JP5834839B2 - Image reading device - Google Patents

Description

  The present invention relates to an image reading apparatus.

  Patent Document 1 discloses an image reading apparatus. The image reading apparatus includes a conveyance unit that conveys a sheet in a conveyance direction, a first reading unit that is provided to face the sheet conveyed by the conveyance unit, and a first reading unit that sandwiches the conveyed sheet, Includes a second reading unit provided on the opposite side. The first reading unit and the second reading unit extend from one end side in the width direction of the conveyed sheet to the other end side. In FIG. 1 and the like of Patent Document 1, the transport unit is illustrated as 26, 28a, and 28b. The first reading unit and the second reading unit are shown as reference numerals 2 and 3.

  In this image reading apparatus, the first reading unit reads an image on one side of the conveyed sheet, and the second reading unit reads an image on the other side of the conveyed sheet.

JP 2008-228044 A

  By the way, the image reading apparatus normally includes a conveyance path that guides a sheet in the conveyance direction, a drive unit that drives the conveyance unit, a substrate that controls the first reading unit and the second reading unit, and a first reading unit and a substrate. The first wiring cable to be connected and the second wiring cable to connect the second reading unit and the substrate are supposed to be provided. However, Patent Document 1 hardly shows or describes them. For this reason, the relative positional relationship among the first and second reading units, the conveyance path, the driving unit, the substrate, and the first and second wiring cables is unknown.

  In such an image reading apparatus, the driving unit is disposed on one end side in the width direction of the conveyed sheet, and the substrate is on the side opposite to the first reading unit across the conveyance path, that is, on the second reading unit side. It is conceivable to adopt the configuration provided in the above. In this case, if at least one of the first wiring cable and the second wiring cable is routed so as to be inserted between the drive unit and the conveyance path, an empty space is required between the drive unit and the conveyance path. Thus, there is a problem that the apparatus is likely to be enlarged.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an image reading apparatus capable of realizing downsizing of the apparatus.

An image reading apparatus of the present invention includes an apparatus main body,
A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
The first terminal portion is provided on the other end side in the width direction of the first reading unit,
The second terminal portion is provided on one end side in the width direction of the second reading unit,
The first wiring cable is connected to the substrate after bypassing the conveyance path on the other end side in the width direction,
The second wiring cable is connected to the substrate on one end side in the width direction ,
The first reading unit is located above the transport path,
The second reading unit and the substrate are positioned below the transport path,
The transport path is inclined downward toward the downstream side in the transport direction,
The substrate is located below the second reading unit,
The second reading unit is located upstream of the first reading unit in the transport direction,
The first connection portion to which the first wiring cable and the substrate are connected, and the second connection portion to which the second wiring cable and the substrate are connected are arranged shifted in the width direction,
The first wiring cable and the second wiring cable extend from the first connection portion and the second connection portion so as to be separated from each other in the width direction .
An image reading apparatus of the present invention includes an apparatus main body,
A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
The first terminal portion is provided on the other end side in the width direction of the first reading unit,
The second terminal portion is provided on one end side in the width direction of the second reading unit,
The first wiring cable bypasses the conveyance path on the other end side in the width direction,
The first reading unit is located above the transport path,
The second reading unit and the substrate are positioned below the transport path,
The transport path is inclined downward toward the downstream side in the transport direction,
The substrate is located below the second reading unit,
The second reading unit is located upstream of the first reading unit in the transport direction,
The second connection portion to which the second wiring cable and the substrate are connected is shifted from one end side in the width direction with respect to the first connection portion to which the first wiring cable and the substrate are connected. And
The first wiring cable and the second wiring cable extend from the first connection portion and the second connection portion so as to be separated from each other in the width direction.
An image reading apparatus of the present invention includes an apparatus main body,
A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
The first terminal portion is provided on the other end side in the width direction of the first reading unit,
The second terminal portion is provided on one end side in the width direction of the second reading unit,
The first wiring cable is connected to the substrate after bypassing the conveyance path on the other end side in the width direction,
The second wiring cable is connected to the substrate on one end side in the width direction,
The first reading unit is located above the transport path,
The second reading unit and the substrate are positioned below the transport path,
The transport path is inclined downward toward the downstream side in the transport direction,
The substrate is located below the second reading unit,
The second reading unit is located upstream of the first reading unit in the transport direction,
The first terminal portion and the second terminal portion are connectors that can be attached to and detached from the first wiring cable and the second wiring cable,
A second insertion port for inserting the second wiring cable into the second terminal portion is on the upstream side in the transport direction with respect to a first insertion port for inserting the first wiring cable into the first terminal portion. It is located.

  In the image reading apparatus of the present invention, the first wiring cable is connected to the substrate after bypassing the conveyance path on the other end side in the width direction of the conveyed sheet, that is, on the side away from the drive unit. Further, the second wiring cable is connected to the substrate as it is without being split between the conveyance path and the drive unit on one end side in the width direction. This simplifies the routing of the first wiring cable and the second wiring cable as compared with the case where at least one of the first wiring cable and the second wiring cable is routed to the substrate via the conveyance path and the drive unit. In addition, there is no need for an empty space to be secured between the transport path and the drive unit for routing at least one of the first wiring cable and the second wiring cable.

  Therefore, the image reading apparatus of the present invention can realize downsizing of the apparatus.

  In the image reading apparatus according to the aspect of the invention, it is preferable that the first terminal portion is located on the downstream side in the transport direction of the first reading portion. Further, it is desirable that the second terminal portion is located on the downstream side in the transport direction in the second reading portion. According to this configuration, since the first wiring cable and the second wiring cable can be connected to the first terminal portion and the second terminal portion from the same direction, the routing of the first wiring cable and the second wiring cable can be simplified. . Moreover, compared with the case where a connection direction differs, the connection operation | work with respect to the 1st terminal part and 2nd terminal part of a 1st wiring cable and a 2nd wiring cable becomes easy.

  In the image reading apparatus of the present invention, it is desirable that the first reading unit and the second reading unit are the same contact image sensor unit. According to this configuration, the number of components can be reduced by using the first reading unit and the second reading unit as common components.

The image reading apparatus of the present invention, the first reading section, that are located above with respect to the conveying path. The second reading unit and the substrate, that is located on the lower side with respect to the conveying path. According to such a specific configuration, the effects of the present invention can be reliably achieved.

The image reading apparatus of the present invention, the transport path, it is downwardly inclined toward the downstream side in the transport direction. The substrate, that is located below the second reading unit. Further, the second reading unit, that is situated upstream from the first reading unit in the conveying direction. According to this configuration, the second reading unit can be brought close to the first reading unit in the vertical direction, and thus the height of the apparatus can be reduced.

  In the above case, it is desirable that the apparatus main body has a lower wall extending downward from the conveyance path on the most downstream side in the conveyance direction in the conveyance path. According to this structure, height is ensured by the lower wall in the most downstream side of the conveyance direction in a conveyance path. Accordingly, the conveyed sheet is easily discharged smoothly from the most downstream side in the conveying direction to the outside of the apparatus main body while being inclined downward. Further, the second reading unit positioned upstream from the first reading unit in the transport direction is also separated from the lower wall to the upstream side in the transport direction. Thereby, a wide space for connecting the second wiring cable to the second terminal portion can be secured between the lower wall and the second reading unit.

In the image reading apparatus of the present invention, the first connection portion where the first wiring cable and the substrate are connected and the second connection portion where the second wiring cable and the substrate are connected are shifted in the width direction. Tei Ru. The first distribution cable and the second wire cables, that extend away from each other in the width direction from the first connecting portion and a second connecting portion. According to this configuration, the routing of the first wiring cable and the second wiring cable is unlikely to interfere.

The image reading apparatus of the present invention, the first terminal portion and second terminal portion, Ru detachable connectors der the first wire cable and the second wire cable. And the 2nd insertion port for inserting a 2nd wiring cable in the 2nd terminal part is located in the upstream of the conveyance direction to the 1st insertion port for inserting the 1st distribution cable in the 1st terminal part. The According to this configuration, it is easy to secure a space for connecting the second wiring cable to the second terminal portion.

  In the image reading apparatus of the present invention, it is desirable that the apparatus main body includes an upper housing whose lower surface constitutes the upper surface of the conveyance path and a lower housing whose upper surface constitutes the lower surface of the conveyance path. The upper housing is preferably provided so as to be detachable from the lower housing. In addition, the substrate is preferably provided in the lower housing. When the upper casing is provided with a substrate, the upper casing becomes large, and a large object is separated from and attached to the lower casing, so that it is difficult to separate the upper casing, that is, to open and close. In this regard, according to the above configuration, since the lower casing has the substrate, the upper casing is easily separated.

  The image reading apparatus according to the present invention preferably includes a first white reference surface facing the second reading unit and a second white reference surface facing the first reading unit. According to this configuration, when the shading correction is performed on the first reading unit and the second reading unit, the second white reference surface and the first white reference surface can be used as the white reference, respectively.

1 is a perspective view mainly showing a front side of an image reading apparatus 1 of an embodiment embodying the image reading apparatus of the present invention. 3 is a perspective view mainly showing the front side of the image reading apparatus 1 in a state where the supply tray 50 and the upper cover 93 of the embodiment are opened. FIG. 2 is a perspective view mainly showing a rear side of the image reading apparatus 1 in a state where the supply tray 50, the upper cover 93, and the discharge tray 6 of the embodiment are opened. FIG. 2 is a side view of the image reading apparatus 1. FIG. 3 is an enlarged cross-sectional view of a main part of the image reading apparatus 1. FIG. A perspective view showing a state in which the drive unit 30, the lower chute 60, the substrate cover 97, the substrate 5, the first wiring cable 110, the second wiring cable 210, and the like are extracted from the image reading apparatus 1 and looked up mainly from below. It is. A perspective view showing a state in which the first reading unit 100, the second reading unit 200, the substrate 5, the first wiring cable 110, the second wiring cable 210, and the like are extracted from the image reading apparatus 1 and looked up mainly from below. It is. In the image reading apparatus 1, the first reading unit 100, the second reading unit 200, the substrate 5, the first wiring cable 110, the second wiring cable 210, etc. are extracted and looked up mainly from the lower side and the right side. FIG. 4 is a perspective view showing a state in which the first wiring cable 110 is routed in the upper cover 93 in the image reading apparatus 1. FIG. FIG. 6 is a perspective view showing a state in which a second wiring cable 210 is routed with the substrate cover 97 removed in connection with the image reading apparatus 1. 1A is a plan view of the first reading unit 100 and the second reading unit 200 as viewed from the reading surfaces 100A and 200A, and FIG. 2B is a plan view of the first reading unit 100 and the second reading unit 200. FIG. 4 is a plan view of the reading unit 200 as viewed from the side opposite to the reading surfaces 100A and 200A. FIG. (A) is an explanatory view showing the relative positional relationship between the first reading unit 100 and the second reading unit 200 of the embodiment, and (b) is the first reading unit 100 of the comparative example. 6 is an explanatory diagram showing a relative positional relationship of a second reading unit 200. 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, the image reading apparatus 1 of this embodiment is an example of a specific mode of the image reading apparatus of the present invention. In FIG. 1, the discharge tray 6 side is defined as the front side of the apparatus, and the side that comes to the left hand when facing the discharge tray 6 is defined as the left side, and the front, rear, left, and right directions are displayed. The directions shown in FIG. 2 and subsequent figures are all displayed in correspondence with the directions shown in FIG. Hereinafter, each component provided in the image reading apparatus 1 will be described with reference to FIG.

<Configuration>
As illustrated in FIGS. 1 to 4, the image reading apparatus 1 includes a housing 8, a supply tray 50, and a discharge tray 6. As shown in FIG. 4, a conveyance path P <b> 1 through which the sheet 9 is conveyed from the supply tray 50 to the discharge tray 6 is provided in the housing 8.

  The housing 8 is a box-like body having an upper cover 93, a back cover 90, left and right side covers 95L and 95R, and an internal frame and the like covered with them. The inner frame is a combination of a lower chute 60 shown in FIGS. 3 and 5, a substrate cover 97 shown in FIGS. 5 and 6, a frame member (not shown), and the like. The casing 8 is an example of the “apparatus main body” of the present invention. The upper cover 93 is an example of the “upper housing” in the present invention. The lower chute 60 and the substrate cover 97 are an example of the “lower casing” in the present invention.

  As shown in FIG. 5 and the like, normally, the upper cover 93 is inclined upward toward the rear. The upper cover 93 has an upper guide 94 that faces the lower chute 60 from above. The lower surface of the upper guide 94 of the upper cover 93 is an upper guide surface 94A that constitutes the upper surface of the transport path P1. As shown in FIGS. 2 and 3, when the sheet is jammed or maintained, the upper cover 93 swings so that the rear end edge side is lifted upward and is separated upward from the lower chute 60. Thereby, a lower guide 61, a supply roller 71, a transport roller 72, and the like, which will be described later, are exposed to the outside of the housing 8.

  The supply tray 50 has a flat plate shape with one surface serving as a placement surface 51. A pair of hinge portions 50 </ b> L and 50 </ b> R are integrally formed at the left and right corners of the supply tray 50. The supply tray 50 is supported by the housing 8 via both hinge portions 50L and 50R so as to be swingable around a swing axis X1 that is located behind and above the housing 8 and extends in the left-right direction.

  As shown in FIG. 1, when the supply tray 50 is closed, the supply tray 50 covers the upper cover 93 of the housing 8 from above with the placement surface 51 facing downward. The position of the supply tray 50 shown in FIG.

  Then, the supply tray 50 is swung around the swing axis X1 from the state shown in FIG. 1 to be opened, so that the placement surface 51 is located behind the housing 8 as shown in FIGS. Is moved to a position in which is directed upward. The position of the supply tray 50 shown in FIG.

  As shown in FIG. 4, when the supply tray 50 is in the use position, the sheet 9 is placed on the placement surface 51. The sheet 9 placed on the placement surface 51 is transported in the transport direction D1, which is the direction from the supply tray 50 toward the discharge tray 6, and is guided to the transport path P1.

  In this embodiment, the width direction of the sheet 9 conveyed along the conveyance direction D1 is the left-right direction. In the present embodiment, the one end side in the width direction of the sheet 9 conveyed along the conveyance direction D <b> 1 is the left side in the housing 8. Furthermore, in this embodiment, the other end side in the width direction of the sheet 9 conveyed along the conveyance direction D <b> 1 is the right side in the housing 8.

  As shown in FIGS. 2 and 3, the lower chute 60 has a flat plate-shaped lower guide 61 and side wall portions 60 </ b> L and 60 </ b> R that sandwich the lower guide 61 from the left and right. The lower guide 61 extends in the left-right direction and extends downward from the rear side of the housing 8 to the discharge tray 6. As shown in FIG. 5, the upper surface of the lower guide 61 faces the upper guide surface 94 </ b> A of the upper cover 93 from below. The upper surface of the lower guide 61 is a lower guide surface 61A that constitutes the lower surface of the transport path P1. As shown in FIG. 2 and the like, when the supply tray 50 is in the use position, the lower guide surface 61 </ b> A constitutes an inclined surface that is continuous with the placement surface 51.

  As shown in FIG. 6, the left side wall 60L extends in the front-rear direction and the up-down direction to reinforce the lower guide 61 from the left side. Although illustration is omitted, the right side wall portion 60R has the same shape as the left side wall portion 60L and reinforces the lower guide 61 from the right side.

  As shown in FIGS. 5 and 6, the substrate cover 97 includes a flat plate-shaped substrate cover main body 98 and side wall portions 97 </ b> L and 97 </ b> R that sandwich the substrate cover main body 98 from the left and right. The substrate cover main body 98 is spaced downward with respect to the lower guide 61 of the lower chute 60 and extends in the front-rear direction and the left-right direction. The front end edge side of the substrate cover main body 98 is an inclined portion 98 </ b> A that inclines downward along the front end edge side of the lower guide 61. As shown in FIG. 5, a power source cover 98 </ b> B that bulges upward in a box shape is integrally formed behind the substrate cover main body 98.

  As shown in FIG. 6, the side walls 97L and 97R extend in the front-rear direction and reinforce the substrate cover main body 98 so as to sandwich the left and right sides. The left side wall 97L of the substrate cover 97 is assembled from below with respect to the left side wall 60L of the lower chute 60, and is fixed by a fastening screw (not shown). The right side wall portion 97R of the substrate cover 97 is also assembled from below with the right side wall portion 60R of the lower chute 60, and is fixed by a fastening screw (not shown). In this way, the lower chute 60 and the substrate cover 97 are firmly coupled to form a lower rigid housing. Although not shown, the back cover 90 also reinforces the lower housing by being coupled to the lower chute 60 and the substrate cover 97.

  In addition, the image reading apparatus 1 includes a pair of left and right width regulation guides 57L and 57R as shown in FIG. The width regulation guides 57L and 57R extend in a rib shape in parallel with the transport direction D1 from the placement surface 51 to the lower guide surface 61A. Connecting portions 56L and 56R are provided at intermediate portions in the conveyance direction D1 of the width regulation guides 57L and 57R. The connecting portions 56L and 56R allow the width regulating guides 57L and 57R to be bent or unfolded around the swing axis X1 when the supply tray 50 is displaced to the storage position or the use position.

  The left and right width regulating guides 57L and 57R can be moved toward and away from each other in the left-right direction on the basis of the center. Thereby, the width regulation guides 57L and 57R, for example, can position the sheet 9 in the left-right direction when a plurality of size sheets 9 from business card size to A4 size are placed on the placement surface 51. it can.

  As shown in FIGS. 1, 3, and 4, the discharge tray 6 is provided so as to be able to be pulled out and stored in the housing 8. As shown in FIG. 1, when the discharge tray 6 is accommodated in the housing 8, only the front end face of the discharge tray 6 is exposed to the outside. When the discharge tray 6 is pulled out from the housing 8, the discharge tray 6 is in a state where the discharge surface 6 </ b> A is directed upward in front of the housing 8, as shown in FIGS. 3 and 4.

  In addition, as shown in FIGS. 4 and 5, the image reading apparatus 1 includes a power supply unit 3 and a substrate 5 inside a housing 8. In addition, as illustrated in FIG. 6, the image reading apparatus 1 includes a drive unit 30 inside the housing 8. Further, as illustrated in FIG. 5, the image reading apparatus 1 includes a conveyance unit 70, a first reading unit 100, and a second reading unit 200 inside the housing 8. In addition, the image reading apparatus 1 includes a first wiring cable 110 and a second wiring cable 210 as shown in FIGS.

  As shown in FIG. 4, the power supply unit 3 is provided on the back side in the housing 8. The power supply unit 3 is an AC adapter that converts a high-voltage AC voltage of a household outlet into a low-voltage DC voltage and supplies power to the substrate 5 and the like. In the housing 8, the power supply unit 3 is covered with the power supply cover 98 </ b> B on the front, upper, and left and right sides. Further, the power supply unit 3 is covered from behind by a back cover 90.

  As shown in FIG. 6, the outlet terminal 3 </ b> E of the power supply unit 3 is disposed below the rear end edge side of the substrate cover main body 98 so as to be adjacent to the right side wall portion 97 </ b> R of the substrate cover 97. As shown in FIG. 3, the back cover 90 is provided with a connection hole 90 </ b> E so as to face the outlet terminal 3 </ b> E in the housing 8. One end of the power cable 99 that electrically connects the household outlet and the power supply unit 3 is fitted into the outlet terminal 3E through the connection hole 90E.

  As shown in FIG. 5, the substrate 5 is provided below the power supply unit 3 in the housing 8. As shown in FIGS. 5 and 6, the substrate cover body 98 of the substrate cover 97 is positioned above the substrate 5 and covers the entire substrate 5. The inclined portion 98 </ b> A in front of the substrate cover body 98 is inclined downward and forward from the front edge of the substrate 5. Further, the side wall portions 97L and 97R of the substrate cover 97 are positioned so as to sandwich the substrate 5 from the left and right. Thus, the substrate cover main body 98 is covered by the substrate cover main body 98 and the side wall portions 97L and 97R from the upper side, the front side, and the left and right sides.

  The substrate 5 is electrically connected to the power supply unit 3 by electrical wiring (not shown). Moreover, the board | substrate 5 is electrically connected with the electric motor which is not shown in figure which comprises the drive part 30 mentioned later by the electrical wiring which is not shown in figure. Further, as described later, the substrate 5 is electrically connected to the first reading unit 100 and the second reading unit 200 by the first wiring cable 110 and the second wiring cable 210.

  As shown in FIG. 6, a USB connector 5 </ b> E is disposed on the right side of the rear end edge side on the lower surface of the substrate 5. As shown in FIG. 3, the rear cover 90 is provided with a connection hole 90 </ b> F so as to face the USB connector 5 </ b> E in the housing 8. One end of a USB connection cable 599 that electrically connects a network device such as a computer terminal or a LAN to the USB connector 5E is fitted into the USB connector 5E through a connection hole 90F.

  A first connection portion 515 is disposed at the center on the front edge side of the lower surface of the substrate 5, and a second connection portion 525 is disposed on the left side of the first connection portion 515. The 1st connection part 515 and the 2nd connection part 525 are connectors which can be attached or detached with respect to the edge part of a flexible flat cable. 110 A of board | substrate side ends of the 1st wiring cable 110 mentioned later are connected to the 1st connection part 515. FIG. A substrate-side end 210A of a second wiring cable 210, which will be described later, is connected to the second connection portion 525.

  The circuit board 5 is provided with a large number of circuit elements, wiring patterns and the like in addition to those described above, but the illustration thereof is omitted.

  As shown in FIG. 6, the drive unit 30 is provided on one end side in the width direction of the sheet 9 conveyed in the housing 8, that is, on the left side in the housing 8. More specifically, as shown in FIG. 6, the drive unit 30 includes a plurality of gears and the like that are rotatably supported by the left side wall 60L of the lower chute 60 and mesh with each other. When the driving unit 30 is controlled by the substrate 5, an electric motor (not shown) connected to one of the plurality of gears rotates, and the rotation is transmitted to each gear so that each rotates. Yes.

  As shown in FIG. 5, the transport unit 70 includes a supply roller 71, a separation pad 79, a transport roller 72, and a discharge roller 73 in order from the upstream side to the downstream side in the transport direction D <b> 1.

  The supply roller 71 is assembled to the lower chute 60 and is positioned on the lower guide 61 of the conveyance path P1. The rotation shaft 71 </ b> S of the supply roller 71 extends to the left and is connected to one of a plurality of gears constituting the drive unit 30. As a result, the supply roller 71 is driven by the drive unit 30 and rotates while contacting the sheet 9 placed on the placement surface 51, thereby feeding the sheet 9 in the transport direction D1. .

  As shown in FIGS. 3 and 5, the separation pad 79 is assembled to the upper cover 93 and is positioned on the upper guide 94 of the transport path P1. The separation pad 79 is a plate-like body made of a friction member such as rubber or elastomer. As shown in FIG. 5, the separation pad 79 faces the supply roller 71, is urged by a urging member (not shown), and is pressed against the supply roller 71. As a result, the separation pad 79 separates the sheet 9 conveyed in the conveyance path P1 one by one with the supply roller 71 interposed therebetween.

  Each of the transport roller 72 and the discharge roller 73 is assembled to the lower chute 60 and is positioned on the lower guide 61 of the transport path P1. The rotation shaft 72 </ b> S of the transport roller 72 and the rotation shaft 73 </ b> S of the discharge roller 73 also extend to the left and are connected to one of a plurality of gears constituting the drive unit 30. As a result, the transport roller 72 and the discharge roller 73 are driven by the drive unit 30 to rotate in synchronization with the supply roller 71.

  Above the transport roller 72, a driven roller 72 </ b> A is provided so as to face the transport roller 72. The driven roller 72A is assembled to the upper cover 93 and is located on the upper guide 94 of the transport path P1. The driven roller 72A is urged by an urging member (not shown) and is pressed against the conveying roller 72. Accordingly, the transport roller 72 rotates while sandwiching the sheet 9 transported in the transport path P1 with the driven roller 72A, and transports the sheet 9 to the downstream side in the transport direction D1.

  Above the discharge roller 73, a driven roller 73 </ b> A is provided so as to face the discharge roller 73. The driven roller 73A is assembled to the upper cover 93 and is located on the upper guide 94 of the transport path P1. The driven roller 73A is urged by an urging member (not shown) and is pressed against the discharge roller 73. As a result, the discharge roller 73 rotates while sandwiching the sheet 9 conveyed in the conveyance path P1 with the driven roller 73A and discharges it to the discharge tray 6 on the downstream side in the conveyance direction D1.

  As shown in FIGS. 5 and 6, the lower guide 61 of the lower chute 60 extends to the discharge roller 73 with a downward slope toward the front. The lower chute 60 has a lower wall 69 that is continuous with the front end edge of the lower guide 61 and extends downward from the transport path P1. Due to this lower wall 69, the height of the discharge roller 73 relative to the discharge surface 6A is sufficiently secured.

  As shown in FIG. 5 and the like, the first reading unit 100 and the second reading unit 200 are located downstream of the conveying roller 72 and upstream of the discharging roller 73 in the conveying direction D1. The first reading unit 100 is assembled to the upper cover 93 and is positioned on the upper guide 94 of the transport path P1. The first reading unit 100 faces the reading surface 100A toward the conveyance path P1. The second reading unit 200 is assembled to the lower chute 60 and is positioned on the lower guide 61 of the conveyance path P1. The second reading unit 200 faces the reading surface 200A toward the transport path P1. That is, the first reading unit 100 and the second reading unit 200 face each other so as to sandwich the transport path P1 from the up and down direction. Further, the second reading unit 200 is located above the substrate 5 and the substrate cover 97.

  In this embodiment, a contact image sensor unit is employed as the first reading unit 100 and the second reading unit 200. As shown in FIGS. 7 and 8, the first reading unit 100 and the second reading unit 200 extend from the left side to the right side in the housing 8.

  As shown in FIGS. 11A and 11B, the first reading unit 100 and the second reading unit 200 are the same contact image sensor unit. The left end 100L of the first reading unit 100 and the right end 200R of the second reading unit 200 shown in FIGS. 7 and 8 are arranged on the right side in FIG. 11 (a) and FIG. 11 (b), and are shown in FIGS. By arranging the right end 100R of the first reading unit 100 and the left end 200L of the second reading unit 200 on the left side in FIG. 11A and FIG. 11B, the first reading unit 100 and the second reading unit 200 are arranged. The drawing is shared.

  As shown in FIG. 11A, the first reading unit 100 and the second reading unit 200 include light source units 101 and 201, light guide plates 102 and 202, and reading lines 103 and 203 on the reading surfaces 100A and 200A side, respectively. Have.

  The light source unit 101 is located on the right end 100 </ b> R side of the first reading unit 100. The light source unit 201 is located on the left end 200 </ b> L side of the second reading unit 200. Each of the light source units 101 and 201 includes LEDs of three colors of red, green, and blue.

  As shown in FIG. 11A, the light guide plate 102 and the reading line 103 are elongated from the left end 100L side of the first reading unit 100 to the right end 100R side. As shown in FIG. 5, the reading line 103 is located downstream of the light guide plate 102 in the transport direction D1. The first reading unit 100 lights the LEDs of each color of the light source unit 101 in a time-sharing manner, and irradiates the upper surface 9 </ b> A of the conveyed sheet 9 with linear light that extends in the left-right direction through the light guide plate 102. Then, the reflected light is condensed on the line sensor by the rod lens array included in the reading lines 103 and 203, and the image of the upper surface 9A of the conveyed sheet 9 is read in a line shape.

  As shown in FIG. 11A, the light guide plate 202 and the reading line 203 are elongated from the left end 200L side of the second reading unit 200 to the right end 200R side. As shown in FIG. 5, the reading line 203 is located downstream of the light guide plate 202 in the transport direction D1. The second reading unit 200 illuminates each color LED of the light source unit 201 in a time-sharing manner, and irradiates the lower surface 9 </ b> B of the conveyed sheet 9 with linear light that extends in the left-right direction through the light guide plate 202. Then, the reflected light is condensed on the line sensor by the rod lens array included in the reading line 203, and the image of the lower surface 9B of the conveyed sheet 9 is read in a line shape.

  As shown in FIG. 11B, a first terminal portion 105 is provided on the right end 100R side of the first reading portion 100 opposite to the reading surface 100A. As shown in FIG. 5, the first terminal unit 105 is located on the downstream side in the transport direction D <b> 1 in the first reading unit 100. The 1st terminal part 105 is a connector which can be attached or detached with respect to the edge part of a flexible flat cable. The first terminal unit 105 is connected to a first reading unit side end 110B of a first wiring cable 110 described later. A signal read by the reading line 103 is output from the first terminal unit 105.

  As shown in FIG. 11B, a second terminal unit 205 is provided on the left end 200L side of the second reading unit 200 opposite to the reading surface 200A. As shown in FIG. 5, the second terminal unit 205 is located on the downstream side in the transport direction D <b> 1 in the second reading unit 200. Similar to the first terminal unit 105, the second terminal unit 205 is a connector that can be attached to and detached from the end of the flexible flat cable. The second terminal unit 205 is connected to a second reading unit side end 210B of a second wiring cable 210 described later. A signal read by the reading line 203 is output from the second terminal unit 205.

  The posture of the first reading unit 100 shown in FIGS. 7 and 8 is rotated by 180 ° around the rotation axis extending in the direction. Then, the reading surface 100A facing downward is directed upward. Also, the right end 100R is on the left side and the left end 100L is on the right side. Then, the first reading unit 100 has the same posture as the second reading unit 200. As described above, the first reading unit 100 and the second reading unit 200 share the same parts by adopting the same contact image sensor unit.

  As shown in FIG. 5, the second reading unit 200 is located upstream of the first reading unit 100 in the transport direction D1. Accordingly, the second reading unit 200 is separated rearward from the lower wall 69, and an empty space is secured between both.

  The image reading apparatus 1 includes a transparent plate 151 that forms the upper surface of the conveyance path P1 together with the upper conveyance surface 94A, and a first white reference surface that is provided so as to follow a surface of the transparent plate 151 that faces away from the conveyance path P1. 150. The first white reference surface 150 faces the second reading unit 200. The image reading apparatus 1 is provided so as to follow the transparent plate 251 that forms the lower surface of the conveyance path P1 together with the lower conveyance surface 61A, and the surface of the transparent plate 251 that faces the opposite side of the conveyance path P1. And a white reference surface 250. The second white reference surface 250 faces the first reading unit 100. The first white reference surface 150 and the second white reference surface 250 serve as a white reference when the first reading unit 100 and the second reading unit 200 perform shading correction.

  As shown in FIGS. 6 to 10, the first wiring cable 110 and the second wiring cable 210 are flexible flat cables in which a plurality of covered electric wires are bundled in a band shape. In FIG. 8, the lengths of the first wiring cable 110 and the second wiring cable 210 are illustrated to be longer than the actual length in order to make it easier to see the routed state of the first wiring cable 110 and the second wiring cable 210. In FIG. 9, the upper guide 94 constituting the upper cover 93 is illustrated, and the other parts of the upper cover 93 are not shown. Further, in FIG. 10, illustration of the substrate cover 97 located between the substrate 5 and the lower chute 60 is omitted.

  As shown in FIGS. 6 to 8, the board-side end 110 </ b> A of the first wiring cable 110 is connected to the first connection part 515 of the board 5.

  The first wiring cable 110 extends forward from the board-side end portion 110A, and then is bent at an oblique angle of 45 ° and extends to the right. Next, in the vicinity of the right side wall portion 97R of the substrate cover 97, it is bent at an oblique angle of 45 ° and extends forward, and then enters a guide hole 60C formed in the right side wall portion 60R of the lower chute 60. Change the direction upward. Next, as shown in FIGS. 8 and 9, the direction is changed to the rear above the guide hole 60 </ b> C and enters the upper cover 93. Next, after being bent at an angle of 45 ° and extending short to the left, it is further bent at an angle of 45 ° and extended backward. Next, after being bent downward at an angle of 180 ° and extending backward, it is further bent downward at an angle of 180 ° and extended forward.

  As shown in FIG. 5, the upper guide 94 of the upper cover 93 is formed with a first recess 94 </ b> D that accommodates the first reading unit 100. A first insertion port 94G is opened above and in front of the first terminal portion 105 in the first recess 94D. As shown in FIGS. 5 and 8, the first reading portion side end portion 110 </ b> B of the first wiring cable 110 extends forward through the first insertion port 94 </ b> G and is attached to the first terminal portion 105.

  That is, the first wiring cable 110 bypasses the conveyance path P1 on the right end 100R side of the first reading unit 100 and away from the driving unit 30, and the first terminal unit 105 of the first reading unit 100, The first connection part 515 of the substrate 5 is electrically connected.

  As shown in FIGS. 6 to 8 and 10, the board-side end 210 </ b> A of the second wiring cable 210 is connected to the second connection part 525 of the board 5.

  As shown in FIGS. 6 and 7, etc., the second wiring cable 210 extends forward from the board-side end portion 210A, and then is bent at an angle of 45 ° and extends leftward. In other words, the first wiring cable 110 and the second wiring cable 210 extend away from each other in the left-right direction from the first connection portion 525 and the second connection portion 525 that are shifted in the left-right direction.

  Next, the second wiring cable 210 is bent at an angle of 45 ° obliquely near the left side wall portion 97L of the substrate cover 97 and extends forward, and then at an angle of 180 ° upward near the lower wall 69. It is bent by and extends backward.

  As shown in FIG. 5, the lower guide 61 of the lower chute 60 is formed with a second recess 61 </ b> D that accommodates the second reading unit 200. A second insertion port 61G is opened below and in front of the second terminal portion 205 in the second recess 61D. As shown in FIGS. 5, 7, and 10, the second reading unit side end 210 </ b> B of the second wiring cable 210 extends forward through the second insertion port 61 </ b> G and is attached to the second terminal unit 205. ing.

  That is, the second wiring cable 210 extends on the left side in the housing 8 without being split between the transport path P1 and the drive unit 30, and is connected to the second terminal unit 205 of the second reading unit 200. The second connection portion 525 of the substrate 5 is electrically connected.

  As shown in FIG. 5, the second insertion port 61G is located on the upstream side in the transport direction D1 with respect to the first insertion port 94G. As a result, as shown in FIG. 10, the second insertion port 61G is separated rearward from the lower wall 69, and an empty space is secured between both.

<Image reading operation>
In the image reading apparatus 1 having the above configuration, the image of the sheet 9 is read as follows. That is, when the driving unit 30 starts driving under the control of the substrate 5, the supply roller 71 rotates while sandwiching the separation pad 79 and the sheet 9 to convey the sheet 9 on the placement surface 51 in the conveyance direction D1. At this time, when a plurality of sheets 9 are to be conveyed in an overlapped state, a frictional force acts between the separation pad 79 and the sheet 9 and between the sheet 9 and the sheet 9, so that the sheet 9 Are separated one by one. Next, the sheet 9 from which the conveyance rollers 72 are separated one by one is conveyed toward the first reading unit 100 and the second reading unit 200.

  The first reading unit 100 and the second reading unit 200 read the images on the upper surface 9A and the lower surface 9B of the sheet 9 by performing the above-described image reading operation under the control of the substrate 5. Output signals of the first reading unit 100 and the second reading unit 200 are transmitted to the substrate 5 via the first wiring cable 110 and the second wiring cable 210. Then, on the substrate 5, the output signal is converted into image data. Then, the discharge roller 73 discharges the sheet 9 on which the image has been read to the discharge tray 6.

<Effect>
In the image reading apparatus 1 of the embodiment, the first wiring cable 110 is on the other end side in the width direction of the sheet 9 to be conveyed, that is, on the right side in the housing 8 and on the side away from the driving unit 30. The first terminal unit 105 of the first reading unit 100 and the first connection unit 515 of the substrate 5 are electrically connected. Further, the second wiring cable 210 extends as it is without being split between the transport path P1 and the drive unit 30 on one end side in the width direction of the sheet 9 to be transported, that is, on the left side in the housing 8. The second terminal unit 205 of the second reading unit 200 and the second connection unit 525 of the substrate 5 are electrically connected. Thereby, if compared with the case where at least one of the first wiring cable 110 and the second wiring cable 210 is routed to the substrate 5 between the conveyance path P1 and the drive unit 30, the first wiring cable 110 and the first wiring cable The routing of the two-wiring cable 210 can be simplified, and an empty space to be secured between the transport path P1 and the driving unit 30 is not required for the routing of at least one of the first wiring cable 110 and the second wiring cable 210. .

  Therefore, the image reading apparatus 1 according to the embodiment can realize downsizing of the apparatus.

  In the image reading apparatus 1, the first terminal unit 105 is located on the downstream side in the transport direction D <b> 1 in the first reading unit 100. In addition, the second terminal unit 205 is located on the downstream side in the transport direction D <b> 1 in the second reading unit 200. According to this configuration, the first wiring cable 110 and the second wiring cable 210 can be similarly connected to the first terminal portion 105 and the second terminal portion 205 from the front to the rear. In addition, the routing of the second wiring cable 210 can be simplified. Moreover, compared with the case where a connection direction differs, the connection operation | work with respect to the 1st terminal part 105 and the 2nd terminal part 205 of the 1st wiring cable 110 and the 2nd wiring cable 210 becomes easy.

  Further, in the image reading apparatus 1, the first reading unit 100 and the second reading unit 200 are the same contact image sensor unit. According to this configuration, since the first reading unit 100 and the second reading unit 200 are common components, the number of components can be reduced.

  Further, in the image reading apparatus 1, the first reading unit 100 is located on the upper side with respect to the transport path P1. Further, the second reading unit 200 and the substrate 5 are located on the lower side with respect to the transport path P1. According to such a specific configuration, the effects of the present invention can be reliably achieved.

  Further, in the image reading apparatus 1, the conveyance path P1 is inclined downward toward the downstream side in the conveyance direction D1. Further, the substrate 5 is located below the second reading unit 200. Further, the second reading unit 200 is located upstream of the first reading unit 100 in the transport direction D1. According to this configuration, as shown in FIG. 12A, the second reading unit 200 can be made to approach the first reading unit 100 in the vertical direction. In the embodiment, the height of the first reading unit 100 and the second reading unit 200 is H1. In contrast, FIG. 12B shows a comparative example in which the positions of the first reading unit 100 and the second reading unit 200 in the transport direction D1 are the same. The height of the first reading unit 100 and the second reading unit 200 in this comparative example is assumed to be H2. The height H1 of the example is significantly smaller than the height H2 of the comparative example. As a result, the image reading apparatus 1 can reduce the height of the apparatus.

  Further, as shown in FIG. 5 and the like, in this image reading apparatus 1, the lower chute 60 constituting the housing 8 is a lower wall extending downward from the conveyance path P1 on the most downstream side in the conveyance direction D1 in the conveyance path P1. 69. According to this configuration, the lower wall 69 ensures the height of the discharge roller 73 located on the most downstream side in the transport direction D1 in the transport path P1 with respect to the discharge surface 6A. Accordingly, the sheet 9 to be conveyed is easily discharged smoothly onto the discharge surface 6A by the discharge roller 73 while being inclined downward. In addition, the second reading unit 200 positioned on the upstream side of the first reading unit 100 in the transport direction D1 is also separated from the lower wall 69 on the upstream side of the transport direction D1. Accordingly, a wide space for connecting the second wiring cable 210 to the second terminal portion 205 can be secured between the lower wall 69 and the second reading unit 200.

  Furthermore, in the image reading apparatus 1, the first connection portion 515 to which the first wiring cable 110 and the substrate 5 are connected, and the second connection portion 525 to which the second wiring cable 210 and the substrate 5 are connected are: They are shifted in the left-right direction. The first wiring cable 110 and the second wiring cable 210 extend away from the first connection portion 515 and the second connection portion 525 in the left-right direction. According to this configuration, the routing of the first wiring cable 110 and the routing of the second wiring cable 210 are unlikely to interfere. In addition, if the first wiring cable 110 and the second wiring cable 210 are aligned and extend in the same direction, the first wiring cable 110 and the second wiring cable 210 are prevented from causing electrical interference with each other. it can.

  In the image reading apparatus 1, the first terminal portion 105 and the second terminal portion 205 are connectors that can be attached to and detached from the first wiring cable 110 and the second wiring cable 210. Further, the second insertion port 61G for inserting the second wiring cable 210 into the second terminal portion 205 is different from the first insertion port 94G for inserting the first wiring cable 110 into the first terminal portion 105 in the transport direction D1. It is located upstream. According to this configuration, the second wiring cable 210 is connected to the second terminal unit 205 as compared with the case where the position of the first insertion port 94G and the position of the second insertion port 61G in the transport direction D1 are the same. Easy to secure space.

  Further, in the image reading apparatus 1, the casing 8 includes an upper cover 93 whose upper guide surface 94A constitutes the upper surface of the conveyance path P1, and a lower chute 60 whose lower guide surface 61A constitutes the lower surface of the conveyance path P1. And a substrate cover 97. The upper cover 93 is detachably attached to the lower chute 60 and the substrate cover 97. The substrate 5 is provided in the lower chute 60 and the substrate cover 97. When the substrate 5 is provided on the upper cover 93, the upper cover 93 is enlarged, and a large one is separated from the lower chute 60 and the substrate cover 97, so that it is difficult to separate, that is, open and close the upper cover 93. In this regard, according to the above configuration, since the substrate 5 is in the lower chute 60 and the substrate cover 97, the upper cover 93 can be easily detached and connected.

  Further, the image reading apparatus 1 includes a first white reference surface 150 that faces the second reading unit 200 and a second white reference surface 250 that faces the first reading unit 100. According to this configuration, when the shading correction is performed on the first reading unit 100 and the second reading unit 200, the second white reference surface 250 and the first white reference surface 150 are set as the white reference, respectively. it can.

  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, in the embodiment, the first terminal unit 105 is positioned on the downstream side in the transport direction D1 in the first reading unit 100, and the second terminal unit 205 is positioned on the downstream side in the transport direction D1 in the second reading unit 200. However, the present invention is not limited to this configuration, and may have a reverse positional relationship.

  In the embodiment, the first reading unit 100 is positioned above the transport path P1, and the second reading unit 200 and the substrate 5 are positioned below the transport path P1. It is not limited, The reverse positional relationship may be sufficient.

  The present invention can be used, for example, in an image reading apparatus or a multifunction peripheral.

DESCRIPTION OF SYMBOLS 1 ... Image reading apparatus, 8 ... Apparatus main body (housing | casing)
9 ... sheet, 9A ... one surface (upper surface) of sheet, 9B ... other surface (lower surface) of sheet
D1 ... Conveying direction, P1 ... Conveying path, 70 ... Conveying unit, 30 ... Drive unit, 5 ... Substrate 100 ... First reading unit, 200 ... Second reading unit 105 ... First terminal unit, 205 ... Second terminal unit 110 ... 1st distribution cable, 210 ... 2nd distribution cable 100R ... The other end of the width direction in the 1st reading part (the right end of the 1st reading part)
200L: One end in the width direction of the second reading unit (left end of the second reading unit)
515: 1st connection part, 525: 2nd connection part 69 ... Lower wall, 94G ... 1st insertion port, 61G ... 2nd insertion port 93 ... Upper housing | casing (upper cover), 94A ... Lower surface (upper side) of upper housing | casing Guide surface)
60, 97 ... Lower housing (60 ... Lower chute, 97 ... Substrate cover)
61A: Upper surface of the lower housing (lower guide surface)
150 ... first white reference plane, 250 ... second white reference plane

Claims (8)

The device body;
A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
The first terminal portion is provided on the other end side in the width direction of the first reading unit,
The second terminal portion is provided on one end side in the width direction of the second reading unit,
The first wiring cable is connected to the substrate after bypassing the conveyance path on the other end side in the width direction,
The second wiring cable is connected to the substrate on one end side in the width direction ,
The first reading unit is located above the transport path,
The second reading unit and the substrate are positioned below the transport path,
The transport path is inclined downward toward the downstream side in the transport direction,
The substrate is located below the second reading unit,
The second reading unit is located upstream of the first reading unit in the transport direction,
The first connection portion to which the first wiring cable and the substrate are connected, and the second connection portion to which the second wiring cable and the substrate are connected are arranged shifted in the width direction,
The image reading apparatus, wherein the first wiring cable and the second wiring cable extend away from the first connection portion and the second connection portion in the width direction .   The device body;
  A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
  A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
  A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
  A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
  An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
  A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
  A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
  A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
  The first terminal portion is provided on the other end side in the width direction of the first reading unit,
  The second terminal portion is provided on one end side in the width direction of the second reading unit,
  The first wiring cable bypasses the conveyance path on the other end side in the width direction,
  The first reading unit is located above the transport path,
  The second reading unit and the substrate are positioned below the transport path,
  The transport path is inclined downward toward the downstream side in the transport direction,
  The substrate is located below the second reading unit,
  The second reading unit is located upstream of the first reading unit in the transport direction,
  The second connection portion to which the second wiring cable and the substrate are connected is shifted from one end side in the width direction with respect to the first connection portion to which the first wiring cable and the substrate are connected. And

  The image reading apparatus, wherein the first wiring cable and the second wiring cable extend away from the first connection portion and the second connection portion in the width direction.   The device body;
  A conveyance path provided in the apparatus body for guiding the sheet in the conveyance direction;
  A conveyance unit that is provided in the apparatus main body and conveys the sheet along the conveyance path;
  A drive unit that is provided on one end side in the width direction of the sheet conveyed in the apparatus main body and drives the conveyance unit;
  A first reading unit that is provided so as to face the conveyance path in the apparatus main body, extends from one end side in the width direction to the other end side, and reads an image of one surface of the conveyed sheet;
  An image of the other surface of the sheet that is provided on the opposite side of the first reading unit across the conveyance path in the apparatus main body, extends from one end side to the other end side in the width direction, and is conveyed. A second reading unit for reading;
  A substrate provided on the opposite side to the first reading unit across the transport path in the apparatus main body, and controlling the first reading unit and the second reading unit;
  A first wiring cable that electrically connects a first terminal portion provided in the first reading unit and the substrate;
  A second wiring cable for electrically connecting the second terminal portion provided in the second reading unit and the substrate;
  The first terminal portion is provided on the other end side in the width direction of the first reading unit,
  The second terminal portion is provided on one end side in the width direction of the second reading unit,
  The first wiring cable is connected to the substrate after bypassing the conveyance path on the other end side in the width direction,
  The second wiring cable is connected to the substrate on one end side in the width direction,
  The first reading unit is located above the transport path,
  The second reading unit and the substrate are positioned below the transport path,
  The transport path is inclined downward toward the downstream side in the transport direction,
  The substrate is located below the second reading unit,
  The second reading unit is located upstream of the first reading unit in the transport direction,
  The first terminal portion and the second terminal portion are connectors that can be attached to and detached from the first wiring cable and the second wiring cable,
  A second insertion port for inserting the second wiring cable into the second terminal portion is on the upstream side in the transport direction with respect to a first insertion port for inserting the first wiring cable into the first terminal portion. An image reading apparatus characterized by being positioned. The first terminal portion is located on the downstream side in the transport direction in the first reading portion,
It said second terminal portion, the image reading apparatus of any one of claims 1 to 3 is located downstream side of the transport direction in the second reading unit. Wherein the first reading unit and the second reading unit, the image reading apparatus of any one of claims 1 to 4 the same contact image sensor unit. The apparatus main body, at the most downstream side in the transport direction in the conveyance path, the image reading apparatus of any one of claims 1 to 5 having a bottom wall extending downwardly from said conveying path. The apparatus main body has an upper housing whose lower surface constitutes the upper surface of the transport path, and a lower housing whose upper surface constitutes the lower surface of the transport path,
The upper casing is provided to be detachable from the lower casing,
The substrate, the image reading apparatus of any one of claims 1 to 6 is provided in the lower housing. A first white reference surface facing the second reading unit;
Image reading apparatus according to any one of claims 1 to 7; and a second white reference surface that faces the first reading unit.

Images