JP6488935B2 - Image reading device - Google Patents

Description

  The present invention relates to an image reading apparatus.

  Patent Document 1 discloses an example of a conventional image reading apparatus. The image reading apparatus includes a main body and a cover that is supported by the main body so as to be opened and closed. The cover unit is provided with an automatic document feeder (hereinafter referred to as “ADF”) and a contact image sensor (hereinafter referred to as “ADF side CIS”). The main body portion is provided with another contact image sensor (hereinafter referred to as “main body portion side CIS”). The main body portion side CIS is disposed so as to face the platen glass disposed on the upper surface of the main body portion from below, and can reciprocate along the platen glass.

  The ADF defines a transport path by a main body frame, an upper guide, an under guide, and an upper cover. The conveyance path includes a curved path, an upper path connected to the upper end of the curved path, and a lower path connected to the lower end of the curved path. The ADF conveys the sheet along the conveyance path in the conveyance direction in the order of the upper path, the curved path, and the lower path.

  The ADF side CIS is disposed below the upper path, and the reading surface faces upward. When the sheet is conveyed by the ADF, the main body side CIS moves downward with respect to the lower path and stops. The main body side CIS also has a reading surface facing upward and faces the lower path. At this time, the ADF side CIS and the main body side CIS are arranged so as to overlap in the vertical direction. The ADF side CIS reads an image of one surface of the sheet when the sheet is conveyed along the upper path. The main body side CIS reads an image on the other surface of the sheet when the sheet is conveyed along the lower path. Thereby, in this image reading apparatus, the image of the single side | surface or both surfaces of the sheet conveyed by ADF can be read.

Japanese Patent No. 5170145

  By the way, in the conventional image reading apparatus, when the sheet is conveyed by the ADF, the ADF side CIS and the main body side CIS are arranged so as to overlap each other in the vertical direction. Therefore, it is difficult to downsize the apparatus in the vertical direction. There is a problem. Therefore, the ADF side CIS is disposed at a position facing the lower path from above so that the reading surface faces downward, and an upstream or downstream shift in the transport direction with respect to the FB side CIS facing the lower path from below. It is conceivable that the ADF side CIS is arranged at a certain position to achieve downsizing in the vertical direction. However, in this case, the lower path is likely to be long due to restrictions when positioning the ADF side CIS with respect to the main body frame or the like, and there is a possibility that it is difficult to reduce the size of the apparatus in the direction in which the lower path extends.

  The present invention has been made in view of the above-described conventional situation, and an object of the present invention is to provide an image reading apparatus that can realize downsizing of the apparatus in the vertical direction and the direction in which the lower path extends.

The image reading apparatus of the present invention includes a guide portion and a conveyance roller, and the guide portion is connected to a curved path, an upper path connected to the upper end of the curved path, and a lower path connected to the lower end of the curved path. A conveyance path including a path, and the conveyance roller is a conveyance unit disposed at the lower end, and is configured to convey a sheet in a conveyance direction in the order of the upper path, the curved path, and the lower path. The transport unit for transporting along the transport path;
A first reading unit that is disposed downstream of the transport roller in the transport direction in the lower path and reads an image of one surface of the sheet transported through the lower path;
A second reading unit that is disposed downstream of the first reading unit in the lower path in the transport direction and reads an image on the other surface of the sheet that is transported through the lower path;
The first reading unit extends in a direction intersecting the first reading surface and a first reading surface that extends in the main scanning direction while facing the lower path, and the first reading surface is positioned between the first reading surface and the first reading surface. A first side surface and a second side surface that face each other and extend along the main scanning direction,
The second side surface is at a position farther from the transport roller than the first side surface in the transport direction,
The second side surface is provided with a first positioning mechanism for positioning the first reading unit with respect to the guide unit.

  In the image reading apparatus according to the present invention, the first reading unit and the second reading unit are arranged so as not to overlap each other in the vertical direction, whereby downsizing in the vertical direction can be realized. In addition, in this image reading apparatus, when the first reading unit and the second reading unit are arranged in the lower path, the first positioning mechanism of the first reading unit is provided on the side opposite to the conveyance roller in the conveyance direction. As a result, the first reading unit can be disposed close to the conveyance roller, and the lower path can be shortened.

  Therefore, in the image reading apparatus of the present invention, it is possible to reduce the size of the apparatus in the vertical direction and the direction in which the lower path extends.

1 is a perspective view of an image reading apparatus according to an embodiment. 1 is a schematic front view of an image reading apparatus according to an embodiment. It is a fragmentary perspective view which mainly shows the opening / closing part in an open position. 1 is a partial cross-sectional view of an image reading apparatus according to an embodiment. 1 is a partial cross-sectional view of an image reading apparatus according to an embodiment. It is a perspective view explaining the procedure which assembles a 2nd reading part to a carriage. It is a perspective view which shows the state which looked up at the 2nd chute | shoot member with which the 1st reading part etc. were assembled | attached from the bottom. It is a fragmentary perspective view which mainly shows the 1st reading part and the accommodating part of the 2nd chute member which accommodates the 1st reading part. It is a fragmentary perspective view which mainly shows the 1st reading part accommodated in the accommodating part of a 2nd chute member, and the positioning member before mounting | wearing with an accommodating part. It is a partial bottom view which mainly shows the 1st reading part accommodated in the accommodating part of the 2nd chute member. It is a fragmentary sectional view which shows the AA cross section of FIG.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying the present invention will be described below with reference to the drawings.

(Example)
As shown in FIG. 1, an image reading apparatus 1 according to the embodiment is an example of a specific mode of the image reading apparatus according to the present invention. In FIG. 1, the side on which the operation panel 8P is arranged is defined as the front of the apparatus, and the side that comes to the left hand when facing the operation panel 8P is defined as the left side. To do. 2 are displayed in correspondence with the directions shown in FIG. 1. Hereinafter, each component provided in the image reading apparatus 1 will be described with reference to FIG.

<Overall configuration>
As shown in FIGS. 1 to 5, the image reading apparatus 1 includes a main body unit 8, an opening / closing unit 9, an image forming unit 5, a reading unit 3, and a conveying unit 4. The main body 8 is a flat substantially box-shaped body. As shown in FIG. 1, an operation panel 8 </ b> P such as a touch panel is provided on the front surface of the main body 8.

  As shown in FIG. 2, the reading unit 3 is located in the upper part in the main body 8. The image forming unit 5 is housed in the lower part of the main body 8. The image forming unit 5 forms an image on a sheet by an ink jet method or a laser method.

  As shown in FIGS. 3 to 5, a first platen glass 81, a second platen glass 82, and a frame body 8 </ b> W are disposed on the upper surface of the main body 8.

  A support surface 81 </ b> A is formed by the upper surface of the first platen glass 81. The support surface 81A supports the original from below when the reading unit 3 reads an image of the stationary original. Documents to be read include books, in addition to sheets such as paper and OHP sheets.

  The second platen glass 82 is positioned to the left of the first platen glass 81 and extends in the longitudinal direction. A reading guide surface 82 </ b> A is formed by the upper surface of the second platen glass 82. The reading guide surface 82A guides the conveyed sheet SH from below when the reading unit 3 reads an image of the sheet SH conveyed one by one by the conveying unit 4.

  In this embodiment, an object whose image is read using the support surface 81A is referred to as a document, and an object whose image is read while being conveyed by the conveying unit 4 is referred to as a sheet. The document and the sheet may be substantially the same.

  The frame body 8 </ b> W surrounds the peripheral edges of the first platen glass 81 and the second platen glass 82. A guide portion 89 is formed in a portion of the frame 8W adjacent to the second platen glass 82 from the left. The guide portion 89 extends in the front-rear direction while projecting upward from the upper surface of the frame body 8W. The surface facing the guide portion 89 is an inclined surface 89A in which the height from the frame body 8W decreases from the left end toward the right end. That is, the inclined surface 89A is inclined downward to the right so as to approach the reading guide surface 82A.

  As shown in FIG. 1, the opening / closing part 9 is supported by a hinge (not shown) disposed at the rear part of the body part 8 so as to be swingable around an opening / closing axis X9 extending in the left-right direction. The open / close portion 9 covers the support surface 81A from above in the closed position shown in FIGS. The opening / closing portion 9 is displaced to the open position shown in FIG. 3 by swinging around the opening / closing axis X9 so that the front end portion thereof is displaced upward and backward. The opening / closing part 9 exposes the support surface 81A at the open position. As a result, the user can support the document to be read on the support surface 81A.

  In addition, when demonstrating the structure of the opening / closing part 9 and its internal structure, it is based on the attitude | position of the opening / closing part 9 in a closed position about an up-down direction and the front-back direction.

  As shown in FIGS. 2 to 5, the reading unit 3 includes a first reading unit 31 accommodated in the opening / closing unit 9 and a second reading unit 32 accommodated in the upper part of the main body unit 8. ing. As the first reading unit 31 and the second reading unit 32, a known image reading sensor such as a CIS (Contact Image Sensor) or a CCD (Charge Coupled Device) is used.

  In the present embodiment, the first reading unit 31 and the second reading unit 32 are substantially the same. As shown in FIGS. 6 and 8, the first reading unit 31 and the second reading unit 32 have a substantially rectangular parallelepiped shape, and one surface extending in the main scanning direction is the first reading surface 31A and the second reading unit. Each of the reading surfaces 32A is configured.

  As shown in FIGS. 4 and 5, in the present embodiment, the first reading unit 31 is arranged so that the main scanning direction is the front-rear direction with the first reading surface 31 </ b> A facing obliquely downward. The second reading unit 32 is arranged so that the main scanning direction is the front-rear direction with the second reading surface 32A facing upward. In this state, in the first reading unit 31, the surface that is on the left side with respect to the first reading surface 31A and extends in the main scanning direction is on the first side surface 31B and on the right side with respect to the first reading surface 31A. The surface extending in the direction is the second side surface 31C. On the other hand, in the second reading section 32, the surface that is on the left side with respect to the second reading surface 32A and extends in the main scanning direction is on the third side surface 32B and the right side with respect to the second reading surface 32A, and extends in the main scanning direction. The surface is a fourth side surface 32C.

  The first side surface 31B and the second side surface 31C are surfaces that are orthogonal or substantially orthogonal to the first reading surface 31A, and are opposed to each other with the first reading surface 31A interposed therebetween. The third side surface 32B and the fourth side surface 32C are surfaces that are orthogonal or substantially orthogonal to the second reading surface 32A, and are opposed to each other with the second reading surface 32A interposed therebetween. A plurality of light receiving elements (not shown) are arranged in a row on the first reading surface 31A and the second reading surface 32A extending in the main scanning direction.

  As shown in FIGS. 4 and 5, the second reading unit 32 is held by a carriage 39 disposed below the support surface 81A. The carriage 39 is connected to a scanning mechanism (not shown). By operating a scanning mechanism (not shown), the carriage 39 reciprocates in the left-right direction, which is the sub-scanning direction orthogonal to the main scanning direction, while holding the second reading unit 32.

  As shown in FIG. 4, the second reading unit 32 is located below the support surface 81A and the reading guide surface 82A. A scanning mechanism (not shown) reciprocates the second reading unit 32 held by the carriage 39 in the left-right direction below the support surface 81 </ b> A in the main body 8 when reading an image of a document supported on the support surface 81 </ b> A. . Further, the scanning mechanism (not shown) reads the second reading unit 32 held by the carriage 39 when the second reading unit 32 reads the image of the sheet SH conveyed by the conveying unit 4. Stop at a stationary reading position below 82A.

  Here, a specific configuration in which the second reading unit 32 is assembled to the carriage 39 will be described with reference to FIGS. 5 and 6.

  As shown in FIGS. 5 and 6, a second positioning mechanism 320 for positioning the second reading unit 32 with respect to the carriage 39 is provided on the fourth side surface 32 </ b> C of the second reading unit 32.

  As shown in FIG. 6, the second positioning mechanism 320 includes a third convex portion 321T, a fourth convex portion 322T, a third shaft portion 321S, and a fourth shaft portion 322S.

  The third convex portion 321T protrudes from the front end portion of the fourth side surface 32C toward the side opposite to the third side surface 32B. The fourth convex portion 322T protrudes from the rear end portion of the fourth side surface 32C toward the side opposite to the third side surface 32B. The 3rd convex part 321T and the 4th convex part 322T are made into the substantially rectangular parallelepiped shape. Positioning concave portions 329 and 329 are provided in the middle portion of the third convex portion 321T and the fourth convex portion 322T in the main scanning direction. The positioning recesses 329 and 329 are recessed toward the fourth side surface 32C from the end surface facing the opposite side to the third side surface 32B of the third convex portion 321T and the fourth convex portion 322T. In addition, the positioning recesses 329 and 329 are recessed toward the second reading surface 32A from the end surfaces of the third and fourth convex portions 321T and 322T facing away from the second reading surface 32A.

  The third shaft portion 321S protrudes rearward in a substantially cylindrical shape from the end surface facing the rear of the third convex portion 321T. The fourth shaft portion 322S protrudes rearward in a substantially cylindrical shape from an end surface facing the rear of the fourth convex portion 322T. The third shaft portion 321S and the fourth shaft portion 322S are coaxial and define a positioning axis X32 parallel to the main scanning direction.

  The carriage 39 includes a base portion 390, shaft support portions 391 and 392, and a positioning convex portion 399. The base 390 includes a bottom 390B that is a flat surface, a right wall 390R that protrudes upward from the right edge of the bottom 390B, and a left wall 390L that protrudes upward from the left edge of the bottom 390B. The carriage 39 has a substantially “U” shape in cross section. The shaft support portion 391 is provided in front of the right wall 390R, and protrudes upward in a substantially plate shape from the front end and the right end corner of the bottom portion 390B. A long hole 391H that is long in the vertical direction is provided in the shaft support portion 391 in the front-rear direction. The upper end of the long hole 391H is open. The shaft support portion 392 is provided behind the right wall 390R, and protrudes upward in a substantially plate shape from the rear end of the bottom portion 390B and the corner portion of the right end. A long hole 392H that is long in the vertical direction is also provided in the shaft support portion 392 in the front-rear direction. The upper end of the long hole 392H is open. The positioning protrusion 399 protrudes upward in a substantially prismatic shape at a position in front of the shaft support 392. A gap is formed between the shaft support portion 392 and the positioning convex portion 399.

  The second reading unit 32 in the posture shown in FIG. 6 is moved closer to the carriage 39 as indicated by arrows R1 and R2. Next, the third shaft portion 321S and the fourth shaft portion 322S of the second positioning mechanism 320 are fitted into the elongated holes 391H and 392H of the shaft support portions 391 and 392, respectively, from the front. Finally, the second reading unit 32 is swung around the positioning axis X32 as indicated by an arrow R3. As a result, the positioning concave portion 329 located behind the second positioning mechanism 320 is fitted with the positioning convex portion 399 of the carriage 39. As a result, the second reading unit 32 is positioned in the front-rear direction with respect to the carriage 39.

  As shown in FIGS. 2, 4, and 5, the first reading unit 31 is disposed in the middle of the conveyance path P <b> 1 in the opening / closing unit 9. As shown in FIG. 5, the first reading unit 31 is assembled to the second chute member 120 and faces the conveyance path P <b> 1 through the third platen glass 83. The third platen glass 83 is an example of the “platen glass” in the present invention. A specific configuration in which the first reading unit 31 is assembled to the second chute member 120 will be described later with reference to FIGS.

  As shown in FIGS. 4 to 5 and 7, the first reading unit 31 also extends in the front-rear direction, which is the main scanning direction, like the second reading unit 32, and the surface facing downward is first. One reading surface 31A is provided. In FIG. 7, the second chute member 120 with the third platen glass 83 removed is shown.

  As shown in FIG. 5, the surface facing the third platen glass 83 faces the first reading surface 31A. A surface facing the lower side of the third platen glass 83 is a reading guide surface 83A. The reading guide surface 83A guides the conveyed sheet SH from above when the first reading unit 31 reads an image of the sheet SH conveyed by the conveying unit 4.

  As shown in FIGS. 2, 4, and 5, the transport unit 4 is provided in the opening / closing unit 9. The transport unit 4 includes a supply tray 91 and a discharge tray 92. As shown in FIGS. 1 and 2, the supply tray 91 is located in the right part of the opening / closing part 9. The discharge tray 92 is located below the supply tray 91.

  As shown in FIG. 4, the supply tray 91 supports the sheet SH to be read conveyed by the conveyance unit 4 from below. A surface facing the upper side of the sheet SH supported by the supply tray 91 is defined as one surface SH1. A surface facing the lower side of the sheet SH supported by the supply tray 91, that is, a surface facing the opposite side to the one surface SH1 is defined as the other surface SH2. An image is read on the discharge tray 92 by the first reading unit 31 and the second reading unit 32, and the sheet SH conveyed by the conveying unit 4 is discharged. When the sheet SH is discharged to the discharge tray 92, the one surface SH1 faces downward and the other surface SH2 faces upward.

  As shown in FIGS. 4 and 5, the transport unit 4 includes a first chute member 110, a second chute member 120, a first cover member 130, and a second cover member 140. The 1st chute member 110, the 2nd chute member 120, the 1st cover member 130, and the 2nd cover member 140 are examples of the "guide part" of the present invention.

  As shown in FIG. 7, the transport unit 4 includes a drive unit 4M. The drive unit 4M includes a motor and a transmission gear group supported by the sheet metal frame 4F and the like. The sheet metal frame 4 </ b> F is opposed to the rear end of the second chute member 120 from the rear, and is assembled to the second cover member 140. The drive unit 4M drives a plurality of conveyance rollers including a second conveyance roller 45 described later. The second transport roller 45 is an example of the “transport roller” in the present invention.

  The rotation shaft 45S of the second transport roller 45 is rotatably supported by the second chute member 120 and the sheet metal frame 4F. The rear end of the rotation shaft 45S is connected to the drive unit 4M.

  As shown in FIGS. 4 and 5, the transport unit 4 has a transport path P1. The conveyance path P1 is formed by the upper and lower surfaces of the first chute member 110, the second chute member 120, the first cover member 130, and the second cover member 140, and the one surface SH1 or the other surface SH2 of the sheet SH within the opening / closing portion 9. Is defined as a space surrounded by a plurality of guide surfaces extending so as to be able to come into contact with each other. The conveyance path P1 includes a curved path PC1, an upper path PA1, and a lower path PB1.

  As shown in FIGS. 4 and 5, the curved path PC <b> 1 is curved so as to swell leftward in the vicinity of the left end portion of the opening / closing portion 9.

  The upper path PA <b> 1 extends from the supply tray 91 to the vicinity of the left end of the opening / closing unit 9. The left end of the upper path PA1 is connected to the upper end of the curved path PC1. The upper path PA1 is inclined downward at a portion continuing to the supply tray 91, and is inclined upward at a position between a supply roller 41 and a separation roller 42 described later.

  The lower path PB1 is located below the upper path PA1. The left end of the lower path PB1 is connected to the lower end of the curved path PC1. The lower path PB <b> 1 extends from the vicinity of the left end of the opening / closing unit 9 to the discharge tray 92. The lower path PB1 is inclined downward from the vicinity of the left end of the opening / closing portion 9 so as to approach the reading guide surface 82A, extends substantially horizontally to the right along the reading guide surface 82A, and then rises toward the discharge tray 92. Inclined.

  The lower path PB1 has a first inclined part PB11 and a second inclined part with a part extending substantially horizontally to the right along the reading guide surface 82A, that is, a predetermined part positioned below the curved path PC1 as a reference part PB10. Part PB12.

  The first inclined portion PB11 is a portion of the lower path PB1 that is inclined downward so as to approach the reading guide surface 82A from the vicinity of the left end portion of the opening / closing portion 9, that is, from the lower end portion of the curved path PC1 toward the reference portion PB10. This is the part that slopes down.

  The second inclined portion PB12 is a portion of the lower path PB1 that is inclined upward from the right side of the reading guide surface 82A toward the discharge tray 92, that is, the upward inclination toward the opposite side of the curved path PC1 from the reference portion PB10. It is a part to do.

  The conveyance unit 4 conveys the sheet SH from the upper path PA1 to the lower path PB1 via the curved path PC1 in the conveyance path P1. The conveyance direction of the sheet SH in the conveyance path P1 is leftward in the upper path PA1, changes from leftward in the curved path PC1, turns right, and rightward in the lower path PB1. In the transport path P1, the right end of the upper path PA1 is the most upstream in the transport direction, and the right end of the lower path PB1 is the most downstream in the transport direction.

  The upper surface of the first chute member 110 forms a first guide surface 111 that defines the upper path PA1. The first guide surface 111 extends so as to be in contact with the other surface SH2 of the sheet SH conveyed along the upper path PA1, and guides the sheet SH from below in the upper path PA1.

  An upper curved surface 116 is formed at the left end portion of the first chute member 110. The upper curved surface 116 defines the upper part of the curved path PC1. The upper curved surface 116 extends so as to be able to contact the other surface SH2 of the sheet SH conveyed on the upper portion of the curved path PC1, and guides the sheet SH from below and right on the upper portion of the curved path PC1.

  The second chute member 120 is disposed below the first chute member 110 and is fixed to the second cover member 140 together with the first chute member 110 by a fastening member such as a screw. A lower curved surface 126 is formed at the left end of the second chute member 120. The lower curved surface 126 defines the lower part of the curved path PC1. The lower curved surface 126 extends so as to be able to contact the other surface SH2 of the sheet SH conveyed in the lower part of the curved path PC1, and guides the sheet SH from the right and the upper in the lower part of the curved path PC1.

  As shown in FIGS. 5 and 7 and the like, the lower curved surface 126 is formed with an opening at a position corresponding to the second transport roller 45, and the lower portion of the outer peripheral surface of the second transport roller 45 is a curved path PC1. It is exposed at the lower end. That is, the 2nd conveyance roller 45 is arrange | positioned at the lower end part of the curved path PC.

  As shown in FIGS. 4 and 5, the lower surface of the second chute member 120 is connected to the lower curved surface 126 and is inclined downward to the right. The second chute member 120 forms a second guide surface 122 that defines the first inclined portion PB11 of the lower path PB1 by its lower surface. The second guide surface 122 extends so as to be in contact with the other surface SH2 of the sheet SH conveyed through the first inclined portion PB11, and guides the sheet SH from above at the first inclined portion PB11. The second chute member 120 has an accommodating portion 129 that is recessed upward. The accommodating portion 129 is a substantially rectangular parallelepiped space that is long in the front-rear direction. A first reading unit 31 is held inside the storage unit 129. The accommodating portion 129 is closed by the third platen glass 83. A configuration for holding the first reading unit 31 in the housing unit 129 will be described later.

  The first reading unit 31 held in the storage unit 129 is disposed between the upper path PA1 and the lower path PB1. Further, the first reading unit 31 is disposed downstream of the second transport roller 45 in the transport direction in the lower path PB1. On the other hand, the second reading unit 32 stopped at the stationary reading position is located downstream of the first reading unit 31 in the transport direction in the lower path PB1.

  As shown in FIGS. 4 and 5, the reading guide surface 83A of the third platen glass 83 is inclined downward to the right along the first inclined portion PB11. The reading guide surface 83A, together with the second guide surface 122, defines the first inclined portion PB11. The first reading surface 31A of the first reading unit 31 is disposed in parallel with the reading guide surface 83A of the third platen glass 83, that is, obliquely downward along the first inclined portion PB11. The first reading surface 31A of the first reading unit 31 faces the first inclined portion PB11 via the reading guide surface 83A of the third platen glass 83. In other words, the first reading unit 31 is arranged so that the first reading surface 31A faces the first inclined part PB11 in a state where the first reading unit 31 is inclined with respect to the second reading unit 32 stopped at the stationary reading position.

  A sheet presser 49 is held on the lower surface of the second chute member 120. The sheet presser 49 is located at a position adjacent to the downstream end of the third platen glass 83 in the transport direction from the right, and faces the reading guide surface 82A from above. 7 to 8 show the second chute member 120 in a state where the sheet presser 49 is removed.

  As shown in FIGS. 4 and 5, a compression coil spring 49 </ b> S is disposed between the second chute member 120 and the sheet presser 49. The compression coil spring 49S biases the sheet presser 49 toward the reading guide surface 82A. The lower surface of the sheet presser 49 defines a reference portion PB10 of the lower path PB1. The lower surface of the sheet presser 49 extends so as to be in contact with the other surface SH2 of the sheet SH conveyed through the reference portion PB10, and guides the sheet SH from above in the reference portion PB10.

  The lower surface of the second chute member 120 is inclined upward to the right from a position adjacent to the sheet presser 49 from the right. The lower surface of the second chute member 120 forms a third guide surface 123 that defines the second inclined portion PB12 of the lower path PB1. The third guide surface 123 extends so as to be able to contact the other surface SH2 of the sheet SH conveyed through the second inclined portion PB12, and guides the sheet SH from above at the second inclined portion PB12.

  The first cover member 130 is assembled to the first chute member 110 from above. A plurality of ribs 130 </ b> R are formed on the lower surface of the first cover member 130. The first cover member 130 forms a fourth guide surface 134 by the lower end edge of each rib 130R. The fourth guide surface 134 defines upper portions of the upper path PA1 and the curved path PC1. The fourth guide surface 134 extends so as to be able to come into contact with one surface SH1 of the sheet SH conveyed along the upper portion of the upper path PA1 and the curved path PC1. And guide from the left.

  The second cover member 140 supports the first chute member 110 and the second chute member 120 from below. As shown in FIG. 4, the upper surface of the right portion of the second cover member 140 constitutes a discharge tray 92.

  As shown in FIGS. 3 to 5, the second cover member 140 has an opening 140 </ b> H penetrating in the vertical direction. The opening 140 </ b> H is a substantially rectangular opening having a size that exposes the reading guide surface 83 </ b> A of the third platen glass 83 and the sheet presser 49.

  As shown in FIGS. 4 and 5, in the second cover member 140, a fifth guide surface 145A is formed on the left side of the opening 140H. The fifth guide surface 145A faces the lower curved surface 126, and defines the lower portion of the curved path PC1. The fifth guide surface 145A extends so as to be able to come into contact with one surface SH1 of the sheet SH being conveyed along the lower portion of the curved path PC1, and the sheet SH is formed at the lower portion of the curved path PC1 and the first inclined portion PB11 of the lower path PB1. From the left and below.

  As shown in FIG. 4, in the second cover member 140, a fifth guide surface 145B is formed on the right side of the opening 140H. The fifth guide surface 145B defines the second inclined portion PB12 of the lower path PB1. The fifth guide surface 145B extends so as to be in contact with one surface SH1 of the sheet SH conveyed through the second inclined portion PB12 of the lower path PB1, and guides the sheet SH from below in the second inclined portion PB12 of the lower path PB1. To do.

  As shown in FIGS. 4 and 5, a holding member 141 is assembled on the lower surface near the left end of the transport unit 4. A sheet presser 149 is held by the holding member 141. The sheet presser 149 is located at a position adjacent to the fifth guide surface 145A from the right and faces the first reading surface 31A of the first reading unit 31 from below through the third platen glass 83. A compression coil spring 149 </ b> S is disposed between the holding member 141 and the sheet presser 149. The compression coil spring 149S biases the sheet presser 149 toward the reading guide surface 83A.

  As shown in FIG. 11, the sheet presser 149 is viewed from the Z direction, which is a direction orthogonal to the third platen glass 83, and the first protrusion 311 </ b> T, the second protrusion 312 </ b> T, and the first shaft of the first positioning mechanism 310. It is in a position that does not overlap with the portion 311S and the second shaft portion 312S.

  As shown in FIGS. 4 and 5, the upper surface of the sheet presser 149 and the inclined surface 89A formed on the frame body 8W face rightward along the first inclined portion PB11 in a state where the opening / closing portion 9 is in the closed position. Inclining down. The upper surface of the sheet presser 149 faces the third platen glass 83 and defines the first inclined portion PB11 together with the inclined surface 89A. The upper surface of the sheet presser 149 extends so as to be in contact with one surface SH1 of the sheet SH that passes through the first inclined portion PB11, and guides the sheet SH from below in the first inclined portion PB11 of the lower path PB1. The sheet presser 149 presses the sheet SH conveyed by the conveying unit 4 toward the third platen glass 83 by being biased by the compression coil spring 149 </ b> S.

  In a state in which the opening / closing part 9 is in the closed position, the opening 140H is located immediately above the reading guide surface 82A, and makes the reading guide surface 82A and the sheet presser 49 face each other. Thereby, the reading guide surface 82A defines the reference portion PB10 of the lower path PB1. The reading guide surface 82A extends so as to be in contact with one surface SH1 of the sheet SH conveyed through the reference portion PB10, and guides the sheet SH from below in the reference portion PB10. In other words, the first inclined portion PB11 inclined downward from the lower end portion of the curved path PC1 toward the reference portion PB10 is inclined downward from the curved path PC1 toward the second reading unit 32 that stops at the stationary reading position.

  The transport unit 4 includes a supply roller 41, a separation roller 42, and a separation piece 43 provided at a position near the supply tray 91 in the upper path PA <b> 1.

  The supply roller 41 and the separation roller 42 are provided at positions facing the first guide surface 111 of the first chute member 110 from above. The separation piece 43 forms a sheet conveyance surface together with the upper surface of the first chute member 110 and is provided at a position facing the separation roller 42 from below. The separation piece 43 is a plate-like body made of a soft material such as rubber or elastomer. The separation piece 43 is pressed against the separation roller 42 by the biasing spring 43S.

  The supply roller 41 and the separation roller 42 rotate synchronously. The supply roller 41 applies conveyance force to the sheet SH supported by the supply tray 91 and sends the sheet SH toward the separation roller 42. The separation roller 42 rotates while contacting the sheet SH sent from the supply tray 91 to the upper path PA1, and conveys the sheet SH toward the curved path PC1. The separation piece 43 separates the sheets SH conveyed by the separation roller 42 one by one in cooperation with the separation roller 42.

  The transport unit 4 includes a first transport roller 44, a pinch roller 44P, a second transport roller 45, a pinch roller 45P, a discharge roller 48, and a pinch roller 48P.

  The first conveyance roller 44 and the pinch roller 44P are disposed on the left side of the separation roller 42 and the separation piece 43 in the upper path PA1, that is, downstream in the conveyance direction. The first conveying roller 44 is arranged so that a part thereof is exposed from the first guide surface 111 side. The pinch roller 44P is arranged so that a part thereof is exposed from the fourth guide surface 134. The first conveying roller 44 and the pinch roller 44P nip the sheet SH separated one by one by the separation roller 42 and the separation piece 43 and convey the sheet SH toward the curved path PC1.

  The second conveying roller 45 and the pinch roller 45P are disposed in the lower part of the curved path PC1. The second conveyance roller 45 and the pinch roller 45P are located on the left side and above the first reading unit 31, that is, upstream in the conveyance direction. The second transport roller 45 is arranged so that a part thereof is exposed from the lower curved surface 126. The pinch roller 45P is disposed so that a part thereof is exposed from the fifth guide surface 145A.

  The second conveyance roller 45 and the pinch roller 45P nip the sheet SH conveyed by the first conveyance roller 44 and the pinch roller 44P, and the first reading unit 31 disposed along the first inclined portion PB11, and the stationary reading The sheet SH is conveyed toward the second reading unit 32 that stops at the position and faces the reference unit PB10. At this time, the sheet SH is conveyed by the pressing member 149 while being prevented from being lifted from the reading guide surface 83A. Further, the sheet SH is conveyed while being suppressed from being lifted from the reading guide surface 82 </ b> A by the sheet presser 49.

  As shown in FIG. 4, the discharge roller 48 and the pinch roller 48P are arranged on the upstream side of the discharge tray 92 at the right end of the second inclined portion PB12 of the lower path PB1. The discharge roller 48 is adjacent to the third guide surface 123, and the pinch roller 48P is adjacent to the fifth guide surface 145B. The discharge roller 48 and the pinch roller 48P nip the sheet SH that has passed over the reading guide surface 82A and discharge it to the discharge tray 92.

  Here, a specific configuration in which the first reading unit 31 is assembled to the housing unit 129 will be described with reference to FIGS. 5 and 7 to 11. In addition, the 2nd conveyance roller 45 and the pinch roller 45P which are shown with a dashed-two dotted line in FIG. 11 are located ahead of the AA cross section of FIG. 10, and are located in the paper surface front side of FIG.

  As shown in FIGS. 5 and 11, in a state where the first reading unit 31 is held in the housing unit 129, the first side surface 31B is connected to the left edge of the first reading surface 31A and extends upward. And it extends in the main scanning direction. The second side surface 31C is connected to the right edge of the first reading surface 31A and extends upward, and extends in the main scanning direction. The second side surface 31C is located farther from the second transport roller 45 than the first side surface 31B in the transport direction of the lower path PB1.

  As shown in FIGS. 8 to 11, the second side surface 31 </ b> C is provided with a first positioning mechanism 310 for positioning the first reading unit 31 with respect to the second chute member 120.

  The first positioning mechanism 310 includes a first convex portion 311T, a second convex portion 312T, a first shaft portion 311S, and a second shaft portion 312S.

  The first convex portion 311T protrudes from the rear end portion of the second side surface 31C toward the downstream in the transport direction in the lower path PB1, that is, rightward. The second convex portion 312T protrudes from the front end portion of the second side surface 31C toward the downstream in the transport direction in the lower path PB1, that is, to the right. The 1st convex part 311T and the 2nd convex part 312T are made into the substantially rectangular parallelepiped shape. As shown in FIGS. 8 and 10, positioning concave portions 319 and 319 are provided in the middle portion of the first convex portion 311T and the second convex portion 312T in the main scanning direction. The positioning recesses 319 and 319 are recessed toward the second side surface 31C from the end surfaces facing the opposite side of the first side surface 31B of the first and second convex portions 311T and 312T. In addition, the positioning recesses 319 and 319 are recessed toward the first reading surface 31A from the end surfaces of the first and second convex portions 311T and 312T facing the side opposite to the first reading surface 31A.

  As shown in FIGS. 8 to 11, the first shaft portion 311 </ b> S protrudes forward in a substantially cylindrical shape from an end surface facing the front of the first convex portion 311 </ b> T. The second shaft portion 312S protrudes forward in a substantially cylindrical shape from the end surface facing the front of the second convex portion 312T. The first shaft portion 311S and the second shaft portion 312S are coaxial and define a positioning axis X31 parallel to the main scanning direction.

  As shown in FIG. 8, foams 129 </ b> C and 129 </ b> C are attached to the front end and the rear end of the inner wall surface 129 </ b> M facing downward in the housing portion 129. When the first reading unit 31 is attached to the housing portion 129, the surface opposite to the first reading surface 31A of the first reading unit 31 faces the inner wall surface 129M. The foams 129C and 129C are made of a material that is easily compressed and deformed, such as a sponge. The foams 129 </ b> C and 129 </ b> C are for pressing the first reading unit 31 held in the housing unit 129 against the third platen glass 83.

  The accommodating part 129 has contact surfaces 127 and 128 and a positioning convex part 129T. The front end and the rear end of the inner wall surface 129N facing left in the storage portion 129 can store the first convex portion 311T, the second convex portion 312T, the first shaft portion 311S, and the second shaft portion 312S of the first positioning mechanism 310. It is recessed to the right. The contact surface 127 is a flat surface that is formed at the rear end of the inner wall surface 129N facing the left in the housing portion 129 and extends in the vertical direction. The contact surface 128 is a flat surface that is formed at the front end of the inner wall surface 129N facing left in the housing portion 129 and extends in the vertical direction. The positioning convex portion 129T protrudes downward in a substantially prismatic shape at a rear position with respect to the contact surface 128. A gap is formed between the contact surface 128 and the positioning convex portion 129T.

  The first reading unit 31 in the posture shown in FIG. 8 is housed in the housing unit 129 as shown in FIGS. At this time, the first shaft portion 311S and the second shaft portion 312S of the first positioning mechanism 310 are in contact with the contact surfaces 127 and 128 of the housing portion 129, respectively. Further, the positioning recess 319 positioned in front of the first positioning mechanism 310 is fitted with the positioning protrusion 129T of the housing portion 129. Accordingly, the first reading unit 31 is positioned in the front-rear direction with respect to the storage unit 129. Finally, the two regulating members 318 and 318 shown in FIG. 9 are attached to the front end and the rear end of the accommodating portion 129 as shown in FIG. The regulating members 318 and 318 are substantially L-shaped members, and the cross section has a “U” shape. When the regulating members 318 and 318 are in contact with the front end and the rear end of the first reading unit 31 from below, the first reading unit 31 is regulated so as not to come out of the storage unit 129. Accordingly, as shown in FIG. 11, the cross-sectional “U” -shaped portion 318 </ b> A of the regulating members 318 and 318 engages with the first shaft portion 311 </ b> S and the second shaft portion 312 </ b> S. More specifically, one of a pair of opposing walls forming a “U” shape in the regulating member 318 enters between the first shaft portion 311S and the second shaft portion 312S and the second side surface 31C. The other wall fits into a groove 120G formed in the second chute member 120. Accordingly, the first shaft portion 311S and the second shaft portion 312S are pressed against the contact surfaces 127 and 128, and are fitted and fixed to the second chute member 120 around the positioning axis X31. As a result, the first reading unit 31 is positioned with respect to the second chute member 120.

  Thereafter, as shown in FIGS. 5 and 11, the accommodating portion 129 is closed by the third platen glass 83. As shown in FIG. 11, the first positioning mechanism 310 is in a position overlapping the third platen glass 83 when viewed from the Z direction, which is a direction orthogonal to the third platen glass 83.

  As shown in FIGS. 6 and 8, etc., the first reading unit 31 and the second reading unit 32 have different postures when installed, but the first side surface 31B and the third side surface 32B correspond to each other. The second side surface 31C and the fourth side surface 32C correspond, and the first positioning mechanism 310 and the second positioning mechanism 320 have the same shape. More specifically, in the first positioning mechanism 310 and the second positioning mechanism 320, the first convex portion 311T corresponds to the third convex portion 321T, the second convex portion 312T corresponds to the fourth convex portion 322T, The first shaft portion 311S corresponds to the third shaft portion 321S, the second shaft portion 312S corresponds to the fourth shaft portion 322S, and the positioning recesses 319, 319 and the positioning recesses 329, 329 correspond to the same shape. is there.

<Image reading operation>
In the image reading apparatus 1, when reading an image of a document supported on the support surface 81A, a scanning mechanism (not shown) operates in the reading unit 3, and the second reading unit 32 held by the carriage 39 is moved to the left end of the support surface 81A. It is moved in the left-right direction from a reading start position below the edge to a reading end position below the right edge. Thereby, the second reading unit 32 reads the image of the document supported on the support surface 81A. Thereafter, the scanning mechanism (not shown) moves the second reading unit 32 that has finished reading from the right end to the left end in the reading unit 3 to return to the standby position.

  In the image reading apparatus 1, when the sheet SH on the supply tray 91 is conveyed by the conveying unit 4 and images on the one surface SH1 and the other surface SH2 of the sheet SH are read, a scanning mechanism (not shown) operates in the reading unit 3. Then, the second reading unit 32 held by the carriage 39 is stopped at a stationary reading position below the reading guide surface 82A. The second reading unit 32 faces the reference unit PB10 of the lower path PB1 at the stationary reading position.

  When the transport unit 4 sequentially transports the sheet SH on the supply tray 91 along the transport path P1, the sheet SH passes through the upper path PA1 and the curved path PC1 and reaches the lower path PB1. Then, the first reading unit 31 reads an image on the other surface SH2 of the sheet SH that passes through the first inclined portion PB11. Next, the second reading unit 32 stopped at the stationary reading position reads an image of the one surface SH1 of the sheet SH that passes through the reference unit PB10. Then, the sheet SH on which the image has been read passes through the second inclined portion PB12 and is discharged to the discharge tray 92 by the discharge roller 48 and the pinch roller 48P. Thereafter, a scanning mechanism (not shown) returns the second reading unit 32 to the standby position. When reading one side of the sheet SH, the image of the sheet SH is read only by the second reading unit 32.

<Effect>
In the image reading apparatus 1 according to the embodiment, as shown in FIGS. 5 and 11 and the like, the first reading unit 31 and the second reading unit 32 do not overlap in the vertical direction, thereby realizing downsizing of the apparatus in the vertical direction. it can. In addition, in the image reading apparatus 1, as shown in FIGS. 5 and 8 to 11, the second side surface 31C of the first reading unit 31 provided with the first positioning mechanism 310 is conveyed along the lower path PB1. In the direction, it is located farther from the second conveying roller 45 than the first side surface 31B. For this reason, the 1st convex part 311T which comprises the 1st positioning mechanism 310, the 2nd convex part 312T, the 1st axial part 311S, and the 2nd axial part 312S are also arrange | positioned in the position far from the 2nd conveyance roller 45. FIG. In addition, the contact surfaces 127 and 128 and the positioning convex portion 129T of the accommodating portion 129 corresponding to the first convex portion 311T, the second convex portion 312T, the first shaft portion 311S, and the second shaft portion 312S are also included in the second transport roller 45. It is arranged at a position far from. As a result, as shown in FIG. 11, the distance L1 between the outer peripheral surface of the second transport roller 45 and the first side surface 31B of the first reading unit 31 can be shortened.

  That is, in the image reading apparatus 1, the first positioning mechanism 310 of the first reading unit 31 is provided on the side opposite to the second transport roller 45 in the transport direction of the lower path PB1, so that the second transport roller 45 Thus, the first reading unit 31 can be disposed close to the lower path PB1.

  Therefore, in the image reading apparatus 1 of the embodiment, the apparatus can be reduced in size in the vertical direction and in the horizontal direction in which the lower path PB1 extends.

  Further, in the image reading apparatus 1, as shown in FIG. 11, the first positioning mechanism 310 overlaps the third platen glass 83 when viewed from the arrow Z direction that is a direction orthogonal to the third platen glass 83. It is in. As a result, in the image reading apparatus 1, the first positioning mechanism 310 can be arranged using the empty space around the third platen glass 83.

  Furthermore, in this image reading apparatus 1, as shown in FIGS. 6 and 8, the first reading unit 31 and the second reading unit 32 correspond to the first side surface 31B and the third side surface 32B, and the second The side surface 31C and the fourth side surface 32C correspond, and the first positioning mechanism 310 and the second positioning mechanism 320 have the same shape. Therefore, in the image reading apparatus 1, the number of parts can be reduced by the common first reading unit 31 and second reading unit 32, and the manufacturing cost can be reduced.

  Further, in the image reading apparatus 1, as shown in FIG. 5, the first reading surface 31A is inclined first with the first reading unit 31 inclined with respect to the second reading unit 32 stopped at the stationary reading position. It arrange | positions so that the part PB11 may be opposed. Thereby, size reduction in the left-right direction in which the lower path PB1 extends can be reliably realized.

  Further, in the image reading apparatus 1, as shown in FIG. 5, the first reading unit 31 is disposed between the upper path PA1 and the lower path PB1, and the second reading unit 32 stopped at the stationary reading position is It is arranged below the lower path PB1. Then, as shown in FIG. 11, the sheet presser 149 is viewed from the Z direction, which is a direction orthogonal to the third platen glass 83, and the first convex portion 311 </ b> T and the second convex portion 312 </ b> T of the first positioning mechanism 310. The first shaft portion 311S and the second shaft portion 312S are not overlapped with each other. For this reason, in this image reading apparatus 1, it is easy to arrange the sheet presser 149 using the space below the first inclined portion PB11.

  In the image reading apparatus 1, as shown in FIG. 4, the lower path PB1 passes over the second reading unit 32 stopped at the stationary reading position and is conveyed toward the downstream in the conveying direction. Includes a second inclined portion PB12 that guides in the upwardly inclined direction. In other words, in this image reading apparatus 1, the entire lower path PB1 is bent into a substantially V shape by the first inclined portion PB11 and the second inclined portion PB12, and the first inclined portion PB11 that defines a part thereof is One reading unit 31 is arranged. With this configuration, the image reading apparatus 1 can reliably achieve downsizing in the vertical direction and the horizontal direction in which the lower path PB1 extends.

  While the present invention has been described with reference to the embodiments, it is needless to say that the present invention is not limited to the above-described embodiments and can be appropriately modified and applied without departing from the spirit thereof.

  For example, the present invention includes a configuration in which the first reading unit is disposed below the lower path and the second reading unit is disposed between the upper path and the lower path. Further, the present invention is also applicable to an apparatus in which both the first reading unit and the second reading unit are fixed to face the conveyance path P1.

  The present invention can be used for an image reading apparatus or a multifunction machine.

DESCRIPTION OF SYMBOLS 1 ... Image reading apparatus, SH ... Sheet, SH1 ... One side of sheet, SH2 ... Other side of sheet P1 ... Conveyance path, PC1 ... Curved path, PA1 ... Upper path, PB1 ... Lower path 110, 120, 130, 140 ... Guide (110 ... 1st chute member, 120 ... 2nd chute member, 130 ... 1st cover member, 140 ... 2nd cover member)
4 ... conveying unit, 45 ... conveying roller (second conveying roller)
DESCRIPTION OF SYMBOLS 31 ... 1st reading part, 32 ... 2nd reading part 31A ... 1st reading surface, 31B ... 1st side surface, 31C ... 2nd side surface 310 ... 1st positioning mechanism, 83 ... Platen glass (3rd platen glass)
311T: 1st convex part, 312T ... 2nd convex part X31, X32 ... Positioning axis 311S: 1st axial part, 312S ... 2nd axial part 81A ... Support surface, 39 ... Carriage, 8 ... Main part, 9 ... Opening and closing Section 32A: Second reading surface, 32B: Third side surface, 32C: Fourth side surface 320: Second positioning mechanism, 149: Sheet presser PB11: First inclined portion, PB12: Second inclined portion

Claims (8)

A guide path and a transport roller, the guide section including a curved path, an upper path connected to the upper end of the curved path, and a lower path connected to the lower end of the curved path. The conveying roller is a conveying unit disposed at the lower end, and conveys the sheet along the conveying path in a conveying direction that is an order of the upper path, the curved path, and the lower path. The transport unit;
A first reading unit that is disposed downstream of the transport roller in the transport direction in the lower path and reads an image of one surface of the sheet transported through the lower path;
A second reading unit that is disposed downstream of the first reading unit in the lower path in the transport direction and reads an image on the other surface of the sheet that is transported through the lower path;
The first reading unit extends in a direction intersecting the first reading surface and a first reading surface that extends in the main scanning direction while facing the lower path, and the first reading surface is positioned between the first reading surface and the first reading surface. A first side surface and a second side surface that face each other and extend along the main scanning direction,
The second side surface is at a position farther from the transport roller than the first side surface in the transport direction,
An image reading apparatus, wherein the second side surface is provided with a first positioning mechanism for positioning the first reading unit with respect to the guide unit. The guide portion includes a platen glass that defines a part of the lower path while facing the first reading surface,
The image reading apparatus according to claim 1, wherein the first positioning mechanism is located at a position overlapping the platen glass as viewed from a direction orthogonal to the platen glass. The first positioning mechanism includes a first convex portion projecting from one end portion in the main scanning direction on the second side surface toward the downstream in the transport direction in the lower path,
A second convex portion projecting from the other end portion of the second side surface in the main scanning direction toward the downstream in the transport direction in the lower path;
A first shaft portion that protrudes from the first convex portion into a substantially cylindrical shape and that can be fitted to the guide portion around a positioning axis parallel to the main scanning direction;
The image reading apparatus according to claim 1, further comprising: a second shaft portion that protrudes from the second convex portion in a substantially cylindrical shape and can be fitted to the guide portion with the positioning axis as a center. The first reading unit is disposed between the upper path and the lower path,
The image reading apparatus according to claim 1, wherein the second reading unit is disposed below the lower path. A main body having a support surface capable of supporting a sheet in a stationary state, and a carriage that is disposed below the support surface and is movable in a sub-scanning direction orthogonal to the main scanning direction;
An open / close part supported by the main body part so as to be displaceable between a closed position for closing the support surface and an open position for opening the support surface;
The transport unit and the first reading unit are provided in the opening / closing unit,
The second reading unit is provided in the main body unit, and is configured to read an image of a sheet mounted on the carriage and supported on the support surface while moving.
The second reading unit extends in a direction intersecting the second reading surface and a second reading surface extending in the main scanning direction while facing the lower path, and is positioned between the second reading surface. And a third side surface and a fourth side surface that face each other and extend along the main scanning direction,
The fourth side surface is provided with a second positioning mechanism for positioning the second reading unit with respect to the carriage,
In the first reading unit and the second reading unit, the first side surface corresponds to the third side surface, the second side surface corresponds to the fourth side surface, and the first positioning mechanism and the second side surface correspond to each other. The image reading apparatus according to claim 4, wherein the two positioning mechanisms have the same shape. The lower path includes a first inclined portion that guides a sheet conveyed from the conveying roller to immediately before the second reading unit in a downward inclined direction,
The said 1st reading part is a state inclined with respect to the said 2nd reading part, and is arrange | positioned so that a said 1st reading surface may oppose the said 1st inclination part. The image reading apparatus described. The first reading unit is disposed between the upper path and the lower path,
The second reading unit is disposed below the lower path,
The guide portion includes a platen glass that defines a part of the first inclined portion while facing the first reading surface,
The transport unit further includes a sheet press disposed at a position facing the first reading unit via the platen glass,
The image reading apparatus according to claim 6, wherein the sheet presser is located at a position that does not overlap the first positioning mechanism when viewed from a direction orthogonal to the platen glass.   The image reading apparatus according to claim 6, wherein the lower path includes a second inclined portion that guides a sheet conveyed from the second reading portion toward the downstream in the conveying direction in an upward inclined direction.

Images