U.S. patent application number 14/211555 was filed with the patent office on 2014-10-02 for image reading apparatus.
This patent application is currently assigned to SEIKO EPSON CORPORATION. The applicant listed for this patent is SEIKO EPSON CORPORATION. Invention is credited to Koji HARA, Soichiro KII, Kohei USUDA.
Application Number | 20140292171 14/211555 |
Document ID | / |
Family ID | 51493464 |
Filed Date | 2014-10-02 |
United States Patent
Application |
20140292171 |
Kind Code |
A1 |
HARA; Koji ; et al. |
October 2, 2014 |
IMAGE READING APPARATUS
Abstract
An image reading apparatus includes a substructure, a first
opening and closing body that opens and closes the upper portion of
the substructure, and a second opening and closing body that opens
and closes the upper portion of the first opening and closing body,
and includes a locking mechanism in which the first opening and
closing body and the second opening and closing body do not enter
the opened state at the same time.
Inventors: |
HARA; Koji; (Shiojiri-shi,
JP) ; KII; Soichiro; (Shiojiri-shi, JP) ;
USUDA; Kohei; (Shiojiri-shi, JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
SEIKO EPSON CORPORATION |
Tokyo |
|
JP |
|
|
Assignee: |
SEIKO EPSON CORPORATION
Tokyo
JP
|
Family ID: |
51493464 |
Appl. No.: |
14/211555 |
Filed: |
March 14, 2014 |
Current U.S.
Class: |
312/319.2 ;
312/326 |
Current CPC
Class: |
B41J 29/13 20130101;
B41J 29/54 20130101; B41J 29/56 20130101 |
Class at
Publication: |
312/319.2 ;
312/326 |
International
Class: |
B41J 29/54 20060101
B41J029/54; B41J 29/13 20060101 B41J029/13 |
Foreign Application Data
Date |
Code |
Application Number |
Mar 26, 2013 |
JP |
2013-064508 |
Claims
1. An image reading apparatus, comprising: a substructure; a first
opening and closing body that opens and closes the upper portion of
the substructure; and a second opening and closing body that opens
and closes the upper portion of the first opening and closing body,
wherein the first opening and closing body includes a first locking
member which is positioned at a locking position that locks the
first opening and closing body with respect to the substructure
when the second opening and closing body is in an opened state,
which is positioned in a locking release position that releases the
locking of the first opening and closing body with respect to the
substructure when the second opening and closing body is in a
closed state, and which is displaced between the locking position
and the locking release position by sliding in a direction
intersecting the vertical direction, and a second locking member
which is positioned at a locking position that locks the second
opening and closing body with respect to the first opening and
closing body when the first opening and closing body is in an
opened state, which is positioned in a locking release position
that releases the locking of the second opening and closing body
with respect to the first opening and closing body when the first
opening and closing body is in a closed state, and which is
switchable between the locking position and the locking release
position by rotating.
2. The image reading apparatus according to claim 1 wherein the
first locking member is provided in an engaged state with the
second locking member, and movement of the second locking member
between the locking position and the locking release position,
along with the second locking member being displaceable by sliding
in the vertical direction between a first position that is
positioned downwards and a second position that is positioned
upwards, holds the first locking member in the locking release
position in the first position, and permits displacement of the
first locking member from the locking release position to the
locking position in the second position, in addition to the
rotating operation.
3. The image reading apparatus according to claim 2, wherein the
first opening and closing body includes a position regulating
member that permits rotation of the second locking member when the
second locking member is in the first position, and holds the
position of the second locking member in the locking release
position by regulating rotation of the second locking member when
the second locking member is in the second position.
4. The image reading apparatus according to claim 3, wherein the
first opening and closing body includes a first biasing unit that
biases the first locking member in the locking position direction,
a second biasing unit that biases the second locking member in the
locking position direction, and a third biasing unit that biases
the second locking member in the second position direction, wherein
the second opening and closing body holds the second locking member
in the first position in the closed state, and permits displacement
of the second locking member from the second position to the first
position in the opened state, and the substructure includes a
position holding portion that holds the position of the second
locking member in the locking release position by engaging the
second locking member when the first opening and closing body and
the second opening and closing body are in the closed state.
5. The image reading apparatus according to claim 1, wherein the
second locking member is in a state of ordinarily protruding
towards the second opening and closing body from an opening portion
formed in the first opening and closing body.
6. The image reading apparatus according to claim 4, wherein the
second biasing unit serves as a third biasing unit.
7. The image reading apparatus according to claim 2, wherein an
engagement face that engages the first locking member in the second
locking member includes a first engagement surface formed in a
circular arc surface that holds the first locking member in the
locking release position by engaging the first locking member when
the second locking member rotates, and a second engagement surface
formed in an inclined surface in which the first locking member is
displaced between the locking release position and the locking
position by engaging the first locking member when the second
locking member slides between the first position and the second
position.
Description
BACKGROUND
[0001] 1. Technical Field
[0002] The present invention relates to an image reading apparatus
represented by a scanner.
[0003] 2. Incorporated by Reference
[0004] The entire disclosure of Japanese Patent Application No.
2013-064508, filed Mar. 26, 2013 is expressly incorporated by
reference herein
[0005] 3. Related Art
[0006] There are cases where a scanner, which is an example of an
image reading apparatus, is provided on the upper portion of a
recording apparatus, which is an example of a substructure,
performing recording on a recording sheet. In this case, the
scanner is provided to open and close the upper portion of the
recording apparatus for maintenance of the recording apparatus. The
opening and closing is frequently performed by a rotation operation
of the scanner.
[0007] Further, a cover that opens and closes the scanner unit is
provided at the upper portion of the scanner, and the cover is in
many cases provided so as to open and close the scanner unit
through a rotation operation. Alternatively, there are cases in
which an automatic document transport device called an automatic
document feeder (ADF) is provided on the upper portion of a scanner
in place of such a cover; however, in many cases, the automatic
document feeder is also provided so as to open and close the
scanner unit by rotating.
[0008] Here, because the ADF in particular is heavy, there is
concern of the ADF also opening due to momentum when the scanner is
opened, and since the scanner is also heavy, there is concern of
the apparatus falling over due to both being opened. In order to
avoid such a problem, an apparatus configured such that in a case
where one of the scanner and the cover or ADF is opened, the other
is locked and both do not open at the same time has been proposed,
as in JP-A-2006-42003, JP-A-2011-71820, and JP-A-2011-71929.
[0009] Here, the scanner is in many cases heavier than the cover or
ADF on the upper portion thereof, and a comparatively strong force
is necessary when opening the scanner. Therefore, a greater force
acts more easily at a locking location that locks the scanner with
respect to the substructure than the locking location that locks
the cover or ADF with respect to the scanner.
[0010] However, since the locking mechanisms of any of
JP-A-2006-42003, JP-A-2011-71820, and JP-A-2011-71929 have a
configuration that locks the scanner with respect to the
substructure using an arm (lever) that rotates, there is concern of
the lock being released by the arm receiving force in the locking
release direction due to a large force when the scanner in a locked
state is to be opened, alternatively there is concern of the arm
not withstanding a load and being damaged.
SUMMARY
[0011] An advantage of some aspects of the present invention is to
provide an opening and closing body provided on the upper portion
of a substructure that more strongly locks with respect to the
substructure.
[0012] According to a first aspect of the invention, there is
provided an image reading apparatus, including a substructure; a
first opening and closing body that opens and closes the upper
portion of the substructure; and a second opening and closing body
that opens and closes the upper portion of the first opening and
closing body; in which the first opening and closing body includes
a first locking member which is positioned at a locking position
that locks the first opening and closing body with respect to the
substructure when the second opening and closing body is in an
opened state, which is positioned in a locking release position
that releases the locking of the first opening and closing body
with respect to the substructure when the second opening and
closing body is in a closed state, and which is displaced between
the locking position and the locking release position by sliding in
a direction intersecting the vertical direction, and a second
locking member which is positioned at a locking position that locks
the second opening and closing body with respect to the first
opening and closing body when the first opening and closing body is
in an opened state, which is positioned in a locking release
position that releases the locking of the second opening and
closing body with respect to the first opening and closing body
when the first opening and closing body is in a closed state, and
which is switchable between the locking position and the locking
release position by rotating.
[0013] According to the aspect, the first locking member that locks
with respect to the substructure the first opening and closing body
that opens and closes the upper portion of the substructure is
displaced between a locking position that locks the first opening
and closing body and a locking release position that releases the
locking thereof by sliding in a direction that intersects the
vertical direction. Accordingly, when the first opening and closing
body is opened with the first opening and closing body provided on
the upper portion of the substructure in the opened state, even if
a large force is applied to the first locking member, it is
possible for the first locking member to reliably resist such a
large force, and possible to more strongly lock the first opening
and closing body with respect to the substructure.
[0014] According to a second aspect of the invention, it is
preferable that the first locking member of the first aspect be
provided in an engaged state with the second locking member, and
movement of the second locking member between the locking position
and the locking release position, along with the second locking
member being displaceable by sliding in the vertical direction
between a first position that is positioned downwards and a second
position that is positioned upwards, hold the first locking member
in the locking release position in the first position, and permit
displacement of the first locking member from the locking release
position to the locking position in the second position, in
addition to the rotating operation.
[0015] According to the aspect, since the configuration is able to
perform switching of both the position and the posture by engaging
the first locking member and the second locking member, it is
possible to achieve better assembling workability and saving on
installation space compared to a configuration in which the first
locking member and the second locking member are provided at
separate positions.
[0016] According to a third aspect of the invention, it is
preferable that the first opening and closing body of the second
aspect include a position regulating member that permits rotation
of the second locking member when the second locking member is in
the first position, and hold the position of the second locking
member in the locking release position by regulating the rotation
of the second locking member when the second locking member is in
the second position. According to the aspect, the actions and
effects of the either of the first or second aspects are obtained
in a configuration including a position regulating member.
[0017] According to a fourth aspect of the invention, it is
preferable that the first opening and closing body of the third
aspect include a first biasing unit that biases the first locking
member in the locking position direction, a second biasing unit
that biases the second locking member in the locking position
direction, and a third biasing unit that biases the second locking
member in the second position direction, and the second opening and
closing body hold the second locking member in the first position
in the closed state, and permits displacement of the second locking
member from the second position to the first position in the opened
state, and the substructure include a position holding portion that
holds the position of the second locking member in the locking
release position by engaging the second locking member when the
first opening and closing body and the second opening and closing
body are in the closed state.
[0018] According to the aspect, since the locking position and the
locking release position of the first locking member and the second
locking member are switched therebetween due to the biasing force
of each biasing unit, it is possible to achieve simplification of
the apparatus configuration and cost reductions.
[0019] According to a fifth aspect of the invention, it is
preferable that the second locking member of any one of the first
to fourth aspects be in a state of ordinarily protruding towards
the second opening and closing body from an opening portion formed
in the first opening and closing body.
[0020] When the second locking member that locks the second opening
and closing body with respect to the first opening and closing body
is in a non-protruding state from the first opening and closing
body when the second opening and closing body is open, there is
concern of the second opening and closing body being closed with a
medium placed as is on an opening portion through which the second
locking member protrudes. In this case, the medium has the
potential to be punctured by the second locking member protruding
from the opening portion. However, according to the aspect, since
the second locking member is in a state of ordinarily protruding
from the opening portion, there is no concern of the user placing
the medium on the opening portion, and it is possible to avoid the
above-described defects.
[0021] According to a sixth aspect of the invention, it is
preferable that the second biasing unit of the fourth or fifth
aspects serve as the third biasing unit.
[0022] According to the aspect, since the second biasing unit
serves as the third biasing unit, it is possible to achieve
simplification of the apparatus configuration and cost
reductions.
[0023] According to a seventh aspect of the invention, it is
preferable that an engagement surface that engages the first
locking member in the second locking member of any one of the
second to sixth aspects include a first engagement surface formed
in a circular arc surface that holds the first locking member in
the locking release position by engaging the first locking member
when the second locking member rotates, and a second engagement
surface formed in an inclined surface in which the first locking
member is displaced between the locking release position and the
locking position by engaging the first locking member when the
second locking member slides between the first position and the
second position.
[0024] According to the present aspect, since the engagement
surface that engages with the first locking member in the second
locking member is configured of an circular arc surface that
functions when the second locking member rotates and an inclined
surface that functions when the first locking member and the second
locking member slide, it is possible to form the appropriate
engagement state according to the operation of each locking
member.
BRIEF DESCRIPTION OF THE DRAWINGS
[0025] The invention will be described with reference to the
accompanying drawings, wherein like numbers reference like
elements.
[0026] FIG. 1 is a perspective view of a printer according to an
aspect of the invention.
[0027] FIG. 2 is a rear perspective view of the printer according
to the aspect of the invention.
[0028] FIG. 3 is a perspective view showing an automatic document
feeder (ADF) in the printer according to the aspect of the
invention in an opened state.
[0029] FIG. 4 is a perspective view showing a scanner unit in the
printer according to the aspect of the invention in an opened
state.
[0030] FIG. 5 is an internal perspective projection of the scanner
unit in the printer according to the aspect of the invention.
[0031] FIG. 6A is a perspective view of the automatic document
feeder (ADF) and a locking mechanism of the scanner unit in the
printer according to the aspect of the invention.
[0032] FIG. 6B is a side view of a first locking member in the
locking mechanism.
[0033] FIG. 7A is a side view of a second locking member in the
locking mechanism.
[0034] FIG. 7B is a side view of a position regulating member that
regulates the position of the second locking member.
[0035] FIG. 8 is a side view of the locking mechanism when the
automatic document feeder (ADF) and the scanner unit are in a
closed state in the apparatus main body.
[0036] FIG. 9A is a side view of the locking mechanism when the
automatic document feeder (ADF) is in an opened state.
[0037] FIG. 9B is a perspective view showing the second locking
member in the scanner unit when the automatic document feeder (ADF)
is in an opened state.
[0038] FIG. 10A is a side view of the locking mechanism when the
scanner unit is in an opened state with respect to the apparatus
main body.
[0039] FIG. 10B is a perspective view of the first locking member
when the scanner unit is in an opened state with respect to the
apparatus main body.
DESCRIPTION OF EXEMPLARY EMBODIMENTS
[0040] Below, embodiments of the invention will be described with
reference to the drawings. Moreover, because the same
configurations in each embodiment have the same reference symbols
applied thereto, description thereof will be made only in the first
embodiment, and description of the configurations will not be
repeated in subsequent embodiments.
[0041] FIG. 1 is a perspective view of a printer according to the
aspect of the invention, FIG. 2 is a rear perspective view of the
printer of the aspect of the invention, FIG. 3 is a perspective
view showing an automatic document feeder (ADF) in a printer
according to the aspect of the invention in an opened state, FIG. 4
is a perspective view showing a scanner unit in the printer
according to the aspect of the invention in an opened state, and
FIG. 5 is an internal perspective projection of the scanner unit in
the printer according to the aspect of the invention.
[0042] FIG. 6A is a perspective view of the automatic document
feeder (ADF) and a locking mechanism of the scanner unit in the
printer according to the aspect of the invention, FIG. 6B is a side
view of a first locking member in the locking mechanism, FIG. 7A is
a side view of a second locking member in the locking mechanism,
FIG. 7B is a side view of a position regulating member that
regulates the position of the second locking member, and FIG. 8 is
a side view of the locking mechanism when the automatic document
feeder (ADF) and the scanner unit are in a closed state in the
apparatus main body.
[0043] FIG. 9A is a side view of the locking mechanism when the
automatic document feeder (ADF) is in an opened state, FIG. 9B is a
perspective view showing the second locking member in the scanner
unit when the automatic document feeder (ADF) is in an opened
state, FIG. 10A is a side view of the locking mechanism when the
scanner unit is in an opened state with respect to the apparatus
main body, and FIG. 10B is a perspective view of the first locking
member when the scanner unit is in an opened state with respect to
the apparatus main body.
[0044] In addition, for the X-Y-Z coordinate system shown in each
of the drawings, the X direction indicates the width direction of
the recording apparatus, the Y direction indicates the depth
direction of the recording apparatus, and the Z direction indicates
the height direction of the recording apparatus. Moreover, in each
of the drawings, the -Y direction side is the front surface side of
the apparatus, and the +Y direction side is the rear surface side
of the apparatus.
[0045] With reference to FIG. 1 and FIG. 2, an image reading
apparatus 10 according to the aspect of the invention is shown. The
image reading apparatus 10 includes an apparatus main body 12 as a
"substructure", a scanner unit 14 as the "first opening and closing
body" that opens and closes the upper portion of the apparatus main
body 12, and an automatic document feeder (ADF) 16 (below, referred
to as "ADF 16") as a "second opening and closing body" that opens
and closes the upper portion of the scanner unit. The apparatus
main body 12 includes an operation panel 18 for the user to operate
the image reading apparatus 10 in the front surface side of the
apparatus (-Y direction side in FIG. 1), a discharge port 20 opened
in the front surface side of the apparatus, and a medium
accommodation portion 22 arranged below the discharge port 20.
[0046] The medium accommodation 22 includes an upper side tray 24
that is positioned to the upper side in the Z-axis direction, and a
lower side tray 26 that is positioned below the upper side tray 24.
The upper side tray 24 and the lower side tray 26 are each
configured to be attachable to and removable from the apparatus
front side (-Y direction in FIG. 3) with respect to the apparatus
main body 12. In addition, the operation panel 18 is configured to
include a power button, a print settings button, a display panel
and the like for operating the image reading apparatus 10.
[0047] In addition, a transport portion that transports a medium P,
not shown, from the medium accommodation portion 22, a recording
portion that performs recording on the recording surface of the
medium P, a discharge portion that discharges the medium P on which
recording is performed by the recording portion from the discharge
port 20, and a transport path that transports medium P to the
discharge portion from the medium accommodation portion 22 via the
recording portion are provided in the apparatus main body 12.
[0048] In addition, the apparatus main body 12 includes a rear
surface cover 28 configured to be rotatable with respect to the
apparatus main body 12, in the rear surface side of the apparatus
(+Y direction side in FIG. 2). Moreover, in FIG. 2, the rear
surface cover 28 is in a closed state with respect to the apparatus
main body 12. In addition, the rear surface cover 28 includes a
first medium support tray 30 rotatably connected with respect to
the rear surface cover 28 on the free end side of the rear surface
cover.
First Embodiment
[0049] Next, the scanner unit 14 and the ADF 16 will be described.
With reference to FIG. 1 and FIG. 3, the ADF 16 is arranged on the
upper portion of the scanner unit 14. The ADF 16 is connected to
the scanner unit 14 to be rotatable via a rotation axis 32 at the
end portion on the +Y direction side in the upper portion of the
scanner unit 14. Therefore, in the present embodiment, the ADF 16
opens and closes the end portion on the -Y direction side by
rotating with respect to the scanner unit 14 as the free end.
[0050] In addition, the ADF 16 includes a second medium support
tray 34, a medium transport portion 36, a medium discharge stack
38, and a document pushing member 40 provided on the lower surface
of the ADF 16. The medium transport portion 36 transports the
medium P supported by the second medium support tray 34 in a state
(refer to FIG. 1) in which the ADF 16 is closed with respect to the
scanner unit 14, and discharges the medium to the medium discharge
stack 38 after being read by the optical scanning portion 44 (refer
to FIG. 5) in the ADF reading surface 42 (refer to FIG. 3) provided
on the upper portion of the scanner unit 14.
[0051] Next, the configuration of the scanner unit 14 will be
described with reference to FIG. 3 to FIG. 5. The scanner unit 14
is arranged on the upper portion of the apparatus main body 12, as
shown in FIG. 3 and FIG. 4. In addition, the scanner unit 14 is
rotatably connected to the apparatus main body 12 via the rotation
shaft 46 at the end portion on the +Y direction side in the upper
portion of the apparatus main body 12. Therefore, in the present
embodiment, the scanner unit 14 opens and closes by rotating the
end portion on the -Y direction side with respect to the apparatus
main body 12 as a free end.
[0052] In addition, the scanner unit 14 opens at least a portion of
the movement region 50 in the X-axis direction of the carriage (not
shown) via the opening portion 48 provided in the upper portion of
the apparatus main body 12 when in an opened state (refer to FIG.
4) with respect to the apparatus main body 12.
[0053] Therefore, when a paper jam of the medium P occurs in the
movement region 50 of the carriage, the user is able to access with
respect to the movement region 50 via the opening 48 by putting the
scanner unit 14 in an opened state with respect to the apparatus
main body 12, and it is possible to easily remove the jammed medium
P.
[0054] In addition, the scanner unit 14 includes a document
placement surface 52 (refer to FIG. 3), an optical scanning portion
44, and a locking mechanism 56. The document placement surface 52
is provided on the upper portion of the scanner unit 14. The
document placement surface 52 is formed from a transparent glass
plate. In the present embodiment, an document reading origin point
S for reading the document placed on the document placement surface
52 by the optical scanning portion 44 in the end portion on the -X
direction side of the document placement surface 52 is set.
Moreover, the periphery of the document placement surface 52
becomes one level higher than the document placement surface 52,
and, thereby, it becomes possible to position the corner portion of
the document by bumping with respect to the document reading origin
point S.
[0055] In addition, when the ADF 16 is in an opened state with
respect to the scanner unit 14, the medium P is placed on the
document placement surface 52. Thereafter, the medium P is in a
readable state by closing the ADF 16 with respect to the scanner
unit 14. In this case, for the medium P placed on the document
placement surface 52, the surface of the opposite side of the
medium P to the side facing the document placement surface 52 is
pressed by a document pushing member 40 provided in the ADF 16.
[0056] In so doing, the medium P is uniformly pressed with respect
to the document placement surface 52, and the medium P does not
float away from the document placement surface 52. Moreover, the
size of the document pushing member 40 is set to the same size as
the size of the document placement surface 52 so that all regions
of the surface of the opposite side of the medium P placed on the
document placement surface 52 are pressed.
[0057] In addition, an ADF reading surface 42 is provided on the +X
direction side of the document placement surface 52 in the upper
portion of the scanner unit 14. The ADF reading surface 42 is
provided at a position at which the medium P transported by the
medium transport portion 36 of the ADF 16 is readable in a case in
which the optical scanning unit 54 described below is in a standby
position.
[0058] In addition, with reference to FIG. 5, the optical scanning
portion 44 includes a reading portion 58 and a driving mechanism
60. The reading portion 58 extends in the Y-axis direction in FIG.
5, and corresponds to the length in the Y-axis direction of the
document placement surface 52 and the ADF reading surface 42. The
driving mechanism 60 extends along the X-axis direction in FIG. 5.
The driving mechanism 60 is driven to rotate by a driving source
(not shown), and includes a driving pulley 62 provided at the end
portion of the scanner unit 14 on the +X direction side, a driven
pulley 64 provided at the end portion of the scanner unit 14 on the
-X direction side, and an endless belt 66 wound between the driving
pulley 62 and the driven pulley 64.
[0059] The endless belt 66 is connected to the reading portion 58,
and the reading portion 58 is moved in the +X direction and the -X
direction along the X-axis direction according to the rotation of
the driving pulley 62. In so doing, it is possible to perform
reading of the surface of the medium P placed on the document
placement surface 52 opposing the document placement surface.
Moreover, in the present embodiment, the reading position (refer to
FIG. 3) of the ADF reading surface 42 is set along with the
position of the reading portion 58 shown in FIG. 5 being the
standby position of the reading portion.
[0060] Next, the locking mechanism 56 according to the present
embodiment will be described in detail. With reference to FIG. 5
and FIG. 6A, a locking mechanism 56 is provided at each of the end
portion on the +X direction side and the end portion on the -X
direction side in the X-axis direction in the scanner unit 14. The
locking mechanism 56 includes a first locking member 68, a second
locking member 70, a position regulating member 72, a first biasing
member 74 as a "first biasing unit", and a second biasing member 76
as a "second biasing unit" serving as a "third biasing unit".
[0061] With reference to FIG. 6B, the first locking member 68
includes a hook portion 78, an engagement portion 80 and a biasing
member holding portion 82. The engagement portion 80 includes an
engagement surface 84 inclined to the -Y direction side in the
Z-axis direction in FIG. 6B.
[0062] With reference to FIG. 7A, the second locking member 70
includes a hook portion 86, an engagement portion 88, a biasing
member holding portion 90, a first pin 92, and a second pin 94. The
engagement portion 88 further includes a first engagement surface
96 formed with a circular arc surface, a second engagement surface
98 formed with an inclined surface, and a third engagement surface
100 formed as an inclined surface in the surface of the opposite
side to the second engagement surface 98 in the Y-axis direction.
The first pin 92 is formed as a columnar-shaped pin, notches are
further formed at both end thereof in the Y-axis direction in FIG.
7A, and notch surfaces 92a and 92b are formed. Moreover, the center
of the circular arc of the first engagement surface 96 in the
present embodiment is set so as to match the central axis of the
first pin 92.
[0063] With reference to FIG. 6A and FIG. 7B, the position
regulating member 72 extends in the Z-axis direction in FIG. 6A in
the scanner unit 14, and is formed as a pair of plate-like members
spaced apart in the X-axis direction. In addition, a second locking
member 70 is arranged between the pair of position regulating
members 72 in the X-axis direction, as shown in FIG. 6A. Each of
the position regulating members 72 includes a groove portion 102
extending in the Z-axis direction. The groove portion 102 includes
a rotation permitting portion 104, and a rotation regulating
portion 106.
[0064] The first pin 92 and the second pin 94 in the second locking
member 70 arranged between the pair of position regulating members
72 as shown in FIG. 6A are engaged with the groove portion 102 of
the position regulating members 72 to be slidable in the Z-axis
direction in FIG. 6A. That is, the second locking member 70 slides
in the Z-axis direction while holding the posture of the second
locking member 70 through the notch surfaces 92a and 92b of the
first pin 92 contacting the groove portion 102.
[0065] Here, when the first pin 92 of the second locking member 70
is positioned at the rotation permitting portion 104 of the groove
portion 102, the contact state between the notch surfaces 92a and
92b, and the groove portion 102 is cancelled, and the second
locking member 70 becomes rotatable with the first pin 92 as a
rotation fulcrum. In this case, the second pin 94 is positioned at
the end portion of the groove portion 102 in the -Z direction, and
is displaced from the end portion of the groove portion 102 in the
-Z direction to the rotation regulating portion 106 while rotating
in the counter clockwise direction according to the rotation of the
second locking member 70. Then, the rotation regulating portion 106
is configured so as to regulate the rotation in the counter
clockwise direction of a predetermined angle or greater in the
second locking member 70.
[0066] Next, with reference to FIG. 8, one end of the first biasing
member 74 is attached to the scanner unit 14, and the other end is
attached to the biasing member holding portion 82 of the first
locking member 68. Therefore, the first biasing member 74 biases
the first locking member 68 towards the -Y direction in FIG. 8,
that is, the lock position that locks the scanner unit 14 described
below to the apparatus main body 12. Moreover, in the present
embodiment, the first biasing member 74 is configured as a spring
member.
[0067] In addition, one end of the second biasing member 76 is
attached to the scanner unit 14, and the other end is attached to
the biasing member holding portion 90 of the second locking member
70. Therefore, the second biasing member 76 biases the second
locking member 70 in the +Z direction in FIG. 8. Moreover, in the
present embodiment, the second biasing member 76 is configured as a
spring member.
[0068] In addition, when the scanner unit 14 is in a closed state
with respect to the apparatus main body 12, a concavity 108 (refer
to FIG. 8) in which the hook portion 78 of the first locking member
68 is received is provided in the apparatus main body 12.
Furthermore, when the scanner unit 14 is in a closed state with
respect to the apparatus main body 12, a locking portion 110 (refer
to FIG. 9A) that locks the scanner unit 14 so as not to open with
respect to the apparatus main body 12 by locking the hook portion
78 of the first locking member 68 is provided in the apparatus main
body 12. Furthermore, an inclined face is included in the upper
portion of the apparatus main body 12, and a position holding
portion 112 that holds the position of the second locking member 70
is provided.
[0069] In addition, when the ADF 16 is closed with respect to the
scanner unit 14, a concavity 114 in which the hook portion 86 of
the second locking member 70 is received is provided in the ADF 16.
Furthermore, when the ADF 16 is in a closed state with respect to
the scanner unit 14, a locking portion 116 (refer to FIG. 10A) that
locks the ADF 16 with respect to the scanner unit 14 so as not to
open by locking the hook portion 86 of the second locking member 70
is provided in the ADF 16.
[0070] In addition, the state shown in FIG. 8 is a state in which
the scanner unit 14 is closed with respect to the apparatus main
body 12, and a state in which the ADF 16 is closed with respect to
the scanner unit 14. At this time, the first locking member 68 is
positioned at the locking release position (refer to FIG. 8) that
releases the locking of the scanner unit 14 with respect to the
apparatus main body 12. In addition, the second locking member 70
is positioned in the locking release position that releases the
locking of the ADF 16 with respect to the scanner unit 14, when the
scanner unit 14 is in the closed state with respect to the
apparatus main body 12. Furthermore, the first locking member 68
and the second locking member 70 are provided in an engaged
state.
[0071] At this time, since the ADF 16 is in a closed state with
respect to the scanner unit 14, the hook portion 86 received in the
concavity 114 via the opening portion 118 provided in the upper
portion of the scanner unit 14 and the inner surface of the
concavity 114 come into contact. In so doing, the second locking
member 70 is pressed by resisting the biasing force of the second
biasing member 76 in the -Z direction via the hook portion 86 due
to the weight of the ADF 16 itself. Therefore, the position holding
portion 112 provided in the apparatus main body 12 and the third
engagement surface 100 of the second locking member 70 are engaged.
Moreover, this position in the Z-axis direction in the second
locking member 70 is the first position (refer to FIG. 8).
[0072] In this case, the first pin 92 is positioned at the rotation
permitting portion 104 of the position regulating member 72;
however, since the position holding portion 112 and the third
engagement surface 100 are engaged, the rotation of the second
locking member 70 in the counter clockwise direction is regulated.
That is, the position holding portion 112 holds the position of the
second locking member in the locking release position by regulating
the rotation of the second locking member 70 when the second
locking member 70 is in the first position. In addition, in the
second locking member 70, rotation in the clockwise direction is
regulated by the biasing force of the second biasing member 76.
Therefore, the second locking member 70 in the state in FIG. 8 is
held in this position by the position holding portion 112 and the
second biasing member 76.
[0073] In addition, the first locking member 68 is biased in the -Y
direction in a direction intersecting the vertical direction, that
is, the Y-axis direction, by the first biasing member 74. However,
because the engagement surface 84 of the first locking member 68
and the first engagement surface 96 of the second locking member 70
are in contact, and enter an engaged state, displacement in the -Y
direction of the first locking member 68 is regulated by the first
engagement surface 96 of the second locking member 70. Therefore,
the first locking member 68 is unable to move in the locking state
in which the hook portion 78 is locked to the locking portion 110
by moving in the -Y direction, and a state in which the hook
portion 78 is only received in the concavity 108, that is, the
locking release state, is held.
[0074] Next, when the ADF 16 is put in an opened state by being
rotated with respect to the scanner unit 14 from the state in FIG.
8, because pressure from the ADF 16 in which the second locking
member 70 is pressed in the -Z direction due to its own weight is
eliminated, the first pin 92 and the second pin 94 of second
locking member 70 are moved in the +Z direction along the groove
portion 102 due to the biasing force of the second biasing member
76. That is, the second locking member 70 slides from the first
position in the +Z direction, that is, upwards. Moreover, the
position of the second locking member 70 in the Z-axis direction in
FIG. 9A is the second position (refer to FIG. 9A).
[0075] That is, when the ADF 16 is in a closed state with respect
to the scanner unit 14, the second locking member 70 is held in the
first position (refer to FIG. 8) by the ADF 16. In addition, when
the ADF 16 is in an opened state with respect to the scanner unit
14, the second locking member 70 is displaced from the second
position (refer to FIG. 9A) to the first position that is
positioned below the second position.
[0076] The engagement of the third engagement surface 100 and the
position holding portion 112 is released by the second locking
member 70 sliding in the +Z direction. Moreover, in this case,
since the first pin 92 moves from the rotation permitting portion
104, the notch surfaces 92a and 92b of the first pin 92 contact the
groove portion 102, and rotation of the second locking member 70 is
regulated.
[0077] In addition, the engagement surface 84 of the first locking
member 68 releases engagement with the first engagement surface 96
of the second locking member 70, and engages the second engagement
surface 98 due to second locking member 70 moving from a first
position (refer to FIG. 8) to a second position positioned above
the first position in the Z-axis direction. In this case, the
engagement surface 84 of the first locking member 68 moves to the
-Y direction side along a circular arc of the first engagement
surface 96 and an inclination of the second engagement surface 98
due to the biasing force of the first biasing member 74 in the -Y
direction.
[0078] That is, the first locking member 68 slides in the -Y
direction. In so doing, the hook portion 78 of the first locking
member 68 slides inside the concavity 108 of the apparatus main
body 12, and the hook portion 78 is locked by the locking portion
110. Accordingly, when the ADF 16 is in an opened state with
respect to the scanner unit 14, the first locking member 68 is
positioned at a locking position that locks the scanner unit 14 so
as not to open with respect to the apparatus main body 12.
Therefore, the first locking member 68 is able to be displaced
between the locking position and the locking release position by
sliding in a direction (Y-axis direction) intersecting the vertical
direction (Z-axis direction).
[0079] In addition, with reference to FIG. 9B, when the ADF 16 is
in an opened state with respect to the scanner unit 14, since the
second locking member 70 is in the second position (refer to FIG.
9A), the hook portion 86 is in a state of ordinarily protruding
towards the ADF 16 from the opening portion 118 provided in the
upper portion of the scanner unit 14.
[0080] Incidentally, in a case of a configuration in which the
second locking member 70 that locks the ADF 16 with respect to the
scanner unit 14 is in a non-protruding state from the scanner unit
14 when the ADF 16 is open, and the second locking member 70
protrudes in the closed state, there is concern of the ADF 16 being
closed with the medium P placed on the opening portion 118 from
which the second locking member 70 protrudes. In this case, the
medium P has the potential to be punctured by the second locking
member 70 protruding from the opening portion 118. However, since
the second locking member 70 is in a state of ordinarily protruding
from the opening portion 118, there is no concern of the user
placing the medium P on the opening portion 118, and it is possible
to avoid the above-described defects.
[0081] Next, in the state in FIG. 8, since the first locking member
68 is positioned in the locking release position, the scanner units
14 is able to attain an opened state by being rotated with respect
to the apparatus main body 12 as shown in FIG. 10A. In so doing,
the engagement state between the third engagement surface 100 of
the second locking member 70 and the position holding portion 112
of the apparatus main body 12 is cancelled. At this time, since the
second locking member 70 is positioned in the first position, the
first pin 92 is positioned at the rotation permitting portion
104.
[0082] Therefore, the second locking member 70 rotates in the
counter clockwise direction in FIG. 10A due to the biasing force of
the second biasing member 76 with the first pin 92 positioned at
the rotation permitting portion 104 as a rotation fulcrum.
Therefore, the hook portion 86 of the second locking member 70
locks the locking portion 116 by moving in the concavity 114 of the
ADF 16. Therefore, the second locking member 70 is at the locking
position that locks the ADF 16 with respect to the scanner unit 14
when the scanner unit 14 is in an opened state with respect to the
apparatus main body 12. That is, the second locking member 70 is
switchable between the locking position that locks the ADF 16 with
respect to the scanner unit 14 and the locking release position
that releases the locking through rotating.
[0083] In addition, when the second locking member 70 rotates in
the counter clockwise direction in FIG. 10A with the first pin 92
as a rotation fulcrum, since the center position of the circular
arc-like first engagement surface 96 and the central axis of the
first pin 92 that becomes the rotation fulcrum match, the
engagement position of the engagement surface 84 of the first
locking member 68 and the circular arc-like first engagement
surface 96 in the Y-axis direction and the Z-axis direction in FIG.
10A does not change. Therefore, the first locking member 68 is able
to hold the locking release position of the scanner unit 14 with
respect to the apparatus main body 12.
[0084] That is, in the engagement member 88 of the second locking
member, the first engagement surface 96 formed with a circular arc
surface holds the first locking member in the locking release
position by engaging the first locking member when the second
locking member 70 rotates, and the first locking member is
displaced between the locking release position and the locking
position by the second engagement surface 98 formed with an
inclined surface engaging with the first locking member 68 when the
second locking member 70 slides between the first position and the
second position in the Z-axis direction. Therefore, the engagement
portion 80 of the first locking member 68 and the engagement
portion 88 of the second locking member 70 are able to form a
suitable engagement state according to the operation of each of the
locking members.
[0085] Accordingly, when the ADF 16 is in the opened state with
respect to the scanner unit 14, the first locking member 68 moves
from the locking release position to the locking position in the
Y-axis direction, and the second locking member 70 maintains the
locking release position along with displacing from the first
position to the second position. Therefore, the scanner unit 14 is
locked so as not to open with respect to apparatus main body
12.
[0086] In addition, when the scanner unit 14 is in the opened state
with respect to the apparatus main body 12, the first locking
member 68 is held in the locking release position in the Y-axis
direction, and the second locking member 70 is rotated from the
locking release position to the locking position along with being
held in the first position. Therefore, the ADF 16 is locked so as
not to open with respect to the scanner unit 14.
[0087] In addition, as shown in FIG. 10B, since the first locking
member 68 is positioned in the locking release position, when the
scanner unit 14 is closed with respect to the apparatus main body
12, the hook portion 78 of the first locking member 68 is received
in the concavity 108. Therefore, it is possible to eliminate the
concern of the hook portion 78 of the first locking member 68
impacting the upper portion of the apparatus main body 12.
[0088] In addition, the second biasing member 76 in the present
embodiment biases the second locking member 70 from the locking
position direction (refer to FIG. 8) in the locking release
position (refer to FIG. 10A) along with biasing the second locking
member 70 from the first position to the second position, that is,
in the +Z direction in the Z-axis direction. Therefore, since the
second biasing member 76 serves as the second biasing unit and the
third biasing unit, it is possible to achieve simplification of the
apparatus configuration and cost reductions.
[0089] In addition, the first locking member 68 that locks the
scanner unit 14 that opens and closes the upper portion of the
apparatus main body 12 with respect to the apparatus main body 12
displaces between a locking position that locks the scanner unit 14
and the locking release position that release the locking by
sliding in the Y-axis direction that intersects the Z-axis
direction. Accordingly, when the scanner unit is to be opened in a
state in which the scanner unit 14 provided on the upper portion of
the apparatus main body 12 is locked, the even if a large force is
applied to the first locking member 68, it is possible for the
first locking member to resist such a large force, and it is
possible to more strongly lock the scanner unit 14 with respect to
the apparatus main body 12.
[0090] Furthermore, since, by engaging first locking member 68 and
the second locking member 70, the configuration performs switching
the position and the posture of both, it is possible to achieve
better assembling workability and saving on installation space
compared to a configuration in which the first locking member 68
and the second locking member 70 are provided at separate
positions.
Modification of Example
[0091] In the present embodiment, although the configuration has a
locking mechanism 56 provided at both end portions of the scanner
unit 14 in the X-axis direction, the configuration may have a
locking mechanism at one of either end portion in the X-axis
direction. In so doing, since only one set of locking mechanisms 56
is provided in the image reading apparatus 10, it is possible to
achieve simplification of the apparatus configuration and cost
reductions.
[0092] In summary of the above description, the image reading
apparatus 10 of the present embodiment includes an apparatus main
body 12, a scanner unit 14 that opens and closes the upper portion
of the apparatus main body 12, and an ADF 16 that opens and closes
the upper portion of the scanner unit. The scanner unit 14,
includes a first locking member 68 that is positioned at a locking
position that locks the scanner unit 14 with respect to the
apparatus main body 12 when the ADF 16 is in the opened state, is
positioned in the locking release position that releases the
locking of the scanner unit 14 with respect to the apparatus main
body 12 when the ADF 16 is in the closed state, and displaced
between the locking position and the locking release position by
sliding in the Y-axis direction that intersects the Z-axis
direction, and a second locking member 70 that is positioned at the
locking position that locks the ADF 16 with respect to the scanner
unit 14 when the scanner unit 14 is in the opened state, is
positioned in the locking release position that releases the
locking of the ADF 16 with respect to the scanner unit 14 when the
scanner unit 14 is in the closed state, and is switchable between
the locking position and the locking release position by
rotating.
[0093] The first locking member 68 is provided in an engaged state
with the second locking member 70. Movement between the locking
position and the locking release position of the second locking
member 70, in addition to the rotating operation, holds the first
locking member 68 in the locking release position in the first
position, and permits displacement from the locking release
position of the first locking member 68 to the locking position in
the second position, along with the second locking member 70 being
displaceable between a first position that is positioned below and
a second position that is positioned above by sliding in the
vertical direction.
[0094] The scanner unit 14 has a position regulating member 72 that
permits rotation of the second locking member 70 when the second
locking member 70 is in the first position and holds the position
of the second locking member 70 in the locking release position by
regulating the rotation of the second locking member 70 when the
second locking member 70 is in the second position. The scanner
unit 14 includes a first biasing member 74 that biases the first
locking member 68 in the locking position direction, and a second
biasing member 76 that biases the second locking member 70 in the
second position direction along with biasing the locking member in
the locking position direction. The ADF 16 holds the second locking
member 70 in the first position in the closed state, and permits
displacement of the second locking member 70 from the second
position to the first position in the opened state. The apparatus
main body 12 includes a position holding portion 112 that holds the
posture of the second locking member in the locking release
position by engaging the second locking member 70 when the scanner
unit 14 and the ADF 16 are in the closed state.
[0095] The second locking member 70 enters a state of being
ordinarily protruded from the opening portion 118 formed in the
scanner unit 14 towards the ADF 16. In addition, the second biasing
member 76 serves as the second biasing unit and the third biasing
unit.
[0096] The engagement portion 88 that engages with the first
locking member 68 in the second locking member 70 is configured to
include a first engagement surface 96 formed with a circular arc
surface that holds the first locking member in the locking release
position by engaging with the first locking member 68 when the
second locking member 70, and a second engagement surface 98 formed
with an inclined surface in which the first locking member is
displaced between the locking release position and the locking
position by engaging with the first locking member 68 when the
second locking member 70 slides between the first position and the
second position in the Z-axis direction.
[0097] In addition, in the present embodiment, although the image
reading apparatus 10 according to the invention is applied to a
recording apparatus as an example, it is possible to generally
apply the image reading apparatus to other liquid ejecting
apparatuses.
[0098] Here, the liquid ejecting apparatus is not limited to a
recording apparatus such as a printer, copy machine, fax machine or
the like in which an ink jet type recording head is used and
performing recording on a recording medium by ejecting ink from the
recording head, and includes an apparatus ejecting, in place of
ink, a liquid corresponding to the use thereof from a liquid
ejecting head corresponding to an ink jet-type recording head to an
ejection medium corresponding to a recording medium, and in which
the liquid is applied to the ejection medium.
[0099] In addition to the recording head, examples of the liquid
ejecting head include a color material ejecting head used in the
manufacturing of a color filter of a liquid crystal display or the
like, an electrode material (conductive paste) ejecting head used
in electrode formation of an organic EL display or a field emission
display (FED) or the like, or a bio-organic ejecting head used in
biochip manufacturing, or a sample ejecting head as a precision
pipette.
[0100] Moreover, the invention is not limited to the embodiments
described above and may be modified in various ways within the
scope of the aspects described in the claims, and the modifications
should be construed as being included in the invention.
* * * * *