The entire disclosure of Japanese Patent Application No. 2016-157896, filed Aug. 10, 2016 is expressly incorporated by reference herein.
The present disclosure relates to medium transportation devices that transport a medium, and recording apparatuses that include the medium transportation device.
Some types of recording apparatus, which is typically a printer, includes a sheet cassette detachable to the apparatus main body, and is configured to transport a medium housed in the sheet cassette to a recording area in a recording unit by means of a medium transportation device. An example of such a recording apparatus is disclosed in JP-A-2015-59030.
In JP-A-2015-59030, the medium transportation device includes a transportation roller disposed on the apparatus main body and a separation roller disposed on the sheet cassette, and the separation roller is biased toward the transportation roller by a biasing unit. More specifically, the separation roller is disposed on a holder, and the bias unit is disposed to bias the holder.
The separation roller may be replaced with new one by a service person or a user when it is deteriorated due to abrasion or the like caused by continuous use. Since the holder is biased by the biasing unit as described above, removing the holder for replacement of the separation roller causes a complicated operation. Accordingly, the separation roller may be configured to be detached from the holder for replacement. JP-A-2004-262597 discloses a pressure roller attachment and detachment mechanism that allows for replacement of the pressure roller serving as the separation roller in a simple manner.
In some cases, a lock mechanism may be provided to prevent the separation roller, which is configured to be detachable to the holder, from being inadvertently removed from the holder. However, when the separation roller is attached to the holder after being removed from the holder for replacement of the roller, an operator such as a service person and a user may forget to lock the separation roller by the lock mechanism. If the separation roller is not locked, transportation of the medium cannot be performed in a stable manner, leading to a decrease in quality of recording. Furthermore, the separation roller may be detached or displaced from the holder during recording, which may cause a failure in transportation of medium.
An advantage of some aspects of the disclosure is to ensure locking of the separation roller in a reliable manner during attachment of the separation roller configured to be detachable in the medium transportation device.
According to a first aspect of the disclosure, a medium transportation device includes a transportation driving roller that transports a medium; a roller unit including a driven roller that is rotated by rotation of the transportation driving roller and a shaft which penetrates a rotation center of the driven roller; a holding section that detachably holds the roller unit; and a lock mechanism that switches between an unlocked state in which the roller unit is unlocked from the holding section and a locked state in which the roller unit is locked to the holding section.
In this aspect, the lock mechanism is configured to switch between the unlocked state in which the roller unit is unlocked from the holding section and the locked state in which the roller unit is locked to the holding section by rotating the driven roller in the medium transportation direction. Accordingly, the lock mechanism is ensured to be in the locked state in a reliable manner after the driven roller is attached and detached. For example, in the roller unit which is already attached to the holding section, if the transportation driving roller is driven to start transportation when locking by the lock mechanism is insufficient (in the unlocked state), the lock mechanism can be turned into the locked state by rotation of the driven roller in the medium transportation direction that is rotated by rotation of the transportation driving roller. Accordingly, transportation of the medium while the lock mechanism is in the unlocked state can be reduced or avoided.
According to a second aspect of the disclosure, in the medium transportation device according to the first aspect, the driven roller is configured to rotate integrally with the shaft when the lock mechanism is in the unlocked state, and to be relatively rotatable to the shaft when the lock mechanism is in the locked state, the lock mechanism includes a contact member that is fixed to the shaft and protrudes in a direction perpendicular to an axis direction of the shaft, the holding section includes a first bearing that receives a first end of the shaft, a second bearing that receives a second end, and a regulation member that regulates the shaft from rotating in the medium transportation direction by contact with the contact member in a state in which the first end and the second end are received in the first bearing and the second bearing, respectively, and in the lock mechanism, the locked state is a state in which the contact member is in contact with the regulation member, and the unlocked state is a state in which the shaft has been rotated from the locked state in a direction opposite to the medium transportation direction and the contact member is spaced from the regulation member.
In this aspect, a configuration in which the lock mechanism becomes the locked state from the unlocked state by rotation of the driven roller in the medium transportation direction can be achieved. Detailed locking operation of the lock mechanism will be described later.
According to a third aspect of the disclosure, in the medium transportation device according to the second aspect, the first end of the shaft has a cross section of a circular shape in a direction perpendicular to an axis direction, and the second end has a cross section of a truncated circular shape which is made up of an arch portion and a flat portion, and the contact member is disposed on the second end.
In this aspect, the contact member disposed on the second end which has a cross section of a truncated circular shape which is made up of an arch portion and a flat portion. Accordingly, the contact member can be more reliably fixed to the shaft.
According to a fourth aspect of the disclosure, in the medium transportation device according to the third aspect, the first bearing is a shaft hole disposed on a first wall, which is one of a pair of walls disposed on both sides in the axis direction of the shaft in the holding section, and allows the first end of the shaft to be inserted therein, and the second bearing is a groove disposed on a second wall of the pair of walls and allows the second end of the shaft to be inserted therein from above the second wall.
In this aspect, the first bearing is a shaft hole disposed on a first wall, which is one of a pair of walls disposed on both sides in the axis direction of the shaft in the holding section, and allows the first end of the shaft to be inserted therein, and the second bearing is a groove disposed on a second wall of the pair of walls and allows the second end of the shaft to be inserted therein from above the second wall. Accordingly, the roller unit can be easily mounted to the holding section. Further, since the first end of the shaft is fitted into the first bearing which is formed as a shaft hole, the roller unit can be more reliably mounted to the holding section.
According to a fifth aspect of the disclosure, in the medium transportation device according to the second or third aspect, the first bearing is a first groove disposed on a first wall, which is one of a pair of walls disposed on both sides in the axis direction of the shaft in the holding section, and allows the first end of the shaft to be inserted therein from above the first wall, and the second bearing is a second groove disposed on a second wall of the pair of walls and allows the second end of the shaft to be inserted therein from above the second wall.
In this aspect, since both the first bearing and the second bearing are formed as a groove, the first end and the second end can be more easily mounted in the corresponding receiving sections (the first bearing and the second bearing).
According to a sixth aspect of the disclosure, in the medium transportation device according to any one of the second to fifth aspects, the contact member includes a tab which extends in a direction perpendicular to the axis direction of the shaft.
In this aspect, since the contact member includes a tab which extends in a direction perpendicular to the axis direction of the shaft, switching of the lock mechanism between the locked state and the unlocked state can be performed with a simple operation by holding the tab by hand and rotating the shaft of the roller unit.
According to a seventh aspect of the disclosure, in the medium transportation device according to the fourth aspects, the contact member includes a tab disposed on the second end and extends in a direction perpendicular to the axis direction of the shaft, and a tongue disposed on an opposite side to the tab with the shaft interposed therebetween, the tongue being elastically deformable in the axis direction and provided with a projection on a surface facing the second wall, and the second wall includes a recessed portion which faces the projection of the tongue with a space therebetween in the unlocked state of the lock mechanism, and a raised portion which presses the projection to elastically deform the tongue toward inside in the axis direction of the shaft while the lock mechanism transitions from the unlocked state to the locked state.
In this aspect, since the second wall includes a recessed portion which faces the projection of the tongue with a space therebetween in the unlocked state of the lock mechanism, the roller unit can be easily set in the holding section. Moreover, since the second wall includes a raised portion which presses the projection to elastically deform the tongue toward inside in the axis direction of the shaft while the lock mechanism transitions from the unlocked state to the locked state, the lock mechanism can be switched from the unlocked state to the locked state while positioning the shaft of the roller unit of the holding section in the axis direction.
According to an eighth aspect of the disclosure, in the medium transportation device according to the seventh aspects, the second wall includes an inclined surface which is continuous from the recessed portion to the raised portion.
In this aspect, since the second wall includes the inclined surface which is continuous from the recessed portion to the raised portion, the projection of the tongue can be guided by the inclined surface, allowing the projection to smoothly move from the recessed portion to the raised portion. Accordingly, the lock mechanism can be smoothly switched from the unlocked state to the locked state.
According to a ninth aspect of the disclosure, in the medium transportation device according to the seventh or eighth aspect, the second wall includes a step which serves to release elastic deformation of the tongue on the raised portion when the lock mechanism becomes the locked state.
In this aspect, since the second wall includes a step which serves to release elastic deformation of the tongue on the raised portion when the lock mechanism becomes the locked state, an operator can readily recognize when the lock mechanism becomes the locked state.
According to a tenth aspect of the disclosure, in the medium transportation device according to any one of the fourth and seventh to ninth aspects, at least one of the first end and the first bearing of the shaft has a guiding feature that guides insertion of the first end into the first bearing.
In this aspect, since at least one of the first end and the first bearing of the shaft has a guiding feature that guides insertion of the first end into the first bearing, the first end can be easily inserted into the first bearing.
According to an eleventh aspect of the disclosure, in the medium transportation device according to any one of the second to tenth aspects, the driven roller is a separation roller that cooperates with the transportation driving roller to nip the medium therebetween for separation, and the roller unit includes a torque limiter that limits rotation of the separation roller relative to the shaft at a torque less than a predetermined value.
In this aspect, when the driven roller is a separation roller that cooperates with the transportation driving roller to nip the medium therebetween for separation, the same effects as those of any one of the second to sixth aspects can be obtained. Further, when the roller unit includes a torque limiter that limits rotation of the separation roller relative to the shaft at a torque less than a predetermined value, the separation roller serving as the driven roller rotates integrally with the shaft when the roller unit is in the unlocked state and is relatively rotatable to the shaft when the roller unit is in the locked state.
According to a twelfth aspect of the disclosure, a recording apparatus includes a recording unit that performs recording on the medium; and the medium transportation device according to any one of the first to eleventh aspects that transports the medium to the recording unit.
In this aspect, in the recording apparatus which includes the medium transportation device that transports the medium to the recording unit, the same effects as those of any one of the first to eleventh aspects can be obtained.
The disclosure will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
First, an outline of a recording apparatus according to one embodiment of the disclosure will be described. In the present embodiment, an ink jet printer (hereinafter, simply referred to as a printer) will be described as an example of a recording apparatus.
Further, in the X-Y-Z coordinate system in the drawings, the X direction represents a movement direction of a recording head, the Y direction represents a depth direction of the recording apparatus and a medium transportation direction, and the Z direction represents a height direction of the recording apparatus. Throughout the drawings, +Y direction is defined as an apparatus front side, and −Y direction is defined as an apparatus back side. In addition, the direction in which a paper sheet is transported in the printer is referred to as a “downstream,” and a direction opposite from the +Y direction (−Y direction) is referred to as an “upstream.”
Overall Configuration of Printer
With reference to mainly
First, an outline of the scanner unit 3 (see
Further, a reading unit (not shown) configured to read a reading surface of the document which is set on the document tray 3a is provided in the reading mechanism 3b. Further, the feeding mechanism 3c is configured to transport the document which is set on the document set unit 3d toward the document output tray 3e so that the reading surface of the document is read by the reading unit during transportation.
Referring now to the apparatus main body 2, ink container casings 4a and 4b are provided on the outer surface of the apparatus main body 2. Each ink container casing houses an ink container (not shown) that stores ink. In
In the apparatus main body 2, the recording head 7 is mounted on a carriage 8 which is movable in the X axis direction in
Sheet Transportation Path in Printer
Next, with reference to
When a plurality of paper sheets P is fed by the feed roller 12, the separation roller 14 cooperates with the transportation driving roller 13 to nip the paper sheets P therebetween and separates them into individual sheets. The separation roller 14 is detachably attached to the paper sheet tray 6 (see
A torque limiter 32 (
In the housing area 6a of the paper sheet tray 6 shown in
Furthermore, a transportation roller pair 18 is provided on the upstream side in the medium transportation direction with respect to the recording head 7 (on the apparatus back side, −Y direction) so that the paper sheet P is transported to a position under the recording head 7 by the transportation roller pair 18. While being fed toward the apparatus front side, the paper sheet P is supported by the support member 19. When the paper sheet P passes under the recording head 7, recording is performed by ink ejected from the recording head 7. A first output roller pair 20 and a second output roller pair 21 are provided on the downstream side in the medium transportation direction with respect to the recording head 7 (apparatus front side, +Y direction). After recording is performed, the paper sheet P is outputted to the output tray 5 disposed on the apparatus front side.
Roller Unit
The separation roller 14 which constitutes the medium transportation device 10 is configured as the roller unit 30 which includes the shaft 31 that penetrates the rotation center of the separation roller 14. In the roller unit 30, the above-mentioned torque limiter 32 is disposed on the shaft 31. Further, the holder 40 is disposed on the paper sheet tray 6 as a “holding section” so that the roller unit 30 is detachably held by the holder 40.
The roller unit 30 can be removed from the holder 40 by an operator such as a service person or a user when a maintenance operation is required for the separation roller 14 due to continuous use of the printer 1 or the like, and can be again mounted on the holder 40 after cleaning of the roller unit 30 or the like is performed, or alternatively, can be replaced with a new roller unit 30.
The separation roller 14 is biased toward the transportation driving roller 13 (
Moreover, the medium transportation device 10 further includes a lock mechanism 60 (
A first end 31a of the shaft 31 of the roller unit 30 has a cross section in a circular shape in a direction perpendicular to the axis direction (see
The holder 40 (
As shown in the top figure in
Lock Mechanism
The lock mechanism 60 (see
The holder 40 (
In the lock mechanism 60, the locked state is a state in which the contact member 61 is in contact with the regulation member 45 as shown in the bottom figure in
The contact member 61 includes a tab 62 which extends in a direction perpendicular to the axis direction of the shaft 31 (X axis direction in
Attachment Procedure of Roller Unit to Holder and Lock Procedure of Lock Mechanism
Referring to
In this state, the contact member 61 of the lock mechanism 60 is not in contact with the regulation member 45 of the holder 40 as shown in the upper figure in
In addition, the separation roller 14 is provided such that a predetermined rotation resistance is imparted to the shaft 31 by the torque limiter 32. Accordingly, as the tab 62 disposed on the contact member 61, which is fixed to the shaft 31, is rotated in the direction indicated by the arrow A, the separation roller 14 is also rotated in the direction indicated by the arrow A. As a matter of course, the separation roller 14 can be rotated by an external force being directly applied. If the shaft 31 is rotated by an external force, the separation roller 14 can also be integrally rotated with the shaft 31. In the locked state, the contact member 61 fixed to the shaft 31 is in contact with the regulation member 45. Accordingly, the shaft 31 is regulated from rotating in the medium transportation direction (the direction indicated by the arrow A) and fixed in position. In the locked state in which the shaft 31 is fixed, when the transportation driving roller 13 rotates to cause a force exceeding the rotation resistance imparted by the torque limiter 32 to be applied on the separation roller 14, the separation roller 14 can rotate relative to the shaft 31.
In the shaft 31 of the roller unit 30, when the second end 31b with the D-shaped cross section having the arch portion 33 and the flat portion 34 is attached to and detached from second bearing 44 formed as a groove, the flat portion 34 extends in the groove depth direction (Z axis direction) as shown in the upper figure in
As described above, the lock mechanism 60 is configured to switch between the unlocked state in which the holder 40 is unlocked and the locked state in which the holder 40 is locked by rotating the separation roller 14 in the medium transportation direction. Accordingly, the lock mechanism 60 is ensured to be in the locked state in a reliable manner after the separation roller 14 is attached and detached. For example, in the roller unit 30 which is already attached to the holder 40, if the transportation driving roller 13 is driven to start transportation when locking by the lock mechanism 60 is insufficient (in the unlocked state), the lock mechanism 60 can be turned into the locked state by rotation of the transportation driving roller 13 which causes the separation roller 14 to rotate in the medium transportation direction. Accordingly, transportation of the paper sheet P while the lock mechanism 60 is in the unlocked state can be reduced or avoided.
Moreover, the locked state and the unlocked state of the lock mechanism 60 can be switched by a simple operation by an operator holding the tab 62 of the contact member 61 which is fixed to the shaft 31 to rotate the shaft 31 of the roller unit 30.
Positioning of the Shaft of Roller Unit in the Holder
Next, referring to
In the unlocked state (the upper figure in
Since the projection 64 of the tongue 63 faces the recessed portion 47 on the second wall 46b with a space therebetween in the unlocked state in the lock mechanism 60, an allowance in the X axis direction is provided between the holder 40 and the roller unit 30, facilitating setting of the roller unit 30. Moreover, since the projection 64 is pressed by the raised portion 48 of the second wall 46b during transition from the unlocked state to the locked state (the lower figure in
Further, an inclined surface 49 is disposed between the recessed portion 47 and the raised portion 48 to be continuous from the recessed portion 47 to the raised portion 48. Since the recessed portion 47 and the raised portion 48 are connected to each other via the inclined surface 49, the projection 64 on the tongue 63 can be guided by the inclined surface 49 and is allowed to smoothly move from the recessed portion 47 to the raised portion 48 or from the raised portion 48 to the recessed portion 47. Accordingly, the unlocked state and the locked state in the lock mechanism 60 can be smoothly switched.
Moreover, the second wall 46b is further provided with a step 50 (a portion surrounded by the dot and dashed line in
When the projection 64 on the tongue 63 transitions from the raised portion 48 to the step 50, the projection 64 on the tongue 63 makes a sound by contact with the step 50. In addition, when switching of the lock mechanism 60 is performed by operating the tab 62 by hand, releasing of elastic deformation of the tongue 63 can be recognized when the projection 64 on the tongue 63 transitions from the raised portion 48 to the step 50. This facilitates recognition of when the lock mechanism 60 becomes the locked state.
Other Configurations of Roller Unit
In the roller unit 30, the first end 31a of the shaft 31 has a guiding feature that guides insertion of the first end 31a into the first bearing 43. In the present embodiment, the first end 31a has a tapered portion 35 on the end thereof as shown in
In the present embodiment, the contact member 61 is fixed to the shaft 31, and the separation roller 14 is provided in a configuration in which a predetermined rotation resistance is imparted to the shaft 31 by the torque limiter 32. However, the contact member 61 (lock mechanism 60) may be disposed in a configuration in which a predetermined rotation resistance is imparted to the shaft 31 by the torque limiter, while the separation roller 14 is fixed to the shaft 31, so that the separation roller 14 rotates as the shaft 31 rotates.
In this embodiment, with reference to
As shown in
In the holder 70, since both the first bearing 71a and the second bearing 71b are formed as a groove (the first groove 73a and the second groove 73b), the first end 31a and the second end 31b can be easily mounted on the first bearing 71a and the second bearing 71b, respectively. In the present embodiment, both the first end 31a and the second end 31b of the roller unit 30 of the shaft 31 preferably have a D-shaped cross section. Providing the first end 31a and the second end 31b with a D-shaped cross section enables the both ends to be attached to and detached from the corresponding bearings. Furthermore, when the lock mechanism 60 becomes the locked state, the first end 31a and the second end 31b can be held in the first bearing 71a and the second bearing 71b, respectively, in a stable manner. The first end 31a may have a circular cross section, and the second end 31b may have a D-shaped cross section as with Embodiment 1.
In addition, it should be noted that the disclosure is not limited to the above embodiments. Various modifications are contemplated within the scope of the disclosure as defined in the appended claims, and these should be included in the scope of the disclosure.
Number | Date | Country | Kind |
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2016-157896 | Aug 2016 | JP | national |
Number | Name | Date | Kind |
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9783380 | Kuriki | Oct 2017 | B2 |
9904228 | Xie | Feb 2018 | B2 |
9994404 | Ngoc | Jun 2018 | B2 |
20040256787 | Wada | Dec 2004 | A1 |
20070145666 | Nishikata | Jun 2007 | A1 |
20090295069 | Shiina | Dec 2009 | A1 |
20150123340 | Kannari | May 2015 | A1 |
20180016107 | Ngoc | Jan 2018 | A1 |
Number | Date | Country |
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2004-262597 | Feb 2003 | JP |
2015-059030 | Mar 2015 | JP |
Number | Date | Country | |
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20180044127 A1 | Feb 2018 | US |