JP6432426B2 - Image reading device - Google Patents

Description

  The present invention relates to an image reading apparatus having a reading unit that reads an image from a sheet.

  2. Description of the Related Art Conventionally, an image reading apparatus has a sensor unit including an image sensor using a CIS (Contact Image Sensor) or the like as a reading unit, and is configured to read an image on a sheet by the reading unit. In such an image reading apparatus, it is important to position the sensor unit at a predetermined position because the distance of the sensor unit to the sheet affects the image reading accuracy of the reading unit from the relationship of the focal length of the image sensor.

  As an invention relating to such an image reading apparatus, an invention described in Patent Document 1 is known. In the image reading apparatus described in Patent Document 1, the image reading unit has a coil spring on the back side of the sensor body, and is configured to bias the sensor body toward the cover glass. The image reading apparatus described in Patent Document 1 urges the sensor main body toward the cover glass side by a coil spring, thereby maintaining the distance between the sheet and the sensor main body constant via the cover glass. Positioned at the proper position in the housing.

JP 2008-154110 A

  However, when the sensor body is biased from the back side toward the cover glass by a biasing member such as a coil spring as in Patent Document 1, the biasing force of the biasing member is applied to the back side of the sensor body. The position at which it acts (that is, the position where the end of the urging member contacts the back surface of the sensor body) is important.

  In the configuration of the sensor body of Patent Document 1, a sensor substrate for an image sensor may be disposed on the back side of the sensor body. In such a case, the urging force of the urging member acts on the sensor substrate disposed on the back side of the sensor body, causing the sensor substrate to bend and deform, and causing the image to be read by the reading unit. In some cases, the reading accuracy is lowered. Further, since the sensor substrate is disposed on the back side of the sensor body and is separated from the reference surface on the cover glass side, it is more easily bent and deformed by the urging force of the urging member. For this reason, an image reading apparatus such as that disclosed in Patent Document 1 may reduce the image reading accuracy of the reading unit due to the urging force of the urging member.

  The present disclosure has been made in view of the above-described problems, and relates to an image reading apparatus having a reading unit that reads an image from a sheet, while accurately positioning a sensor unit in the reading unit, and affecting the influence of a biasing member. An object of the present invention is to provide an image reading apparatus that can be reduced.

In order to achieve the above object, an image reading apparatus according to an aspect of the present invention includes a reading unit reading unit that reads an image from the sheet by changing a relative position with respect to the sheet according to a predetermined first direction. The reading unit includes a housing having a short side extending along the first direction and a long side extending along a second direction orthogonal to the first direction, and a first located on the sheet side of the housing. And an image sensor having a reading surface for reading an image from the sheet and a second surface located on the opposite side of the first surface of the housing, and used for control related to the image sensor. A sensor substrate, and a cover glass disposed on one surface located on the sheet side, the side facing the cover glass being It is formed in a released concave shape, has a holder that houses the sensor unit therein, and a movement restricting portion that restricts relative movement in a direction away from the holder, and is disposed so as to cover the opening of the holder. A holder cover that contacts the housing of the sensor unit housed inside the holder from the second surface side, and is disposed between the holder cover and the support member. An urging member for urging the sensor unit toward the cover glass, and the sensor unit is disposed inside the holder via the support member, the urging member, and the holder cover. is positioned at a predetermined position, the support member is kept in contact with the edges of the support members against an inner wall surface of the holder, the second surface on the holder within the housing Characterized in that it is placed in contact from.

The image reading apparatus can read an image from the sheet by changing the relative position between the reading unit and the sheet according to a predetermined first direction. In the image reading apparatus, the reading unit includes a sensor unit, a holder, a holder cover, a support member, and an urging member. The sensor unit includes a housing, an image sensor, and a sensor substrate, and is positioned at a predetermined position inside the holder via a support member, an urging member, and a holder cover. In the image reading apparatus, the urging member is configured to move the second member with respect to the holder cover whose movement in the direction away from the holder is restricted by the movement restricting portion and the housing of the sensor unit housed inside the holder. Since it is arrange | positioned between the plate-shaped support members which contact from the surface side, an urging member urges | biases the said sensor unit to the said cover glass side. Thereby, according to the said image reading apparatus, the position of the sensor unit with respect to the cover glass can be accurately positioned at a predetermined position. At this time, the end portion of the urging member is in contact with the support member, and the urging force of the urging member acts on the housing of the sensor unit via the support member, so that the sensor substrate is bent and deformed. Can be suppressed. Thereby, according to the image reading apparatus, it is possible to prevent a reading accuracy from being lowered by the reading unit by suppressing the deformation of the sensor substrate due to the urging force of the urging member. That is, according to the image reading apparatus, it is possible to suppress a decrease in reading accuracy due to the influence of the urging force of the urging member while accurately positioning the sensor unit in the reading unit.
In addition, the support member is disposed so as to contact the housing inside the holder from the second surface side in a state where the edge of the support member is in contact with the inner wall surface of the holder. The movement of the support member can be restricted and held at an appropriate position. That is, according to the image reading apparatus, the end of the urging member can be reliably brought into contact with the support member, and the urging force of the urging member can be applied to the sensor unit via the support member. Can act.

  An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to claim 1, wherein the housing and the holder are in contact with each other to thereby form the first surface side of the housing, and It has a positioning part which positions the relative positional relationship of the said cover glass side of a holder, It is characterized by the above-mentioned.

  According to the image reading apparatus, since the relative positional relationship between the first surface side of the housing and the cover glass side of the holder can be positioned by the positioning unit, the reading surface of the sensor unit and the cover The positional relationship with the glass can be set to an appropriate position (for example, a position corresponding to the focal length of the image sensor). Thereby, the image reading apparatus can accurately read the image of the sheet positioned via the cover glass by the reading surface of the sensor unit.

  An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to claim 1 or 2, wherein the support member is disposed at both ends of the sensor unit in the second direction. It is characterized by that.

  According to the image reading apparatus, since the support member is disposed at both ends of the sensor unit in the second direction, the biasing force of the biasing member is received at both ends of the long side of the sensor unit. Can do. Thereby, according to the image reading apparatus, the urging force of the urging member can be applied in a balanced manner with respect to the long side direction (that is, the second direction) of the sensor unit.

An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to any one of claims 1 to 3 , wherein the biasing member is the first side of the plate-like support member. It is arranged in the central part of the direction .

According to the image reading apparatus, the biasing member, because it is located on the first hand the central portion of the direction in the plate-like of the support member, the biasing force of the biasing member, the short side direction of the supporting member With respect to (that is, the first direction), it is possible to act in a balanced manner.

An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to any one of claims 1 to 4 , wherein the movement restricting portion is at least at a position where the urging member is disposed. The movement of the holder cover in a direction away from the holder is restricted.

  According to the image reading apparatus, the movement restricting portion of the holder cover restricts the movement of the holder cover in the direction away from the holder at least at the position where the biasing member is disposed. The deformation of the holder cover due to the biasing force can be appropriately suppressed.

An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to any one of claims 1 to 5 , wherein the sensor unit is within a predetermined range on an end side in the second direction. And it has the connector part to which a flat cable is connected in the position inside the arrangement | positioning position of the said urging | biasing member.

  According to the image reading apparatus, the sensor unit has a connector portion to which a flat cable is connected within a predetermined range on the end side in the second direction and inside the arrangement position of the urging member. Therefore, the urging force of the urging member is appropriately applied to the sensor unit, and at the same time, the handling of the flat cable connected to the connector portion can be simplified.

An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to any one of claims 1 to 6 , wherein the support member is formed in a plate shape by an insulating material, The urging member is a coil spring made of a metal wire.

  According to the image reading apparatus, the support member is formed in a plate shape with an insulating material, and the urging member is a coil spring made of a metal wire, and is attached to the sensor unit. The urging force of the urging member can be stably applied via the support member. Further, according to the image reading apparatus, the support member and the urging member can be obtained inexpensively and easily, so that the manufacturing cost of the image reading apparatus can be suppressed.

An image reading apparatus according to another aspect of the present invention is the image reading apparatus according to claim 7 , wherein the image sensor extends along the second direction on the reading surface and reads the image. A light guide part that emits light, and the sensor substrate has a terminal part for causing the light guide part to emit light at an end in the second direction on the second surface side of the sensor substrate; The support member is disposed on the second surface side of the housing so as to cover the terminal portion of the sensor substrate.

  According to the image reading apparatus, since the support member is disposed on the second surface side of the housing so as to cover the terminal portion of the sensor substrate, a coil spring made of a metal wire is provided. It is possible to prevent contact with the terminal portion, and thus it is possible to suppress the failure and malfunction of the sensor unit.

1 is a side view illustrating a schematic configuration of an image reading apparatus according to an embodiment. It is a side view which shows the structure of the image reading apparatus of the state which open | released the 2nd housing | casing. FIG. 3 is an enlarged view illustrating a configuration of a reading unit in the image reading apparatus. It is a front view of the reading unit which comprises a reading part. It is a side view of the reading unit which comprises a reading part. It is a rear view of the reading unit which comprises a reading part. It is a perspective view which shows the reading unit of a state which removed the holder cover. It is a rear view which shows the reading unit of the state which removed the holder cover. It is sectional drawing which shows the II cross section in FIG. It is a front view of the sensor unit which comprises a reading unit. It is a rear view of the sensor unit which comprises a reading unit. It is a front view of the sensor holder which comprises a reading unit. It is a rear view of the sensor holder which comprises a reading unit.

  Hereinafter, an embodiment in which an image reading apparatus according to the present invention is embodied in an image reading apparatus 1 will be described in detail with reference to the drawings. Then, the sheet discharge port 22 side in the image reading apparatus 1 is defined as the front side of the apparatus, the side that comes to the left hand when facing the sheet discharge port 22 is defined as the left side, and the front-rear, left-right, and top-bottom directions are indicate. The directions shown in FIG. 2 and subsequent figures are all displayed in correspondence with the directions shown in FIG.

(Schematic configuration of image reading apparatus)
The image reading apparatus 1 according to the present embodiment conveys a sheet along a conveyance guide unit 20 formed between the first casing 10 and the second casing 15 that constitute the main body casing 5, and reads the reading section. 40 is configured to be able to read an image from the sheet, and includes a conveyance unit 25, a reading unit 40, and a circuit board 60 as shown in FIG.

(Configuration of the main unit housing)
The main body housing 5 according to the present embodiment accommodates each component in the image reading apparatus 1 and is configured by connecting the first housing 10 and the second housing 15 to each other. The first housing 10 constitutes a lower portion of the main body housing 5 in the image reading apparatus 1 and houses various constituent devices such as a first reading unit 50 and a circuit board 60 described later.

  A lower guide surface 10G is formed on the upper surface of the first housing 10, and constitutes a lower portion of the transport guide portion 20 as will be described later. As shown in FIGS. 1 and 2, the lower guide surface 10 </ b> G is inclined downwardly from the upper surface rear side of the first housing 10 toward the front. The first housing 10 is centered around a rotation shaft (not shown) extending in the left-right direction (direction perpendicular to the paper surface of FIG. 1) in the vicinity of the front side of the lower guide surface 10G. The second housing 15 positioned above the upper and lower sides is supported so as to be openable and closable.

  The second housing 15 constitutes an upper portion of the main body housing 5 in the image reading apparatus 1 and houses various components such as a second reading unit 55 described later. An upper guide surface 15G is formed on the lower surface of the second housing 15, and travels forward from the rear side of the lower surface of the second housing 15 along the lower guide surface 10G of the first housing 10. As it slopes down.

  As shown in FIG. 1, the lower guide surface 10G of the first housing 10 and the upper guide surface 15G of the second housing 15 are opposed to each other with a predetermined interval through which the sheet can pass. . The lower guide surface 10G and the upper guide surface 15G close the second housing 15 with respect to the first housing 10 and are disposed so as to face each other. A sheet conveyance path R is configured. As illustrated in FIG. 2, the conveyance guide unit 20 can be opened by separating the second housing 15 upward from the first housing 10.

(Construction of transport guide)
As described above, the conveyance guide unit 20 is formed between the lower guide surface 10G and the upper guide surface 15G when the second case 15 is closed with respect to the first case 10, and the sheet conveyance path. Functions as R. The conveyance guide unit 20 connects the sheet introduction port 21 and the sheet discharge port 22, and is a portion where a sheet that is an image reading target is conveyed.

  For example, a sheet, an OHP sheet, or the like can be used as the sheet in the present embodiment. In the present embodiment, letter-size or A4-size paper or the like can be used for a wide sheet, and postcards or the like can be used for a narrow sheet.

  As shown in FIG. 1, the sheet introduction port 21 is configured by a gap between the rear end edge of the lower guide surface 10G in the first housing 10 and the rear end edge of the upper guide surface 15G in the second housing 15. It has a dimension that is longer than the width of the sheet in the left-right direction. Therefore, the image reading apparatus 1 according to the present embodiment can insert a sheet into the conveyance guide unit 20 via the sheet introduction port 21.

  And the sheet | seat discharge port 22 is comprised by the clearance gap between the front-end edge of 10 G of lower side guide surfaces in the 1st housing | casing 10, and the front-end edge of 15 g of upper side guide surfaces in the 2nd housing | casing 15, and is sheet | seat to the left-right direction. It has a dimension longer than the width of. Therefore, the image reading apparatus 1 according to the present embodiment can discharge the sheet conveyed through the conveyance guide unit 20 from the sheet discharge port 22.

  The sheet conveyance path R is a path that is sandwiched between the lower guide surface 10G of the first housing 10 and the upper guide surface 15G of the second housing 15 from above and below, and is directed forward from the sheet introduction port 21. And is connected to the sheet discharge port 22. The sheet conveyance path R guides the sheet inserted from the rear sheet introduction port 21 to the front sheet discharge port 22.

  The conveyance direction, which is the direction in which the sheet conveyance path R extends, is a downwardly inclined direction from the upper rear side to the lower front side. In other words, the conveyance direction is a direction in which a passage sandwiched between the lower guide surface 10G of the first housing 10 and the upper guide surface 15G of the second housing 15 from the up and down direction extends. The upstream side in the transport direction is the sheet introduction port 21 side, and the downstream side in the transport direction is the sheet discharge port 22 side. The width direction orthogonal to the transport direction corresponds to the left-right direction of the image reading apparatus 1 and is a direction perpendicular to the paper surface in FIGS. One side in the height direction with respect to the sheet conveyance path R is the lower guide surface 10 </ b> G side in the conveyance guide unit 20. The other side in the height direction with respect to the sheet conveyance path R is the upper guide surface 15G side in the conveyance guide unit 20.

(Conveyor configuration)
The transport unit 25 includes an upstream transport unit 30 and a downstream transport unit 35, and the sheet inserted into the transport guide unit 20 from the sheet introduction port 21 toward the sheet discharge port 22. Transport.

  The upstream side conveyance unit 30 is along the conveyance guide unit 20 on the conveyance direction upstream side of the conveyance guide unit 20 (that is, on the downstream side in the conveyance direction from the sheet introduction port 21 and upstream in the conveyance direction from the reading unit 40). It has an upstream drive roller 31 and an upstream driven roller 32.

  The upstream drive roller 31 is rotatably disposed on the lower guide surface 10 </ b> G side in the conveyance guide unit 20, and is positioned closer to the sheet introduction port 21 than the first reading unit 50. The upstream drive roller 31 is formed on an upstream drive shaft that is rotationally driven by a drive source (not shown), and cooperates with the upstream driven roller 32 so as to be positioned inside the conveyance guide unit 20. Is transported downstream in the transport direction.

  The upstream driven roller 32 is rotatably disposed on the upper guide surface 15 </ b> G side in the conveyance guide unit 20, and is positioned closer to the sheet introduction port 21 than the second reading unit 55. The upstream driven roller 32 is disposed at a position facing the upstream drive roller 31 via the conveyance guide unit 20, and is applied to the upstream drive roller 31 by a biasing force of a spring member (not shown). It is pressed.

  That is, in the upstream transport unit 30, the upstream drive roller 31 and the upstream driven roller 32 are in contact with each other by the biasing force of a spring member (not shown), and thus are guided to the transport guide unit 20. The sheet can be sandwiched between the upstream drive roller 31 and the upstream driven roller 32, and the conveying force can be transmitted to the sheet.

  The downstream side conveyance unit 35 is connected to the conveyance guide unit 20 on the conveyance direction downstream side of the conveyance guide unit 20 (that is, downstream in the conveyance direction from the reading unit 40 and upstream in the conveyance direction from the sheet discharge port 22). It has a downstream drive roller 36 and a downstream driven roller 37.

  The downstream drive roller 36 is rotatably disposed on the lower guide surface 10 </ b> G side in the conveyance guide unit 20, and is positioned closer to the sheet discharge port 22 than the first reading unit 50. The downstream drive roller 36 is formed on a downstream drive shaft that is rotationally driven by a drive source (not shown), and cooperates with the downstream driven roller 37 to position the sheet located inside the conveyance guide unit 20. Are conveyed downstream in the conveying direction and discharged from the sheet discharge port 22.

  The downstream driven roller 37 is rotatably disposed on the upper guide surface 15 </ b> G side in the conveyance guide unit 20, and is positioned closer to the sheet discharge port 22 than the second reading unit 55. The downstream driven roller 37 is disposed at a position facing the downstream drive roller 36 via the transport guide portion 20, and is applied to the downstream drive roller 36 by the biasing force of a spring member (not shown). It is pressed.

  In the downstream transport unit 35, the downstream drive roller 36 and the downstream driven roller 37 are in contact with each other by the urging force of a spring member (not shown), so that the sheet guided to the transport guide unit 20 is used. Can be sandwiched between the downstream drive roller 36 and the downstream driven roller 37, and the conveying force can be transmitted to the sheet to be discharged from the sheet discharge port 22.

(Configuration of reading unit)
The reading unit 40 is disposed between the upstream side conveyance unit 30 and the downstream side conveyance unit 35, and reads an image from a sheet conveyed inside the conveyance guide unit 20. As shown in FIGS. 1 to 3, the reading unit 40 includes a first reading unit 50 and a second reading unit 55.

  As shown in FIG. 3, the first reading unit 50 is disposed along the lower guide surface 10 </ b> G of the first housing 10 between the upstream transport unit 30 and the downstream transport unit 35. An image is read from one surface (lower surface) of the sheet conveyed along the sheet conveyance path R inside the conveyance guide unit 20. The first reading unit 50 stores a reading unit 100 including an image sensor in the first sensor storage unit 51, and has a contact glass 120 on the conveyance guide unit 20 side in the first sensor storage unit 51. Configured.

  The first sensor storage unit 51 is formed in a concave shape having an opening at a position along the lower guide surface 10 </ b> G constituting the sheet conveyance path R of the conveyance guide unit 20, and extends along the left-right direction of the image reading apparatus 1. And has a substantially box shape with a long side.

  The reading unit 100 includes an image sensor 112 configured by a contact image sensor (hereinafter, abbreviated as “CIS”), and includes a reading surface 112S on the sheet conveyance path R side of the conveyance guide unit 20. Yes. The long side direction of the reading unit 100 is along the left-right direction of the image reading apparatus 1. On the reading surface 112 </ b> S of the reading unit 100, an image sensor or the like arranged in the long side direction is disposed. The long side direction of the reading unit 100 corresponds to the main scanning direction of the reading unit 100.

  The reading unit 100 in the first reading unit 50 is stored in the first sensor storage unit 51 in such a manner that the reading surface 112S is on the upper side (that is, the sheet transport path R of the transport guide unit 20). That is, the surface of the reading unit 100 of the reading unit 100 faces the sheet conveyance path R. One end of the flat cable 70 is connected to the reading unit 100, and the other end of the flat cable 70 is connected to the circuit board 60.

  In the first reading unit 50, the contact glass 120 is disposed on the conveyance guide unit 20 side in the first sensor storage unit 51 and functions as a so-called “platen glass”. Since the contact glass 120 constitutes a part of the lower guide surface 10G, the reading unit 100 of the first reading unit 50 is one surface of the sheet conveyed along the sheet conveyance path R of the conveyance guide unit 20. These images can be read through the contact glass 120.

  The second reading unit 55 is disposed along the upper guide surface 15G of the second reading unit 55 between the upstream conveyance unit 30 and the downstream conveyance unit 35 (see FIG. 3). An image is read from one surface (upper surface) of the sheet conveyed along the sheet conveyance path R inside the guide unit 20. The second reading unit 55 is disposed at a position facing the first reading unit 50 via the conveyance guide unit 20. As shown in FIG. 3, the second reading unit 55 stores the reading unit 100 including an image sensor in the second sensor storage unit 56, and on the conveyance guide unit 20 side in the second sensor storage unit 56, A contact glass 120 is included.

  The second sensor storage unit 56 is formed in a concave shape having an opening at a position along the upper guide surface 15G constituting the sheet conveyance path R of the conveyance guide unit 20, and extends along the left-right direction of the image reading apparatus 1. It has a substantially box shape with a long side.

  Also in the second reading unit 55, the reading unit 100 has an image sensor constituted by a Contact Image Sensor (hereinafter abbreviated as “CIS”), and a reading surface on the sheet conveyance path R side of the conveyance guide unit 20. 112S is comprised. The long side direction of the reading unit 100 is along the left-right direction of the image reading apparatus 1. On the surface of the reading unit 100 in the reading unit 100, an image sensor or the like arranged in the long side direction is arranged. The long side direction of the reading unit 100 corresponds to the main scanning direction of the reading unit 100.

  The reading unit 100 in the second reading unit 55 is stored inside the second sensor storage unit 56 in such a manner that the reading surface 112S is on the lower side (that is, the sheet conveyance path R of the conveyance guide unit 20) (FIG. 1). To FIG. 3). That is, the reading surface 112S of the reading unit 100 faces the sheet conveyance path R. In the second reading unit 55, one end of the flat cable 70 is connected to the reading unit 100, and the other end of the flat cable 70 is connected to the circuit board 60.

  In the second reading unit 55, the contact glass 120 is disposed on the conveyance guide unit 20 side in the second sensor storage unit 56 and functions as a so-called “platen glass”. Since the contact glass 120 of the second reading unit 55 constitutes a part of the upper guide surface 15G, the reading unit 100 of the second reading unit 55 conveys along the sheet conveyance path R of the conveyance guide unit 20. An image of one surface of the sheet to be read can be read through the contact glass 120.

(Configuration of circuit board)
The circuit board 60 is disposed in the lower part of the first housing 10 and has a control circuit including a CPU, a ROM, a RAM, and the like. Power is supplied to the circuit board 60 from a household outlet via an AC adapter and a power supply cord. The circuit board 60 is electrically connected to each reading unit 100 in the reading unit 40 via the flat cable 70, and performs control related to image reading by the reading unit 100. The circuit board 60 is electrically connected to a drive source (not shown) disposed inside the first housing 10, and supplies power to the drive source to control the motor and the circuit board 60. Sheet conveyance control by the conveyance unit 25 is performed via the transmission gear group.

(Image reading operation of sheet by image reading device)
An image reading operation when reading an image on a sheet in the image reading apparatus 1 configured as described above will be described. When reading an image on a sheet, the circuit board 60 controls a driving source (not shown) to generate a driving force. Thus, the image reading apparatus 1 allows the sheet inserted from the sheet introduction port 21 to the inside of the conveyance guide unit 20 by the cooperation of the upstream drive roller 31 and the upstream driven roller 32 of the upstream conveyance unit 30. Along the conveyance path R, the sheet is conveyed downstream in the conveyance direction.

  When the upstream side conveyance unit 30 conveys the sheet to the downstream side in the conveyance direction, the circuit board 60 controls the first reading unit 50 and the second reading unit 55 constituting the reading unit 40 to enter the sheet conveyance path R. The image is read from both sides of the sheet conveyed along. The image reading operation by the reading unit 40 is executed in parallel with the sheet conveying operation by the conveying unit 25.

  When the sheet from which the image has been read by the reading unit 40 is conveyed downstream in the conveying direction from the reading unit 40, the sheet is sandwiched between the downstream driving roller 36 and the downstream driven roller 37 of the downstream conveying unit 35. The image reading apparatus 1 performs drive control of the downstream-side conveyance unit 35 with the circuit board 60, and thereby discharges the sheet from the sheet discharge port 22 to the outside of the main body housing 5.

(Configuration of reading unit)
Subsequently, in the image reading apparatus 1 according to the present embodiment, the configuration of the reading unit 100 configuring the reading unit 40 (the first reading unit 50 and the second reading unit 55) will be described in detail with reference to FIGS. Explained. In the following description, the reading unit 100 constituting the second reading unit 55 will be described as an example. In this respect, the reading unit 100 in the first reading unit 50 has the same basic configuration as that of the reading unit 100 of the second reading unit 55, and thus the description thereof is omitted.

  As described above, the sheet conveyance path R of the conveyance guide unit 20 according to the present embodiment is inclined downward toward the front side of the image reading apparatus 1, and the first reading unit 50 and the second reading unit 55. The reading unit 100 is also arranged so as to be inclined downward toward the front side of the image reading apparatus 1.

Therefore, in the following description, the X direction, the Y direction, and the Z direction will be described instead of the vertical direction, the horizontal direction, and the front-rear direction with respect to the image reading apparatus 1. The X direction (+ X direction, −X direction) corresponds to the left-right direction in the image reading apparatus 1. The Y direction corresponds to the sheet conveyance direction along the sheet conveyance path R of the conveyance guide unit 20, the −Y direction corresponds to the upstream side in the conveyance direction, and the + Y direction corresponds to the downstream side in the conveyance direction. The Z direction is a direction orthogonal to the X direction and the Y direction, the + Z direction indicates a direction close to the sheet conveyance path R, and the −Z direction indicates a direction away from the sheet conveyance path R.
4 to 13, the front view is a plan view seen from the sheet conveyance path R side, and the rear view means a plan view seen from the −Z direction side.

  As described above, the reading unit 100 stores an image from a sheet stored in the sensor storage unit (the first sensor storage unit 51 and the second sensor storage unit 56) in the reading unit 40 and transported through the transport guide unit 20. read. As shown in FIGS. 4 to 9, the reading unit 100 includes a sensor unit 110, a sensor holder 115, a holder cover 125, a support plate member 130, and a coil spring 135.

(Configuration of sensor unit)
The sensor unit 110 constitutes a main part relating to image reading by the reading unit 100 and includes a housing 111, an image sensor 112, and a sensor substrate 113. As shown in FIGS. 9 and 10, the sensor unit 110 is formed in a rectangular parallelepiped shape that is an elongated rectangle in an XY plan view, and the longitudinal direction along the X direction is the main scanning direction, and is along the Y direction. The short direction is defined as the sub-scanning direction.

  The housing 111 is formed in a rectangular parallelepiped shape that is an elongated rectangle in the XY plan view, and constitutes an outline of the sensor unit 110. Regulating portions 111A are formed at four corners of the housing 111 on the + Z direction side. Each restricting portion 111A serves as a positioning member that maintains a constant distance between the image sensor 112 in the sensor unit 110 and the contact glass 120 of the sensor holder 115 by coming into contact with a restricting rib 115A of the sensor holder 115 described later. Fulfill.

  The image sensor 112 includes a contact image sensor called a CIS (Contact Image Sensor). The image sensor 112 irradiates a sheet conveyed through the conveyance guide unit 20 with light, and photoelectrically converts the reflected light from the sheet. The image of the sheet is read by outputting an electrical signal. The image sensor 112 is arranged along one surface on the + Z direction side inside the housing 111 and constitutes one surface on the + Z direction side in the sensor unit 110.

  As shown in FIG. 10 and the like, a light guide portion 112A and the like are disposed on the surface on the + Z direction side of the image sensor 112, and constitute a reading surface 112S. The light guide portion 112A is continuously arranged in the longitudinal direction of the sensor unit 110, and is configured to guide light of an LED (not shown) provided inside the housing 111 in the sensor unit 110. Yes. The light from the light guide unit 112A is irradiated onto one surface of the sheet conveyed through the conveyance guide unit 20 via a contact glass 120 of the sensor holder 115 described later. On the reading surface 112S of the image sensor 112, a plurality of image pickup devices are arranged in the longitudinal direction of the sensor unit 110, and the plurality of image pickup devices allow the reflected light from the sheet to be converted into electricity according to the intensity thereof. Convert to signal.

  The sensor board 113 is a control board for performing reading control in the sensor unit 110 (emission control of the LED described above, conversion to an electric signal, etc.), and is arranged along one surface of the housing 111 on the −Z direction side. Has been. As shown in FIG. 11, on one surface of the sensor substrate 113 on the −Z direction side, the connector portion 113A and the terminal portion 113B have a predetermined range on the end portion side on the −X direction side (for example, a longitudinal direction along the X direction). In a range of about 1/3 of the direction). As shown in FIG. 7, the connector portion 113 </ b> A is located within a predetermined range on the end side on the −X direction side and inside the position where a coil spring 135 described later is disposed.

  The connector portion 113A is electrically connected to the image pickup element of the sensor unit 110 via the sensor substrate 113, and the circuit board 60 and the signal etc. are connected via the flat cable 70 connected to the connector portion 113A. Perform input / output. The terminal portion 113B is a terminal for performing light emission control of the LED of the sensor unit 110 and the light guide portion 112A, and is electrically connected to the circuit board 60.

(Configuration of sensor holder)
The sensor holder 115 is formed in a substantially box shape in which one surface on the −Z direction side is opened, and as shown in FIGS. 4 to 9, the sensor unit 110 can be accommodated therein. In the sensor holder 115, restriction ribs 115A are formed at four corners on the inner surface on the + Z direction side (see FIG. 13).

  As shown in FIG. 9, the regulation rib 115 </ b> A is formed so as to protrude in the −Z direction, and comes into contact with the regulation unit 111 </ b> A of the sensor unit 110 to contact the image sensor 112 in the sensor unit 110 and the sensor holder 115. The distance from the glass 120 is kept constant.

  A reading opening 115W is formed on one surface of the sensor holder 115 on the + Z direction side, and a contact glass 120 is provided. The reading opening 115W is formed by opening one surface of the sensor holder 115 on the + Z direction side. Further, the contact glass 120 is formed in a rectangular plate shape having translucency, and closes the reading opening 115W. Each contact glass 120 constitutes a part of the conveyance guide unit 20 (that is, a part of the upper guide surface 15G or the lower guide surface 10G). The sensor unit 110 can irradiate light on the sheet and receive reflected light from the sheet through the reading opening 115W and the contact glass 120, and can read an image on the sheet.

  On the side surface on the + Y direction side and the side surface on the −Y direction side of the sensor holder 115, a plurality of engagement protrusions 115 </ b> B are formed to protrude. Each of the engagement protrusions 115B is formed at both ends in the Y direction on each of the side surface on the + Y direction side and the side surface on the −Y direction side, and at four locations that are 1/3 of the longitudinal dimension from each end. The engagement protrusion 115 </ b> B regulates movement of the holder cover 125 relative to the sensor holder 115 in the −Z direction by cooperating with a regulation hook portion 125 </ b> A formed on the holder cover 125.

(Configuration of holder cover)
As shown in FIGS. 4 to 9, the holder cover 125 is formed of a synthetic resin in a flat plate shape and is disposed so as to cover the opening of the sensor holder 115. A plurality of restricting hook portions 125A are provided in the Y direction of the holder cover 125 in the Y direction at both ends in the Y direction, and at four places that are 1/3 of the longitudinal dimension from each end, toward the + Z direction. It is erected. Each restriction hook portion 125 </ b> A engages with the engagement protrusion 115 </ b> B of the sensor holder 115, thereby restricting the movement of the holder cover 125 with respect to the sensor holder 115 in the −Z direction.

  In the reading unit 100 according to the present embodiment, two support plate members 130 are provided. Each support plate member 130 is formed in a flat plate shape from an insulating synthetic resin, and the housing of the sensor unit 110 at both ends in the X direction (longitudinal direction) of the sensor unit 110 housed in the sensor holder 115. It arrange | positions so that the end surface of the -Z direction side in 111 may be contacted (refer FIG. 7, FIG. 8).

  Each support plate member 130 is disposed so as to come into contact with the end surface on the −Z direction side of the housing 111 in a state in which the edge of the support plate member 130 is in contact with the inner wall surface of the sensor holder 115 (FIG. 7 to 9). As a result, the support plate member 130 comes into contact with the inner wall surface of the sensor holder 115 and the end surface on the −Z direction side of the housing 111, so that the sensor unit 110 housed inside the sensor holder 115 in the X direction (longitudinal direction). It can be positioned at predetermined positions on both ends.

  As shown in FIG. 9, in the sensor unit 110, the end surface on the −Z direction side of the housing 111 is located on the −Z direction side with respect to the tip of the terminal portion 113 </ b> B, and the terminal portion 113 </ b> B is − It is arranged at the end on the X direction side. Therefore, the support plate member 130 is disposed so as to cover the terminal portion 113 </ b> B of the sensor substrate 113 at the end portion on the −X direction side of the sensor unit 110.

  As shown in FIGS. 7 to 9, the coil spring 135 is made of a metal wire, and is disposed between the holder cover 125 and the support plate member 130 at both ends in the X direction of the reading unit 100. In the sensor holder 115, the sensor unit 110 is biased in the + Z direction. One end of each coil spring 135 is attached to the center portion in the Y direction of the holder cover 125, and the other end of the coil spring 135 is in contact with the center portion in the Y direction of the support plate member 130.

  In the reading unit 100, the restricting portion 111A and the restricting rib 115A can be reliably brought into contact with each other by the urging force of the coil spring 135, so that the reading surface 112S of the sensor unit 110 is brought into contact with the contact glass 120 of the sensor holder 115. On the other hand, they are positioned at positions separated by a predetermined distance corresponding to the focal length of the image sensor 112 (see FIG. 9).

  As described above, the image reading apparatus 1 according to the present embodiment includes the main body housing 5 including the first housing 10 and the second housing 15, the transport unit 25, the reading unit 40, the circuit board 60, A flat cable 70 and is transported along the transport guide 20 formed between the first housing 10 and the second housing 15 by the first reading unit 50 and the second reading unit 55. Images can be read from the sheet.

  In the present embodiment, the reading unit 40 includes a reading unit 100, and the reading unit 100 includes a sensor unit 110, a sensor holder 115, a holder cover 125, a support plate member 130, and a coil. And a spring 135. The sensor unit 110 includes a housing 111, an image sensor 112, and a sensor substrate 113, and a predetermined inside of the sensor holder 115 via a support plate member 130, a coil spring 135, and a holder cover 125. Is positioned.

  As shown in FIG. 9, each coil spring 135 includes a holder cover 125 whose movement in the direction away from the sensor holder 115 is regulated by the cooperation of the regulating portion 111 </ b> A and the regulating hook portion 125 </ b> A, and the inside of the sensor holder 115. Since the sensor unit 110 is disposed between the plate-like support plate members 130 that come into contact with the housing 111 of the sensor unit 110 accommodated from the −Z direction side, the sensor unit 110 is biased toward the + Z direction side. The position of the sensor unit 110 with respect to the contact glass 120 can be accurately positioned at a predetermined position. At this time, the end of the coil spring 135 is in contact with the support plate member 130, and the biasing force of the coil spring 135 acts on the housing 111 of the sensor unit 110 via the support plate member 130. It can suppress that 113 bends and deforms.

  Thereby, according to the image reading apparatus 1, it is possible to prevent a reading accuracy from being lowered by the reading unit 40 by suppressing the deformation of the sensor substrate 113 due to the urging force of the coil spring 135. That is, according to the image reading apparatus 1, it is possible to suppress a decrease in reading accuracy due to the influence of the urging force of the coil spring 135 while accurately positioning the sensor unit 110 in the reading unit 40.

  According to the image reading apparatus, since the relative positional relationship between the first surface side of the housing and the cover glass side of the holder can be positioned by the positioning unit, the reading surface of the sensor unit and the cover The positional relationship with the glass can be set to an appropriate position (for example, a position corresponding to the focal length of the image sensor). Thereby, the image reading apparatus can accurately read the image of the sheet positioned via the cover glass by the reading surface of the sensor unit.

  As shown in FIG. 7, since the coil spring 135 is disposed at both ends in the X direction of the sensor unit 110, the urging force of the coil spring 135 is applied to both ends in the longitudinal direction (main scanning direction) of the sensor unit 110. Can be received in the department. Thereby, according to the image reading apparatus 1, the urging force of the coil spring 135 can be applied in a balanced manner with respect to the longitudinal direction of the sensor unit 110 (that is, the main scanning direction).

  In addition, each support plate member 130 is attached to the housing 111 of the sensor unit 110 housed in the sensor holder 115 with the end edge of the support plate member 130 in contact with the inner wall surface of the sensor holder 115. Since it arrange | positions so that it may contact from a direction side, the movement of the support plate member 130 can be controlled and it can hold | maintain in an appropriate position. That is, according to the image reading apparatus 1, the end of the coil spring 135 can be reliably brought into contact with the support plate member 130, and the urging force of the coil spring 135 can be applied via the support plate member 130. The sensor unit 110 can be operated.

  As shown in FIGS. 7 and 8, the coil spring 135 is disposed at the central portion of the sensor unit 110 in the Y direction, so that the biasing force of the coil spring 135 is reduced in the short side direction of the sensor unit 110 (that is, With respect to the sub-scanning direction), it is possible to act in a balanced manner.

  As shown in FIGS. 4 to 9, the restriction hook portion 125 </ b> A of the holder cover 125 and the restriction hook portion 125 </ b> A of the sensor holder 115 are separated from the sensor holder 115 at both ends in the X direction where the coil spring 135 is disposed. Since the movement of the holder cover 125 in the separating direction is restricted, deformation of the holder cover 125 due to the urging force of the coil spring 135 can be appropriately suppressed.

  As shown in FIG. 11, the sensor unit 110 has a connector portion 113A to which the flat cable 70 is connected within a predetermined range on the end side in the −X direction and the arrangement position of the coil spring 135. Therefore, the urging force of the coil spring 135 is appropriately applied to the sensor unit 110, and the handling of the flat cable 70 connected to the connector portion 113A is simplified. be able to.

  In the present embodiment, the support plate member 130 is formed in a flat plate shape with an insulating material, and the coil spring 135 is made of a metal wire, so that the coil spring 135 is attached to the sensor unit 110. The force can be stably applied via the support plate member 130. Further, since the support plate member 130 and the coil spring 135 can be easily obtained at low cost, the manufacturing cost of the image reading apparatus 1 can be suppressed.

  As shown in FIGS. 6 to 9, the support plate member 130 is disposed on the −Z direction side of the housing 111 so as to cover the terminal portion 113 </ b> B of the sensor substrate 113. The configured coil spring 135 can be prevented from coming into contact with the terminal portion 113 </ b> B, and thus failure and malfunction of the sensor unit 110 can be suppressed.

  In the above-described embodiment, the image reading apparatus 1 is an example of the image reading apparatus according to the present invention. The reading unit 40 and the reading unit 100 are examples of the reading unit in the present invention, and the sensor unit 110 is an example of the sensor unit in the present invention. The housing 111 is an example of a housing in the present invention, and the restricting portion 111A and the restricting rib 115A are examples of a positioning portion in the present invention. The image sensor 112 is an example of an image sensor in the present invention, and the light guide unit 112A is an example of a light guide unit in the present invention. The sensor substrate 113 is an example of the sensor substrate in the present invention, and the connector portion 113A is an example of the connector portion in the present invention. And the terminal part 113B is an example of the terminal part in this invention, and the sensor holder 115 is an example of the holder in this invention. The engagement protrusion 115B and the restriction hook part 125A are examples of the movement restriction part in the present invention, and the contact glass 120 is an example of the cover glass in the present invention. The holder cover 125 is an example of the holder cover in the present invention, and the support plate member 130 is an example of the support member in the present invention. The coil spring 135 is an example of an urging member in the present invention. The Y direction is an example of the first direction in the present invention, and the X direction is an example of the second direction in the present invention. The one surface on the + Z direction side is an example of the first surface in the present invention, and the one surface on the −Z direction side is an example of the second surface in the present invention.

  Although the present invention has been described based on the embodiments, the present invention is not limited to the above-described embodiments, and various improvements and modifications can be made without departing from the spirit of the present invention. For example, in the above-described embodiment, the present invention is applied to the image reading apparatus 1 having the first reading unit 50 and the second reading unit 55, but is not limited to this mode. The present invention can be applied to any image reading apparatus that can read an image on a sheet by a reading unit while conveying the sheet.

  In the above-described embodiment, the coil spring 135 made of a metal wire is used as the urging member. However, the embodiment is not limited to this mode. As long as the sensor unit 110 can be urged in the + Z direction by being arranged between the holder cover 125 and the support plate member 130, various urging members (for example, rubber members) can be used.

DESCRIPTION OF SYMBOLS 1 Image reader 5 Main body housing | casing 10 1st housing | casing 15 2nd housing | casing 20 Conveyance guide part 25 Conveyance part 40 Reading part 50 1st reading part 55 2nd reading part 60 Circuit board 70 Flat cable 100 Reading unit 110 Sensor unit DESCRIPTION OF SYMBOLS 111 Housing 112 Image sensor 113 Sensor board 113A Connector part 115 Sensor holder 120 Contact glass 125 Holder cover 130 Support plate member 135 Coil spring

Claims (8)

A reading unit that reads an image from the sheet by changing a relative position with respect to the sheet according to a predetermined first direction;
The reading unit is
A housing having a short side extending along the first direction and a long side extending along a second direction orthogonal to the first direction, and being accommodated along a first surface of the housing located on the seat side And an image sensor having a reading surface for reading an image from the sheet, a sensor substrate housed along a second surface located on the opposite side of the first surface in the housing, and used for control relating to the image sensor, A sensor unit having
A holder having a cover glass disposed on one surface located on the sheet side, formed in a concave shape in which a side facing the cover glass is opened, and housing the sensor unit therein;
A holder cover that has a movement restricting portion that restricts relative movement in a direction away from the holder, and is arranged to cover the opening of the holder;
A plate-like support member that comes into contact with the housing of the sensor unit housed in the holder from the second surface side;
A biasing member disposed between the holder cover and the support member and biasing the sensor unit toward the cover glass;
The sensor unit is
It is positioned at a predetermined position inside the holder via the support member, the biasing member, and the holder cover ,
The support member is disposed so as to contact the housing inside the holder from the second surface side in a state where the edge of the support member is in contact with the inner wall surface of the holder. > An image reading apparatus characterized by that. The said housing and the said holder have a positioning part which positions the relative positional relationship of the said 1st surface side of the said housing, and the said cover glass side of the said holder by mutually contacting. Item 2. The image reading apparatus according to Item 1.   The image reading apparatus according to claim 1, wherein the support member is disposed at both ends of the sensor unit in the second direction. Wherein the biasing member includes an image reading apparatus according to any one of claims 1 to 3, characterized in that arranged on the first hand the central portion of the direction in the plate-like of the support member. The movement restricting portion, in the installation position of at least the biasing member, one of claims 1 to 4, characterized in that it restricts the movement of the holder cover in the direction away from the holder The image reading apparatus described in 1. The sensor unit has a connector portion to which a flat cable is connected within a predetermined range on the end side in the second direction and at a position inside the arrangement position of the urging member. An image reading apparatus according to any one of claims 1 to 5 . The support member is formed in a plate shape by an insulating material,
Wherein the biasing member includes an image reading apparatus according to any one of claims 1 to 6, characterized in that a coil spring made of metal wire. The image sensor includes a light guide that extends along the second direction on the reading surface and emits light when reading the image.
The sensor substrate has a terminal portion for causing the light guide portion to emit light at an end in the second direction on the second surface side of the sensor substrate,
The image reading apparatus according to claim 7 , wherein the support member is disposed on the second surface side of the housing so as to cover the terminal portion of the sensor substrate.

Images