JP2019161555A - Image reading device and image formation device - Google Patents

Abstract

To prevent such problems that a reading unit and the housing oscillate during transportation, to cause breakdown of an oscillation supporting coupling part, or the reading unit and the housing conflict and break down.SOLUTION: An image reading device includes a reading unit such as a sensor unit 12 having reading means such as an image sensor for optically reading a script, a housing 23 for supporting the reading unit oscillatably, a structure such as a scanner frame part 5 for housing the reading unit and the housing, and a fixed part such as a screw hole 25 provided in at least any one of the housing and the reading unit, and the reading unit and the housing are locked to the structure in such a state that oscillation is regulated, by fixing a fixing member, such as a screw 21, to the fixed part.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an image reading apparatus and an image forming apparatus.

  2. Description of the Related Art In an image reading apparatus used for a copying machine, a facsimile machine, an image scanner, etc., a transparent plate for placing an original, an image sensor for receiving light obtained from the original, and a part of the image sensor placed thereon are transparent An image reading apparatus having a holder that moves while contacting a plate is known (for example, Patent Document 1).

Patent Document 1 discloses an image having the following configuration for the purpose of preventing the transparent plate from being damaged by the image sensor or its holder when the image sensor or the holder is in contact with the transparent plate. A reader is disclosed.
That is, in an image reading apparatus having an optical scanning unit configured to press the sensor unit against the transparent member with a spring, the screw (7) is tightened from the outside of the mounting surface of the transparent member (original table glass (130a)) of the apparatus, The hole (2b) that engages with the screw (7) provided in the sensor holder (2) is pushed in the direction opposite to the direction in which the spring (4) is pressed. Thus, the optical scanning unit (the sensor holder (2) including the contact image sensor (108)) is fixed in a state where the sensor unit is not pressed (a state where the sensor unit is separated from the back surface of the document table glass (130a)). An image reading apparatus.

  However, the screw (7) fixes only the optical scanning unit (the sensor holder (2) including the image sensor (108)), and the housing (supports the sensor holder (2) so as to be rotatable (swingable)). The carriage (3) is not fixed. For this reason, the sensor holder (2) and the carriage (3) rotate (swing) during transportation / conveyance, etc., and the joint that supports the rotation (swing) is damaged, or the sensor holder (2) and the carriage (3) There is a risk of damage due to collision.

  The present invention has been made in view of the above-described circumstances, and the reading unit and the housing are swung during transportation or the like, and the coupling portion that supports the rocking is damaged, or the reading unit and the hiding collide with each other. The purpose is to prevent damage or damage.

  To achieve the above object, the present invention provides a reading unit having reading means for optically reading a document, a housing that supports the reading unit in a swingable manner, and a structure that houses the reading unit and the housing. And a fixed portion provided in at least one of the housing and the reading unit, and by fixing a fixing member to the fixed portion, the reading unit and the housing swing with respect to each other. The image reading apparatus is locked to the structure in a restricted state.

  According to the present invention, it is possible to prevent in advance problems that the reading unit and the housing are oscillated at the time of conveyance or the like, the connecting portion that supports the oscillation is damaged, or the reading unit and the housing collide with each other and are damaged. be able to.

1 is a schematic perspective view of an image forming apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view of an image reading apparatus according to an embodiment mounted on the image forming apparatus of FIG. 1. FIG. 3 is an exploded perspective view of the image reading apparatus shown in FIG. 2. 1 is a schematic cross-sectional view schematically showing the configuration and operation of an image reading apparatus and an ADF according to an embodiment of the present invention. It is a perspective view of the optical scanning unit used for the optical scanning unit of one Embodiment. FIG. 6 is a cross-sectional view around the optical scanning unit showing a posture state when the optical scanning unit of FIG. 5 is at the ADF reading position. It is a perspective view of the screw used when fixing an optical scanning unit to an ADF reading position. (A) is a partial cross-sectional view showing a state before the optical scanning unit of one embodiment is screwed, (b) is a partial cross-sectional view showing a state after the optical scanning unit of one embodiment is screwed It is. (A) is a partial cross-sectional view showing a state before the optical scanning unit of the modification is screwed, and (b) is a partial cross-sectional view showing a state after the optical scanning unit of the modification is screwed. .

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention including examples will be described in detail with reference to the drawings. In each embodiment, components (members and components) having the same function, shape, and the like will be omitted by giving the same reference numerals after being described once unless there is a possibility of confusion. In order to simplify the drawings and the description, even if the components are to be represented in the drawings, the components that do not need to be specifically described in the drawings may be omitted as appropriate. When quoting and explaining constituent elements such as published patent gazettes including background art, the reference numerals are shown in parentheses to distinguish them from those of the embodiments.

First, an image forming apparatus according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic perspective view of an image forming apparatus according to an embodiment of the present invention.
An image forming apparatus 1 shown in FIG. 1 is configured as, for example, an electrophotographic digital copier, a printer, a facsimile machine, and a digital multifunction machine having both functions. The image forming apparatus 1 includes an image forming apparatus such as a copying machine, a printer, a facsimile, a plotter, or a multifunction machine having both functions.

  The image forming apparatus 1 includes an image reading device 2 and an automatic document feeder (hereinafter abbreviated as ADF) 3 mounted on the image reading device 2. The image forming apparatus 1 executes image forming processing based on image data relating to an image of a document read by the image reading apparatus 2, and records (prints) the read image on a recording sheet as a sheet-like recording medium. You can transfer and output image files. In the image forming apparatus 1, the operations of the image reading device 2 and the ADF 3 are controlled by a built-in control unit.

The image reading apparatus 2 has a function of a flatbed scanner which is a main part of the image reading apparatus 2 and also exhibits a function of a DF scanner as a document reading apparatus in cooperation with the ADF 3. The ADF 3 is configured to be openable and closable with respect to the image reading apparatus 2 via an opening / closing mechanism such as a hinge.
The image forming apparatus 1 can be switched between a transported document reading mode in which an image of the document is read while the document is automatically transported by the ADF 3 and a placed document reading mode in which an image of the document placed on the image reading device 2 is read. It has become. The transported document reading mode is called the DF scanner mode, and the placed document reading mode is called the flatbed scanner mode.

With reference to FIGS. 2 and 3, an image reading apparatus according to an embodiment mounted on the image forming apparatus of FIG. 1 will be described. FIG. 2 is a perspective view of an image reading apparatus according to an embodiment mounted on the image forming apparatus of FIG. FIG. 3 is an exploded perspective view of the image reading apparatus shown in FIG.
As shown in FIG. 2, the image reading apparatus 2 includes a scanner cover portion 4, a scanner frame portion 5 as a structure, a contact glass 6, a slit glass 7, an inclined guide surface 8, and an inclined guide portion 9. 2 and the like, S indicates the main scanning direction, and F indicates the sub-scanning direction that intersects or is orthogonal to the main scanning direction S.

  The scanner cover portion 4 has a rectangular planar shape, and is fixed in a state where the scanner cover portion 4 is fitted into the upper edge portion of the rectangular frame-shaped scanner frame portion 5. The scanner cover unit 4 supports a contact glass 6 as a stationary document reading unit on which the document is placed in a stationary state, and a slit glass 7 as a moving document reading unit through which the document conveyed by the ADF 3 passes. Yes. Both the contact glass 6 and the slit glass 7 are made of a transparent member.

The contact glass 6 is also called a flat bed contact glass, and is composed of a plate-shaped transparent member whose reading surface is flat. As the original placed on the contact glass 6, for example, one original, a bundle of sheets as a bundle of sheet originals, a hard hard original such as a cash card or cardboard, a license, or an original in which no original jam is permitted. Etc.
The slit glass 7 is also called a DF contact glass, and is composed of a strip-shaped transparent member whose reading surface is flat. On the slit glass 7, the ADF 3 is operated so that a part of the original document that is being transported along the original transport path is separated from the original bundle of flexible cut sheets such as paper one by one. It can be made to.

  Further, the upper surface of the slit glass 7 forms an inclined surface inclined so as to form a predetermined inclination angle with respect to the upper surface of the contact glass 6. The scanner cover portion 4 has an inclined guide surface 8 that is inclined so as to form the same surface as the upper surface of the slit glass 7. Further, on the other side of the scanner cover portion 4 in the sub-scanning direction F, an inclined guide portion 9 that is inclined so as to form a predetermined angle with respect to the slit glass 7 is formed. The inclined guide portion 9 is located between the contact glass 6 and the slit glass 7, and the contact glass 6 side is located below the slit glass 7 side. Further, the inclined guide portion 9 has a function of a reference scale when a document is placed on the contact glass 6.

As shown in FIG. 3, an optical scanning unit 10 and a guide rod 11 extending along the sub-scanning direction F are disposed inside the image reading apparatus 2.
The optical scanning unit 10 is configured to include light irradiation means such as a light source, and is configured to be able to irradiate light from the light source to the image surface of the document facing the upper surface of the contact glass 6 through the contact glass 6. Has been. The optical scanning unit 10 is configured to irradiate light from a light source onto an image surface of a document conveyed while facing the upper surface of the slit glass 7 through the slit glass 7.

  Further, the optical scanning unit 10 can read the image surface of the document on the contact glass 6 while performing line scanning in the main scanning direction S, or the image of the document passing through the slit glass 7 in the main scanning direction. S can be read while scanning the line. Here, the main scanning direction S is a direction parallel to both the upper surface of the contact glass 6 and the upper surface of the slit glass 7. As described above, the optical scanning unit 10 has a scanning region extending in the main scanning direction S, and can read an image of a placed document or a transported document through the contact glass 6 or the slit glass 7 in the scanning region. It has become.

The optical scanning unit 10 is guided by the guide rod 11 so as to be movable in the sub-scanning direction F, and, depending on the position in the sub-scanning direction F, the contact glass 6 and the slit glass 7 at the upper part on both ends in the longitudinal direction. Either one or both are slidably in contact. Therefore, although the optical scanning unit 10 is movable along the guide rod 11, the inclination around the central axis of the guide rod 11 is restricted, and the sub-scanning direction F along the lower surfaces of the contact glass 6 and the slit glass 7. Can be moved to.
A specific configuration of the optical scanning unit 10 will be described later.

  The optical scanning unit 10 is driven back and forth in the sub-scanning direction F by being driven by a moving mechanism similar to that described in paragraphs [0041] to [0046] of FIG. It is movable.

With reference to FIG. 4, a schematic operation will be described while supplementing the configuration of the image reading apparatus and the ADF according to the embodiment of the present invention. FIG. 4 is a schematic cross-sectional view schematically showing the configuration and operation of the image reading apparatus and ADF according to an embodiment of the present invention. In FIG. 4, in order to simplify the drawing, the illustration of the inclined guide surface 8 and the inclined guide portion 9 shown in FIGS. 2 and 3 is omitted, and the connecting portion between the contact glass 6 and the slit glass 7 is simplified. In addition, a shading sheet 19 is disposed at the connection portion. Further, in the ADF 3 shown in FIG. 4, a portion indicated by a thick black solid line including a thick arrow represents a transport path of a document set on the ADF 3 or a document transported from the manual feed unit 18 described later.
As shown in FIG. 4, the optical scanning unit 10 of the image reading apparatus 2 is moved by the above-described moving mechanism via the guide rod 11 that is a guide member, and the lower right end of the lower surface of the slit glass 7 in FIG. It is provided so that the movement path | route between these parts can be reciprocated in the sub-scanning direction F.

  The optical scanning unit 10 is provided with a sensor unit 12 having a reading element portion as reading means indicated by a satin pattern in FIG. The sensor unit 12 includes a light source and a contact image sensor (CIS) having a longitudinal direction in the main scanning direction. The sensor unit 12 is not limited to this, and may hold a light source, a lens, a charge coupled device (CCD), and a mirror, and may be configured to scan an image in the main scanning direction. .

The optical scanning unit 10 reciprocates in the sub-scanning direction F along the guide rod 11 to read a document placed and set on the contact glass 6 or move to an ADF reading position 13 surrounded by a broken line. Then, one side of the document conveyed by the ADF 3 is read. In FIG. 4, the sensor unit 12 of the optical scanning unit 10 that has moved to the ADF reading position 13 on the left side is in a state of being tilted by tilting displacement (posture displacement or swinging) following the tilted surface of the slit glass 7. It is shown.
As described above, the sensor unit 12 having the reading means is an optical scanning unit that is capable of being tilted and displaced by the reading surface of the slit glass 7 coming into contact with the inclined surface formed to be inclined with respect to the reading surface of the contact glass 6. 10 is arranged.

  On the other hand, when a plurality of flexible documents such as paper are read using the ADF 3, a plurality of documents are set on a document tray 14 serving as a document table. The set originals are separated one by one by the separation unit 15, and when passing through the ADF reading position 13, the above-described sensor unit 12 and the DF reading element unit 16 indicated by a satin pattern simultaneously form both-side images of the original. It is read and discharged to a paper discharge unit 17 as a discharge unit.

  Further, a hard document such as a cash card or a license, or a document that does not allow document jam (hereinafter collectively referred to as “hard document”) passes through the ADF reading position 13 from the manual feed unit 18, and the sensor unit 12. And the DF reading element unit 16 read the double-sided images at the same time and discharge them to the paper discharge unit 17. By supplying the document from the manual feed unit 18, the document passes through a substantially straight linear conveyance path to the paper discharge unit 17. Therefore, it is possible to pass the hard document, and the jam rate of the hard document is also reduced. It is possible.

With reference to FIGS. 5-8, the structure of one Embodiment which concerns on the characteristic part of this invention is demonstrated. FIG. 5 is a perspective view of the optical scanning unit used in the optical scanning unit of the embodiment, and FIG. 6 is a cross-sectional view around the optical scanning unit showing a posture state when the optical scanning unit in FIG. 5 is at the ADF reading position. FIG. 7 is a perspective view of a screw used when the optical scanning unit is fixed to the ADF reading position. 8A is a partial cross-sectional view showing a state before the optical scanning unit is tightened with the screw of FIG. 7, and FIG. 8B is a partial cross-sectional view showing a state after the optical scanning unit is tightened with the screw of FIG. FIG.
As shown in FIGS. 5 and 6, the optical scanning unit 10 includes a sensor unit 12 as a reading unit having the reading means for optically reading a document, a housing 23 that supports the sensor unit 12 in a swingable manner, It has a scanner frame portion 5 that forms a part of a structure that houses the sensor unit 12 and the housing 23, and a plurality of springs 32 as pressing members that are mounted between the sensor unit 12 and the housing 23 in a compressed state.

  As described above, the sensor unit 12 holds a light source and a contact image sensor whose longitudinal direction is the main scanning direction, or holds a light source, a lens, a CCD (charge coupled device), and a mirror. Can be line-scanned in the main scanning direction. On both end surfaces of the sensor unit 12, a rotating shaft 12a that protrudes vertically so that the sensor unit 12 is positioned on the same axis is integrally formed. These rotation shafts 12a serve as rotation fulcrums when the sensor unit 12 is rotatably supported by the housing 23.

  In the sensor unit 12, a sensor bracket 12b is integrally formed with an inclination at a substantially central portion in the main scanning direction S. A hole 24 (see FIG. 8) through which the screw 21 shown in FIG. 7 is inserted is formed in the sensor bracket 12b. The hole 24 is formed at substantially the center in the main scanning direction S in the sensor unit 12. Further, the sensor bracket 12b is formed with a regulating surface 26 that contacts and engages with the pin portion 22 of the screw 21 shown in FIG.

In the present embodiment, the screw 21 shown in FIG. 7 functions as a fixing member so that the sensor unit 12 and the housing 23 are locked with respect to the scanner frame portion 5 in a state where the swinging is restricted. Is used.
The screw 21 is formed of a coin screw, and includes a head portion 21a formed with a slit, a screw portion 21b formed at a tip portion, and a screw portion 21b formed integrally between the head portion 21a and the screw portion 21b. And a pin portion 22 extending in a direction orthogonal to the longitudinal direction.
In the present embodiment, the screw 21 made of a coin screw is used. However, the present invention is not limited to this, and a screw that is tightened with a special tool such as a + screwdriver may be used. .

  The housing 23 has a housing shape, and as shown in FIG. 3, the lower slider portion 23a is slidably supported by the guide rod 11, and the rotating shaft 12a is interposed as shown in FIGS. The sensor unit 12 has a pair of holding arm portions 23b that hold the sensor unit 12 around its longitudinal axis so that its posture can be changed. That is, the housing 23 supports the sensor unit 12 so as to be rotatable around a rotation fulcrum formed by the rotation shaft 12a and a hole of the housing 23 through which the rotation shaft 12a is inserted and supported.

The lower slider portion 23a is formed of a cylindrical body fixed to the lower portion in the longitudinal center of the housing main body portion 23c, and the pair of holding arm portions 23b protrude from the upper portions on both ends of the housing main body portion 23c to the left side in the drawing. It is comprised by a pair of plate-shaped body.
As shown in FIG. 8, the housing 23 is formed with a screw hole 25 that engages with the screw portion 21 b of the screw 21.

  The spring 32 is a compression coil spring. One end of the spring 32 is attached to the lower surface of the sensor unit 12 on the left side in FIG. 6 from the rotating shaft 12a of the sensor unit 12, and the other end of the spring 32 is attached to the bottom surface of the housing body 23c. The unit 12 is disposed so as to press the lower surface portion of the unit 12 to the upper side (contact glass 6 side, slit glass 7 side) at a plurality of locations in the main scanning direction.

Further, the upper part of both ends of the sensor unit 12 is a pressing portion made of a protrusion having a semicircular cross section that smoothly slides in the sub-scanning direction while being in contact with the lower surface of at least one of the contact glass 6 and the slit glass 7. 20 is formed.
The sensor unit 12 can be brought into contact with the lower surface of the contact glass 6 or the slit glass 7 by the pressing portion 20 so as to have a low friction coefficient and good slidability / slidability.
In addition to the pressing portion 20, for example, provided in the upper four places on both ends of the integrated scanning optical unit (13) as described in FIGS. The upper slider part (16) which consists of the hemispherical protrusion currently formed may be sufficient.

  As described above, when the optical scanning unit 10 is at the ADF reading position 13 in FIG. 4, the sensor unit 12 swings (rotates counterclockwise) about the rotation shaft 12a and performs optical scanning in the posture shown in FIG. Unit 10 will be arranged.

  As shown in FIG. 8, when the screw 21 is tightened, the scanner frame portion 5 can be inserted through the buried hole 5a into which the head 21a of the screw 21 is buried, and the pin portion 22 and the screw portion 21b of the screw 21. And an irregularly shaped hole 5b.

Next, the operation of the main part of this embodiment will be described.
First, the operation before screw tightening shown in FIG. In this operation, the screw 21 is prepared in advance. Then, the optical scanning unit 10 is brought into a state positioned at the ADF reading position 13 shown in FIG. In this position state, the screw portion 21b and the pin portion 22 of the screw 21 are inserted through the buried holes 5a and 5b provided in the scanner frame portion 5, and the screw portion 21b is inserted into the hole 24 of the sensor bracket 12b.

  Next, the operation after screw tightening shown in FIG. In this operation, the screw 21 is further tightened against the biasing force of the spring 32, whereby the screw portion 21 a of the screw 21 is engaged with the screw hole 25 of the housing 23 and tightened. As a result, the pin portion 22 provided on the screw 21 and the regulating surface 26 of the sensor bracket 12b start to engage, whereby the sensor unit 12 rotates counterclockwise about the rotation shaft 12a via the sensor bracket 12b. Moment occurs. As a result, the pressing portion 20 of the sensor unit 12 does not hit the slit glass 7, that is, the pressing portion 20 is in a non-contact state away from the slit glass 7, and the swinging of the sensor unit 12 and the housing 23 is regulated. In this state, the optical scanning unit 10 is fixed with respect to the scanner frame portion 5.

  As described above, in this embodiment, by simply fastening the screw 21 having the pin portion 22, the mutual swinging of the sensor unit 12 and the housing 23 is restricted, and the structure of the sensor unit 12 and the housing 23 ( Both locking to the scanner frame 5) can be realized. With such a simple configuration, the oscillating regulation and locking operability are excellent.

  The fixing member (screw) is not limited to the above embodiment, and may be detachable from the image reading apparatus. This is because it is also included in the scope of the invention that the screw is tightened only at the time of transportation / transportation, and the screw is collected by the service person when the transportation / transportation is completed.

  As described above, according to the present embodiment, the sensor unit (reading unit) and the housing are swung during transportation / transport, etc., and the coupling portion for swinging support is damaged, or the sensor unit (reading unit) It is possible to prevent problems that the housings collide with each other and are damaged.

Here, a little supplement to the prior art. Conventionally, a lock mechanism for fixing the optical scanning unit is provided in order to prevent breakage during transportation, but the lock mechanism is often provided on the upstream side in the sub-scanning direction in order to reduce the movement distance after release. .
Since the sensor unit is locked against the slit glass (transparent member) with a spring, etc., the slit glass is scratched by the vibration and impact during transportation, or the pressing part of the sensor unit is rubbed. There is also a problem such as dust coming out inside the reader. According to the present embodiment, as described above, the above problem can also be solved.

With reference to FIG. 9, the modification of one Embodiment shown in FIGS. 1-8 is demonstrated. FIG. 9A is a partial cross-sectional view showing a state before the optical scanning unit according to the modified example is tightened with the screw of FIG. 7, and FIG. 9B is an optical scanning unit according to the modified example tightened with the screw of FIG. It is a partial sectional view showing the latter state.
9 is different from the embodiment of FIGS. 1 to 8 only in using the optical scanning unit 10A instead of the optical scanning unit 10.
The optical scanning unit 10A is different from the optical scanning unit 10 only in using the housing 23A instead of the housing 23. Compared with the housing 23, the housing 23A is a screw hole 25A with a bottom wall 27 that prevents the tip of the screw portion 21a from penetrating instead of the screw hole 25 through which the tip of the screw portion 21a of the screw 21 passes. Is different.

  According to the above modification, the tip of the screw portion 21a of the screw 21 does not penetrate the screw hole 25 and hits the screw hole bottom wall 27 of the housing 23A. Therefore, the amount of tightening of the screw 21 can be restricted during fixing. If the screw is tightened too much, the housing may be pulled too close and the sensor unit hole area may be pinched by the housing and the screw pin, causing damage. Can be prevented.

In the said embodiment and modification, it can be said that the following aspects and effects were substantially described.
That is, the first aspect is a reading unit such as a sensor unit 12 having reading means such as an image sensor for optically reading a document, a housing such as a housing 23 that supports the reading unit so as to be swingable, a reading unit, A structure such as a scanner frame portion 5 that accommodates the housing, and a fixed portion such as a screw hole 25 provided in at least one of the housing and the reading unit, and a fixing member such as a screw 21 as a fixed portion By fixing to the structure, the reading unit and the housing are locked to the structure in a state in which the swinging is restricted.

  With this configuration, according to the first aspect, the sensor unit (reading unit) and the housing are swung during transportation / transportation, etc., and the coupling portion supporting the swinging is damaged, or the sensor unit (reading unit) It is possible to prevent problems that the housings collide with each other and are damaged.

According to a second aspect, in the first aspect, the reading unit is configured to be movable in an orthogonal direction orthogonal to a reading direction such as a main scanning direction S in which an original is read by the reading unit. It was provided at the approximate center in the reading direction of the reading unit.
With this configuration, according to the second aspect, the center of gravity of the optical scanning unit (reading unit and housing) often comes near the center in the reading direction, and the optical scanning unit (reading unit and housing) is more stable. Can be fixed.

  According to a third aspect, in the first or second aspect, the fixing member includes a screw portion such as a screw 21a formed at the tip portion, a pin portion 22 that extends in a direction perpendicular to the longitudinal direction of the screw portion, and the like. The fixed portion of the reading unit includes a hole such as a hole 24 through which the screw portion of the fixing member is inserted, and a regulating surface that engages with the pin portion and restricts the swinging of the reading unit. 26 and the like, and a screw hole such as a screw hole 25 into which the screw portion is tightened is formed in the fixed portion of the housing.

According to a fourth aspect, in the third aspect, the fixed portion of the housing is a screw hole with a bottom wall that prevents penetration of the tip of the screw portion, and the screw portion is tightened into the screw hole with the bottom wall. When the pin unit engages with the regulating surface of the reading unit, the swinging of the reading unit is regulated.
With this configuration, according to the fourth aspect, since the tip of the screw portion of the screw does not penetrate the screw hole but hits the bottom wall of the screw hole of the housing, the amount of screw tightening can be restricted during fixing.

According to a fifth aspect, in the third or fourth aspect, the fixing member is a coin screw.
With this configuration, according to the fifth aspect, the user or the service person can fix the reading unit and the housing more easily without using a dedicated tool such as a driver.

  According to a sixth aspect, in any one of the first to fifth aspects, a stationary document reading unit such as a contact glass 6 on which a document is placed and a reading surface inclined with respect to the reading surface of the stationary document reading unit are provided. A moving document reading unit such as a slit glass 7 through which a document passes, a discharge unit such as a paper discharge unit 17 that discharges a document that has passed through the moving document reading unit, and a discharge unit that passes through the moving document reading unit. Is provided between the reading unit and the housing, which presses the reading means against the linear conveyance path for conveying the document substantially linearly, the reading surface of the stationary document reading unit, and the inclined reading surface of the moving document reading unit. And a pressing member such as a spring 32. The reading unit and the housing are provided so as to be reciprocally movable between the stationary document reading unit and the moving document reading unit.

  According to a seventh aspect, in the sixth aspect, the reading unit is disposed in the reading unit so as to be capable of being inclined and displaced by contacting the reading surface of the stationary document reading unit and the inclined reading surface of the moving document reading unit, A position where the image of the document placed on the stationary document reading unit and the image of the document passing through the moving document reading unit are selectively read, and the reading unit does not contact the reading surface of the moving document reading unit. In the state, the reading unit and the housing are locked to the structure.

  According to an eighth aspect, in any one of the first to seventh aspects, an automatic document conveyance device that conveys the document to the moving document reading unit is provided.

  A ninth aspect is an image forming apparatus including the image reading apparatus according to any one of the first to eighth aspects.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the specific embodiments, and the present invention described in the claims is not specifically limited by the above description. Various modifications and changes are possible within the scope of the above. For example, the technical matters described in the above embodiments and examples may be appropriately combined.

  As described in the means for solving the problem, the fixing member (screw) is not a constituent requirement of the image reading apparatus. This is because, for example, the screw is tightened only at the time of conveyance / transportation, and the screw may be collected by the service person when the conveyance / transportation is completed.

  The “fixed portion provided in at least one of the housing and the reading unit” described in the means for solving the problem includes the following aspects. That is, in the embodiment, the screw hole 25 as the fixed portion is provided in the housing 23. However, after providing the hole in which the screw is engaged on the sensor unit 12 side, It is also possible to replace with a mode having a configuration (pin portion 22 or the like) that regulates swinging.

  The effects appropriately described in the embodiments of the present invention are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. It is not a thing.

1 Image forming apparatus 2 Image reading apparatus 3 ADF
4 Scanner cover part 5 Scanner frame part (example of structure)
6 Contact glass 7 Slit glass 10, 10A Optical scanning unit 11 Guide rod 12 Sensor unit (an example of a reading unit)
13 ADF reading position 14 Document tray 15 Separating unit 16 DF reading element unit 17 Paper discharging unit 18 Manual feeding unit 20 Pressing unit 21 Screw (an example of a fixing member)
22 Pin part 23 Housing 24 Hole 25 Screw hole (an example of a fixed part)
26 Restricting surface 27 Bottom wall 32 of screw hole 32 Pressing member

JP 09-238216 A

Claims (10)

A reading unit having reading means for optically reading a document;
A housing for swingably supporting the reading unit;
A structure housing the reading unit and the housing;
A fixed portion provided in at least one of the housing and the reading unit,
An image reading apparatus in which a fixing member is fixed to the fixed portion, and the reading unit and the housing are locked with respect to the structure in a state in which the swinging of the reading unit and the housing are restricted. The image reading apparatus according to claim 1,
The reading unit is configured to be movable in an orthogonal direction orthogonal to a reading direction in which the document is read by the reading unit;
An image reading apparatus, wherein the fixed portion is provided at substantially the center of the reading unit in the reading direction. The image reading apparatus according to claim 1 or 2,
The fixing member includes a screw portion formed at a tip portion and a pin portion extending in a direction perpendicular to the longitudinal direction of the screw portion,
The fixed portion of the reading unit is formed with a hole through which the screw portion of the fixing member is inserted, and a restriction surface that engages with the pin portion and restricts swinging of the reading unit,
The image reading apparatus according to claim 1, wherein a screw hole into which the screw portion is tightened is formed in the fixed portion of the housing. The image reading apparatus according to claim 3.
The fixed portion of the housing is a screw hole with a bottom wall that prevents penetration of the tip of the screw portion;
When the screw portion is tightened into the screw hole with the bottom wall, the pin portion engages with the restriction surface of the reading unit, so that swinging of the reading unit is restricted. An image reading apparatus. The image reading apparatus according to claim 3 or 4,
The image reading apparatus, wherein the fixing member is a coin screw. The image reading apparatus according to any one of claims 1 to 5,
A stationary document reading unit for placing a document;
A moving document reading unit through which a document passes, connected with a reading surface inclined with respect to the reading surface of the stationary document reading unit;
A discharge unit that discharges the document that has passed through the moving document reading unit;
A linear conveyance path for conveying the document substantially linearly through the moving document reading unit to the discharge unit;
A pressing member provided between the reading unit and the housing for pressing the reading unit against the reading surface of the stationary document reading unit and the inclined reading surface of the moving document reading unit. ,
The image reading apparatus, wherein the reading unit and the housing are provided so as to be reciprocally movable between the stationary document reading unit and the moving document reading unit. The image reading apparatus according to claim 6.
The reading unit is disposed in the reading unit so as to be tilted and displaceable by contacting the reading surface of the stationary document reading unit and the inclined reading surface of the moving document reading unit. It is configured to selectively read an image of a placed document and an image of a document passing through the moving document reading unit,
The image reading apparatus, wherein the reading unit and the housing are locked to the structure in a position where the reading unit does not contact the reading surface of the moving document reading unit. The image reading apparatus according to any one of claims 1 to 7,
The image reading apparatus, wherein the housing supports the reading unit so as to be rotatable about a rotation fulcrum. The image reading apparatus according to any one of claims 1 to 8,
An image reading apparatus comprising an automatic document conveying device for conveying a document to the moving document reading unit.   An image forming apparatus comprising the image reading apparatus according to claim 1.

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