respect to the photosensitive drum 21 and is inclined from above the photosensitive drum 21 and the developing unit 22 to below the back side of the photosensitive drum 21 in the apparatus. Thus, an intermediate transfer belt 23 that rotates in the direction of arrow D is disposed. The intermediate transfer belt 23 is stretched around a plurality of rollers, and a secondary transfer roller 27 is disposed opposite to the roller located closest to the back side of the apparatus with the intermediate transfer belt 23 interposed therebetween.

The intermediate transfer belt 23 and the photosensitive drum 21 are integrally unitized, and can be attached to and detached from the image forming unit 20 in units. Under the developing unit 22, an exposure scanning unit 24 that irradiates the photosensitive drum 21 with the laser light L corresponding to the image data is disposed in the vicinity of the developing unit 22.
Below the exposure scanning unit 24 is provided a paper feed table 25 on which recording sheets are set. A paper feed roller 26 is provided above the paper feed table 25 on the back side of the apparatus. The sheet feed table 25 is biased upward so as to press the set sheets against the sheet feed roller 26, and the sheets pressed against the sheet feed roller 26 are fed out one by one by the sheet feed roller 26. . On the front side wall surface 1 </ b> A of the image forming apparatus 1, a sheet feed table cover 20 a that opens the space above the sheet feed table 25 inside the image forming unit 20 to the outside is provided so as to be openable and closable.

  The sheet feed table cover 20a is rotated from the vertical state along the front side wall surface 1A to the position indicated by the alternate long and two short dashes line so as to fall downward toward the outside, whereby the sheet feed table 25 in the image forming unit 20 is provided. The upper surface of the paper feed table cover 20a is positioned substantially flush with the upper surface of the paper feed table 25. In such a state, an A4 size sheet, for example, can be set from the upper surface of the paper supply table cover 20a to the upper surface of the paper supply table 25 so that the vertical direction (longitudinal direction) is the paper supply direction.

  The photosensitive drum 21 is rotated in the direction indicated by the arrow C, and the surface thereof is brought to a uniform potential by a charging roller (not shown) arranged close to the lower portion of the photosensitive drum 21. After being charged, exposure scanning is performed by the laser light L emitted from the exposure scanning unit 24. As a result, an electrostatic latent image is formed on the surface of the photosensitive drum 21. The electrostatic latent image formed on the surface of the photosensitive drum 21 is developed with a predetermined color toner by a rotary developing unit 22.

  The developing unit 22 includes developing units 22Y, 22M, and 22C that develop the electrostatic latent image on the photosensitive drum 21 with toners of yellow (Y), magenta (M), cyan (C), and black (B). , 22K, and these developing units 22Y, 22M, 22C, 22K are held in a detachable state in a rotatable rack. Each of the developing units 22Y, 22M, 22C, and 22K is sequentially moved to a position facing the photosensitive drum 21 by the rotation of the rotating rack, and the developing units 22Y, 22M, 22C, and 22K moved to the facing position are photosensitive. The electrostatic latent images sequentially formed on the body drum 21 are developed with toners of Y, M, C, and K colors.

  The toner image on the photosensitive drum 21 is electrostatically transferred onto an intermediate transfer belt 23 that moves in the direction of arrow D. When a color image is formed with toners of Y, M, C, and K colors, the image forming operation of each color on the photosensitive drum 21 is performed on the intermediate transfer belt 23 in order of the toner images of each color Y to K. This is executed by controlling the timing of the exposure, the switching operation of the developing unit, etc. so as to be transferred to the same upper position. As a result, the color toner images are sequentially superimposed on the intermediate transfer belt 23 to form a color toner image.

  The sheets set on the sheet feeding table 25 are fed one by one to the conveyance path by the sheet feeding roller 26, conveyed between the secondary transfer roller 27 and the intermediate transfer belt 23, and then on the intermediate transfer belt 23. The transferred toner image is secondarily transferred electrostatically to the sheet by the secondary transfer roller 27. The sheet onto which the toner image has been transferred is conveyed to a fixing unit 28 disposed above the secondary transfer roller 27. The fixing unit 28 includes, for example, a heating roller 28a and a pressure roller 28b that are pressed against each other. When the sheet passes upward between the heating roller 28a and the pressure roller 28b, the sheet is fixed. The toner image transferred to the toner image is fixed by heating and pressing.

  The sheet that has passed between the heating roller 28a and the pressure roller 28b is conveyed upward on the front side of the apparatus. A paper discharge roller pair 28c that discharges the sheet on which the toner image has been fixed toward the front side of the apparatus is provided above the fixing unit 28, and the image is positioned on the front side of the apparatus with respect to the paper discharge roller pair 28c. A sheet storage unit 40 integrated with the reading unit 10 is provided. The sheet discharged from the paper discharge roller pair 28c is stored in the storage tray 41 of the sheet storage unit 40 through the receiving port 28d provided in the sheet storage unit 40 for receiving the discharged sheet.

FIG. 6 is a cross-sectional view illustrating configurations of the image reading unit 10 and the sheet storage unit 40. In the figure, the internal configuration of the housing 11a of the image reading unit 10 is omitted.
As shown in the drawing, the sheet storage unit 40 includes a storage tray 41 provided over the entire area from the surface of the fixing unit 28 on the front side of the apparatus to the sheet take-out port 44 opened to the front side wall surface 1A in front of the apparatus. 41 is provided with a tray side wall 42 arranged in a vertical state on each side edge in the apparatus left-right direction.

  The upper end portion of each tray side wall 42 is attached to the bottom surface (rear surface) 11 s of the housing 11 a of the image reading unit 10, whereby the sheet storage unit 40 is integrated with the image reading unit 10. When the sheet storage unit 40 is viewed from the front side of the apparatus, it is surrounded by the storage tray 41, the side walls 42 of the trays, and the bottom surface 11s of the housing 11a, and is formed in a cylindrical shape with a rectangular cross section. It has the structure which has the only opening part with respect to. The sheet after image formation is discharged by the discharge roller pair 28c and placed on the storage tray 41 in the internal space 47a of the sheet storage portion 40 formed in this cylindrical shape.

Thus, by attaching and integrating the sheet accommodating portion 40 to the bottom surface 11s of the housing 11a, the sheet accommodating portion 40 functions as a reinforcing member of the housing 11a, and the rigidity of the housing 11a, that is, the image reading portion 10, can be increased. it can.
Each tray side wall 42 has an end portion on the back side of the apparatus extending to the rear side wall surface 1B, and a lower end portion of the extended portion is a partition for partitioning the fixing unit 28 and the reading main body unit 11. It is attached to the plate 11w. The partition plate 11w is disposed above the fixing unit 28, and is provided over the entire area from the position of the rear side end portion of the storage tray 41 to the rear side wall surface 1B on the rear side of the device. A duct 47b is formed by being surrounded by the partition plate 11w, each tray side wall 42, and the bottom surface 11s of the housing 11a, and this duct 47b is provided at a position above the receiving port 28d in the sheet accommodating portion 40. It is connected to the internal space 47a of the sheet accommodating portion 40 through an opening 47c different from the opening 28d.

A suction port 28e for receiving hot air from the fixing unit 28 is provided in a portion of the partition plate 11w that is directly above the pressure roller 28b.
A blower fan 48 is disposed at a position of the duct 47b between the suction port 28e and the rear side wall surface 1B. A portion of the rear side wall surface 1B facing the blower fan 48 is provided by the blower fan 48. An air discharge port 49 is provided for discharging the blown air to the outside.

In this manner, a flow path in which air flows between the sheet take-out port 44 on the front side of the apparatus and the air discharge port 49 on the back side of the apparatus is formed below the reading main body 11.
When the blower fan 48 operates, the outside air is taken in from the sheet take-out port 44 while the hot air from the fixing unit 28 is sucked from the suction port 28e, and the air taken in from the suction port 28e and the air taken in from the sheet take-out port 44 are They merge before the blower fan 48, pass through the blower fan 48, and are discharged from the air discharge port 49.

When the hot air from the fixing unit 28 is sucked in, the temperature of the fixing unit 28 is prevented from becoming abnormally high, and the outside air is taken in from the sheet take-out port 44 so that the outside air passes through the sheet storage unit 40. In addition, since the sheets on the image reading unit 10 and the storage tray 41 are cooled, it is possible to prevent the temperature of the image reading unit 10 from rising and affecting the read image quality.
The storage tray 41 includes a first inclined portion 41a provided on the fixing portion 28 side and a second inclined portion 41b provided on the sheet take-out port 44 side. The first inclined portion 41a is inclined upward at an angle of about 10 ° with respect to the horizontal direction from the front surface of the fixing portion 28, and the second inclined portion 41b is a sheet take-out with respect to the first inclined portion 41a. The opening 44 is inclined downward at an angle of about 25 ° with respect to the horizontal direction.

The second inclined portion 41b is disposed slightly on the front side with respect to the middle of the storage tray 41 in the front-rear direction of the apparatus, and is curved so as to protrude toward the sheet take-out port 44. The dimensions of the storage tray 41 in the width direction (direction orthogonal to the sheet discharge direction: the apparatus left-right direction) are substantially constant over the entire area in the sheet discharge direction.
On the bottom surface 11s of the housing 11a that constitutes the upper surface of the sheet storage portion 40, a recess 11e that is recessed in the same curved state as the second tilt portion 41b is formed facing the second tilt portion 41b of the storage tray 41. The operation panel 30 is provided in the housing 11a above the front portion of the apparatus in the recess 11e.

  A portion 11r of the bottom surface 11s of the housing 11a that is continuous to the sheet take-out port 44 side with respect to the recess 11e is slightly inclined upward with respect to the horizontal state. Therefore, the end portion on the sheet take-out port 44 side in the sheet storage portion 40 is gradually expanded in the vertical direction as it becomes the front side of the apparatus, which is the sheet take-out direction. The opening length in the vertical direction of the sheet take-out port 44 is about 80 mm.

Since the sheet take-out port 44 is configured to be widened, it is easy to take out the stored sheet, and even when a small size, for example, an A5 size sheet is stacked on the first inclined portion 41a, it is easily visible from the outside. can do.
FIG. 7 is a plan view of a portion of the bottom surface 11s of the housing 11a that faces the storage tray 41 when viewed from the storage tray 41 side. Positions X1, X2, and X3 shown in the figure correspond to positions X1, X2, and X3 shown in FIG. That is, the position X1 indicates the position of the upper end of the sheet take-out port 44, the position X3 indicates the position of the upstream end of the storage tray 41 in the sheet discharge direction, and the position X2 indicates an intermediate position between the positions X1 and X3. Show. The center in the width direction in the figure corresponds to the position in the center in the width direction of the sheet conveyance path (the position in the center in the width direction of the discharged sheet).

In a region 61 from the position X1 to the position X2 on the bottom surface 11s of the housing 11a, a plurality of linear ribs 63 are provided as an example of a convex rail that protrudes downward, and a region 62 from the position X2 to the position X3. Are provided with lattice-like ribs 64 that protrude downward.
The rib 63 functions as a curl suppressing portion for suppressing curling of the discharged sheet (curl in which both end sides in the sheet width direction are lifted from the center: see FIG. 8). Is for. The ribs 63 and 64 may be provided integrally with the housing 11a, or may be configured to attach different materials to the housing 11a.

Each of the ribs 63 has a height of about 1 [mm] from the bottom surface 11s, is inclined at a predetermined angle θ, for example, 60 [°], with respect to the sheet discharge direction, and an interval d1 between the adjacent ribs 63. Is constant, for example, 10 [mm], and is provided so as to have a line-symmetric positional relationship across a straight line R (broken line in the figure) passing through the center in the width direction.
Thus, by providing a plurality of sets of a pair of ribs 63 opposed across the center in the width direction so that the interval in the sheet width direction increases toward the sheet discharge direction, the discharged sheets as shown in FIG. When curling occurs, the curling is suppressed as follows.

  That is, when the leading edge Z of each portion on both ends in the sheet width direction rises due to curling and each leading edge Z contacts the edge 63e on the outer side in the sheet width direction of one of the ribs 63, the contact state is maintained. The contact position shifts toward both ends in the width direction of the sheet as the discharge of the sheet proceeds, so that the lifted portion of the sheet is pressed downward, and the distance D between both ends of the sheet D Gradually spread, and the curl-up (bending) is reduced.

  When the distance D increases to a certain size, the leading edge Z, Z of the sheet gets over the rib 63 so as to pass under the edge 63e. Each tip edge Z becomes a free end until it moves to the position where another pair of ribs 63 located on the downstream side is provided after getting over the rib 63. If the curving of the sheet returns to its original size due to curling at that moment and the interval D becomes narrower, each leading edge Z abuts against the edge 63e of the other rib 63, and the other rib 63 The distance D is increased by receiving the downward force. Until one sheet is stacked on the storage tray 41, the operation of slidingly guiding the leading edge of the sheet is sequentially performed with respect to each of the plurality of ribs 63 provided at regular intervals in the sheet discharge direction. In other words, curl growth that occurs on the sheet during discharge is suppressed.

  The rib 63 is preferably provided up to the position X1 of the sheet take-out port 44 in consideration of the use of a long sheet in the vertical direction. The shape, angle θ, interval d1, height, number, and the like of the rib 63 are not limited to those described above. An appropriate shape, angle, number, and the like for curling suppression are determined in advance based on experiments and the like based on the type of paper used (plain paper, cardboard, etc.), the height of the sheet accommodating portion 40, the size of the curl generated, and the like. Depending on the configuration of the apparatus, the sheet may be further provided outside the sheet take-out port 44. For example, the region extends from the bottom surface 11s of the housing 11a to the most advanced position on the front side of the apparatus, specifically, to the region between the sheet take-out port 44 and the operation panel 30 on the bottom surface 11s of the housing 11a in FIG. It can also be provided to be released. Furthermore, if the curling suppression effect is achieved, for example, a configuration in which only one pair of the ribs 63 is provided may be employed.

  Further, the pair of ribs 63 are provided so as to have a line-symmetrical positional relationship across the straight line R. However, the present invention is not limited to this, and an asymmetric shape may be taken depending on the device configuration. Further, the interval d1 is not constant, and for example, the interval may become narrower in the sheet discharge direction. Since curl is likely to grow gradually toward the downstream side in the sheet discharge direction, the curl can be narrowed to further suppress the curl. Conversely, for example, when the curl is not growing, that is, it may be narrowed at the upstream side to suppress the growth and widen at the downstream side.

Also, the height of the rib 63 is not constant. For example, the rib 63 may be configured to be higher or lower on the downstream side and lower or higher on the upstream side. These may be combined. Further, although the rib 63 has a rectangular cross section, for example, if the shape is an arc, the sheet leading edge Z is in contact with the outer surface of the arc-shaped rib instead of the edge in the case of the rectangular rib.
The grid-like ribs 64 have a height of about 1 [mm] from the bottom surface 11s of the housing 11a, and have a substantially square shape with a vertical and horizontal distance d2 between adjacent pieces of about 20 [mm]. The surface area can be increased compared to the configuration in which the ribs 64 are not provided on the bottom surface 11s, and the heat of the housing 11a is more easily dissipated. The distance d2 and height are not limited to those described above, and optimum values are set in consideration of heat dissipation and manufacturability. In addition, it can be said that the rib 63 also has a heat dissipation function in terms of increasing the surface area.

  In the above description, the position X2 is set between X1 and X3, but is not limited thereto. It is desirable that the front end of the curled sheet is upstream of the position where it is assumed that it first contacts the bottom surface 11s of the housing 11a. Further, a configuration in which the region 61 is extended to the position X3 without being provided in the region 62 (a configuration in which a plurality of ribs 63 are provided in the entire region from the position X1 to the position X3 without providing the rib 64) may be adopted. In some cases, the region 61 may be retracted to a position upstream of the position X1 in the sheet discharge direction. Further, the rib 63 may be provided only in the partial region between the positions X1 and X2. The leading edge of the sheet lifted by curling may be provided at a position where sliding guidance is possible.

Returning to FIG. 6, a sheet take-out table 41 c that is inclined so that the upper surface is flush with the upper surface of the first inclined portion 41 a is provided at the center in the width direction of the second inclined portion 41 b of the storage tray 41. It has been. The front surface of the sheet take-out table 41c is located in the middle of the sheet discharge direction in the second inclined portion 41b.
On the upper surface of the sheet take-out table 41c, a sheet stacking auxiliary plate 41d is provided so that it can slide forward along the upper surface of the sheet take-out table 41c. By sliding the sheet stacking auxiliary plate 41d forward from the sheet takeout port 44, even when an A4 size sheet is discharged vertically, it can be stacked without dropping from the sheet takeout port 44. Note that small-size paper such as A5 size is mainly stacked on the first inclined portion 41a of the storage tray 41 adjacent to the fixing portion 28.

  The image reading unit 10 has a front side portion of the image reading unit 10 with the sheet storage unit 40 up and down with respect to the image forming unit 20 around a fulcrum 51 provided on the back side portion with the image forming unit 20. It is supported rotatably. As shown in FIG. 7, when the image reading unit 10 is rotated upward, the sheet storage unit 40 also moves upward together with the image reading unit 10 (open position), and the fixing unit 28 in the image forming unit 20. The interior on the front side is more open through the opening 20z. When the image reading unit 10 is rotated downward from the open position and returned to the original position (normal position), the inside of the image forming unit 20 enters a shielding state.

  When the image reading unit 10 is rotated upward, the image reading unit 10 is stably held in the upper open position by the pair of support rods 52 that are rotatably supported with the image forming unit 20. Is done. As a result, the unitized photosensitive drum 21 and intermediate transfer belt 23 in the image forming unit 20 can be pulled out upward and replaced with another unit. Further, by moving the image reading unit 10 to the open position, even when a small size paper such as A5 size is stacked on the first inclined portion 41a, it becomes easier to visually recognize.

The upper end portions of the support rods 52 are attached to the left and right sides of the image reading unit 10 so as to be slidable in the front-rear direction of the apparatus, and each of the support rods 52 is moved forward by rotating the image reading unit 10 downward. Slide.
As shown in FIGS. 1 and 2, an opening / closing cover 20b is provided on the front side wall surface 1A of the image forming unit 20 at a position above the paper feed table cover 20a. The opening / closing cover 20b is supported pivotably between a vertical state along the front side wall surface 1A and a state where the opening / closing cover 20b is tilted outwardly with respect to the vertical state with the lower end portion as a fulcrum. In this state, the inside of the image forming unit 20 is opened from the front side of the apparatus, and the developing units 22Y, 22M, 22C, and 22K of the developing unit 22 provided inside the image forming unit 20 are removed from the rotating rack. Can be taken out.

  As described above, in the present embodiment, the rib 63 for suppressing the curling of the sheet is provided on the bottom surface 11s of the housing 11a of the image reading unit 10, so that the rib is not provided as in the prior art. In addition, both ends of the leading edge of the sheet are lifted by the curl of the discharged sheet and are conveyed while being rubbed against the bottom surface of the image reading unit, thereby preventing the end of the sheet from being folded and causing a jam.

<Modification>
As described above, the present invention has been described based on the embodiment. However, the present invention is not limited to the above-described embodiment, and the following modifications may be considered.
(1) In the above embodiment, the curl suppressing portion is configured by providing the rib 63 on the bottom surface 11s of the housing 11a. However, the configuration is not limited to the configuration in which the rib 63 is provided on the bottom surface 11s of the housing 11a. A curl suppression unit may be provided at the bottom surface 11s of the image reading unit 10 or a position directly below the bottom surface 11s. For example, a plate-like member different from the housing 11a is disposed directly below the bottom surface 11s of the housing 11a. A configuration in which ribs are provided on the bottom surface (lower surface) can also be employed. Further, the rib 63 may be provided in a part of the bottom surface 11s of the housing 11a in place of the rib 63, for example.

FIG. 10 is a diagram illustrating a configuration of the curl suppressing unit 70 according to the present modification.
As shown in the figure, the curl suppressing portion 70 includes two plates 71 and 72, and the rib 63 is provided on the surfaces of the plates 71 and 72 so as to protrude downward. Each of the plates 71 and 72 is supported so as to be slidable in the sheet width direction on the bottom surface 11s of the housing 11a.

FIG. 11 is a diagram illustrating a configuration example of the support mechanism 80 for the plates 71 and 72 in the curl suppressing unit 70. This figure is a plan view when the support mechanism 80 is viewed from the inside of the housing 11a. The plates 71 and 72 are hidden by the bottom surface 11s and cannot be seen, and are shown by broken lines.
As shown in the figure, the support mechanism 80 is based on a rack and pinion system, and includes racks 81 and 82, a pinion 83, a belt 84, a gear 85, and a motor 86.

The rack 81 is connected to the plate 72 via a hole (not shown) provided in the housing 11a, and the rack 82 is connected to the plate 71 via another hole (not shown). It is supported by the housing 11a so as to be movable along it.
The pinion 83 includes a gear portion that meshes with the teeth of the racks 81 and 82 and a pulley portion on which the belt 84 is stretched in two stages. The gear 85 includes a pulley portion 851 around which the belt 84 is stretched, and a gear portion 852 that meshes with the shaft portion 861 of the motor 86 in two stages. The motor 86 as the driving means is composed of, for example, a stepping motor.

  In such a configuration, when the shaft portion 861 of the motor 86 rotates in the direction of the arrow in the figure, the driving force is transmitted in the order of the gear 85, the belt 84, the pinion 83, the racks 81 and 82, and the racks 81 and 82 are mutually connected. Move in the direction of approach. Thereby, the space | interval of the plates 71 and 72 becomes narrow, and the space | interval of a pair of rib 63 (FIG. 10) which opposes across the width direction center also becomes narrow. When the motor 86 rotates in the reverse direction, the distance between the plates 71 and 72 is widened, and the distance between the pair of ribs 63 facing each other across the center in the width direction is widened.

  In this modification, the position at which the distance between the plates 71 and 72 is the widest is determined in advance as the home position, and a home position sensor (not shown) is provided for detecting that the position is at the home position. Yes. The detection signal of the home position sensor is sent to the control unit 29 (FIG. 5). The control unit 29 can detect whether or not the plates 71 and 72 are located at the home position based on the detection signal from the home position sensor, and the plate 71 can be detected according to the size of the sheet used when the job is executed. , 72 is moved to an appropriate position with respect to the sheet.

FIG. 12 is a flowchart showing the contents of the plate movement process by the control unit 29. This processing is executed every time one sheet is fed by job execution.
As shown in the figure, the sheet width of the fed sheet is first detected (step S1). Here, the image forming unit 20 is provided with a detection sensor (not shown) that detects the width of the fed sheet and outputs the signal, and is performed by receiving a signal from the detection sensor. . In place of the sensor for detecting the sheet width, for example, a sensor for detecting the sheet size is arranged, and the width of the sheet is detected from the sheet size (A4, B5, etc.) detected by the sensor. Also good. A table in which the size and the sheet width are associated with each size is stored, and the sheet width corresponding to the size is read.

  The plates 71 and 72 are moved to positions corresponding to the sheet width (step S2). Here, an information table in which the sheet width is associated with information indicating the amount of rotation of the motor 86 required to move the plate from the home position to the optimum position when a sheet of that width is used is controlled. The information stored in the unit 29 and indicating the rotation amount of the motor 86 corresponding to the sheet to be used is read from the information table, and the motor 86 is rotated by the read rotation amount. The optimum position of the plate is a position at which both ends S in the width direction of the leading end can be reliably guided by the ribs 63 of the plates 71 and 72 when the used sheet is curled, and is obtained in advance from experiments. Depending on the sheet size such as a large size, the plate may not be moved from the home position.

When the plates 71 and 72 move to the optimum position, the job is started. When the job is finished (“YES” in step S3), the plates 71 and 72 are returned to the home position (step S4), and the processing is finished. If the plates 71 and 72 have not moved from the home position, it is assumed that the plates 71 and 72 have returned to the home position, and the process ends.
(2) In the above embodiment, the rib 63 is provided so as to be inclined at an angle θ with respect to the sheet discharge direction. However, the present invention is not limited to this, and for example, θ = 0 [°] is set along the sheet discharge direction. It may be provided. In this case, both end portions of the leading end of the sheet are guided toward the sheet discharging direction by the rib (while maintaining the distance D at that time), and the curl after the start of the guiding by the rib is started. Growth, that is, the interval D can be prevented from gradually becoming narrower.

In the above description, an example in which straight ribs are used as the convex rails has been described. However, for example, a configuration in which a pair of convex members are provided so as to gradually spread outward in a staircase shape in the sheet discharge direction. It is also possible to take.
(3) In the above embodiment, an opening 47c different from the sheet receiving port 28d is provided at the upstream end in the sheet discharge direction of the sheet storage portion 40, and air is supplied from the sheet takeout port 44 so as to connect the opening 47c and the duct 47b. Although one air flow path that is substantially linear is formed up to the discharge port 49, the present invention is not limited to this. For example, when the configuration is such that the influence of heat from the fixing unit 28 does not reach the image reading unit 10, the opening 47 c may be shielded to isolate the boundary between the sheet storage unit 40 and the duct 47 b. it can. Even in this way, the hot air from the fixing unit 28 can be discharged to the outside through the blower fan 48.

  (4) In the above embodiment, the configuration example in which the width direction dimension of the storage tray 41 is constant in the front-rear direction of the apparatus has been described, but for example, the width direction dimension of the second inclined portion 41 b is You may comprise so that it may become large gradually as it goes. In this way, the width of the sheet take-out port 44 in the left-right direction of the apparatus is increased, so that the small-size paper stacked on the first inclined portion 41a can be more easily seen and easily taken out. . In addition, the sheet take-out port 44 is provided by opening substantially the entire wall surface on the front side of the apparatus facing the receiving port 28d of the sheet storage unit 40. However, the present invention is not limited to this, and only a portion having the wall surface is opened. Thus, the takeout port 44 may be configured.

(5) In the above embodiment, an example in which the image forming apparatus according to the present invention is applied to a color copying machine has been described. However, the present invention is not limited to this. Regardless of color or monochrome, the present invention is not limited to the electrophotographic system, and can be applied to image forming apparatuses including an image reading unit and an image forming unit in general, for example, image forming apparatuses such as FAX and MFP (Multiple Function Peripheral).
Furthermore, although the center reference | standard structural example was demonstrated as a sheet | seat conveyance system, it is not restricted to this. For example, the present invention can also be applied to a so-called one-side reference conveyance method in which a sheet is conveyed so that a side on one end side in the conveyance path width direction is along a reference position provided on one end side of the conveyance path. Even in this case, similarly to the above, the curl suppressing portion having the ribs is disposed at a position where both ends in the width direction of the discharged sheet pass. Needless to say, the dimensions and shapes of the above-described members and openings are not limited to those described above.

  Further, the above embodiment and the above modification examples may be combined.

  The present invention can be applied to an image forming apparatus in which a tray for storing sheets discharged from the image forming unit is provided between the image reading unit and the image forming unit.

1 is a perspective view showing an external appearance of an image forming apparatus. 1 is a front view of an image forming apparatus. 2 is a rear view of the image forming apparatus. FIG. FIG. 3 is a schematic diagram illustrating an internal configuration of an image reading unit provided in the image forming apparatus. It is a schematic diagram in the cross section of the front-back direction of an image formation part. FIG. 4 is a cross-sectional view illustrating configurations of an image reading unit and a sheet storage unit. It is a top view when the part which opposes a storage tray of the bottom face of the housing provided in the image reading part is seen from the storage tray side. FIG. 6 is a schematic diagram illustrating a state in which curl is generated in the discharged sheet. It is a perspective view which shows the state by which the image reading part was rotated upwards. It is a figure which shows the structure of the curl suppression part which concerns on a modification. It is a figure which shows the structural example of the support mechanism of the rib plate provided in the curl suppression part. It is a flowchart which shows the content of the rib plate movement process by a control part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 1A Front side wall surface 1B Rear side wall surface 10 Image reading part 11 Reading main body part 11a Housing 11s Bottom face of housing 20 Image forming part 20z Opening 28 Fixing part 40 Sheet discharge part 41 Storage tray 42 Side wall 44 Sheet take-out port 63, 64 Ribs 63e Edges of ribs on the outer side in the sheet width direction 70 Curling suppression portions 71, 72 Plate 80 Plate support mechanism D Spacing between the end portions of the sheet ends in the width direction d1 Spacing between adjacent ribs R Straight line passing through the center in the width direction Z Sheet edge

Claims (9)

An image reading unit for reading a document image;
An image forming unit disposed under the image reading unit and forming an image on a sheet;
A sheet having a tray provided between the image reading unit and the image forming unit, and the image reading unit is disposed through a space so that sheets after image formation discharged from the image forming unit are stacked. A containment section;
A curl suppression unit provided at the bottom surface of the image reading unit or a position directly below the curl suppression unit for suppressing curling of both ends in the width direction generated in the sheet being discharged from the center;
The curl suppressing portion is
Ribs that protrude downwards are provided,
The rib is
As it goes in the sheet discharge direction, it is stretched in a direction that skews in a direction away from the center of the sheet in the width direction with respect to the sheet discharge direction or a direction along the sheet discharge direction,
When the sheet is being ejected and comes into contact with the leading edge of the sheet discharge direction at both end portions lifted by the curl, the leading edge of the sheet is slidably guided in the sheet discharging direction as the discharge of the sheet proceeds. An image forming apparatus. The rib protrudes from the bottom surface of the image reading unit,
The image forming apparatus according to claim 1, wherein a plurality of the ribs are provided at positions on both sides of the sheet conveyance path in the width direction and at intervals in the sheet discharge direction.   The image forming apparatus according to claim 2, wherein the plurality of ribs are provided so as to have a line-symmetrical positional relationship across a line passing through a center in the width direction of the sheet conveyance path.   The image forming apparatus according to claim 2, wherein an interval between adjacent ribs in the sheet discharging direction is constant.   5. The image forming apparatus according to claim 2, wherein the plurality of ribs are provided on a portion of the bottom surface of the image reading unit facing the tray. 6. The curl suppressing portion is
Comprising two plates slidably supported on the bottom surface of the image reading unit;
The image forming apparatus according to claim 1, wherein the rib is provided on a lower surface of each of the two plates.   The two plates are slidably supported along the width direction so as to maintain a line-symmetric positional relationship across a line passing through the center in the width direction of the sheet conveyance path. The image forming apparatus according to claim 6. The curl suppressing portion is
Driving means for moving the two plates;
Detection means for detecting the width of the sheet used;
The image forming apparatus according to claim 7, further comprising a control unit that controls the driving unit to move the two plates to a position corresponding to the detected sheet width. The image reading unit
The image forming unit is supported so as to be rotatable in the vertical direction around the fulcrum through a fulcrum,
The sheet container is
Each end of the tray in the sheet width direction is provided with a side wall extending upward, and the upper end of each side wall is connected to the bottom surface of the image reading unit. The image forming apparatus according to claim 1, wherein a sheet take-out port is formed.

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