1. Technical Field
The present invention relates to a liquid ejection device such as an inkjet printer and a liquid container tray that is mounted, in a state of holding a liquid container, to the liquid ejection device.
2. Related Art
In liquid ejection devices such as an inkjet printer, liquid such as ink supplied from a liquid container via a liquid supply portion such as a liquid supply needle provided on the device side is ejected to a medium. In such liquid ejection devices, there are a liquid ejection devices that include a liquid container tray that holds the liquid container, and the liquid container tray can be attached to and removed from the liquid ejection device for improving convenience when the liquid container is replaced or the like. The liquid container tray includes a support surface that supports the liquid container and a side wall that protrudes from the entire edge of the support surface and surrounds the liquid container, and is mounted to the liquid ejection device such that the liquid container supported on the support surface is connected to a liquid supply portion on the device side (refer to Japanese Patent No. 3838373).
When the liquid container is to be replaced in the liquid ejection device, the liquid container tray is removed from the device by being moved such that the liquid container is separated from the liquid supply portion on the device side, and thereafter an old liquid container is removed from a portion surrounded by the side walls on the support surface of the liquid container tray. Next, after a new liquid container is inserted to the portion surrounded by the side walls on the support surface of the liquid container tray, the liquid container tray that supports the new liquid container is moved such that the liquid container is connected to the liquid supply portion on the device side, and is thereby attached to the liquid ejection device.
Incidentally, liquid containers of various sizes are used in the liquid ejection device, and some liquid containers are smaller than the portion surrounded by the side walls on the support surface. In this case, a gap is formed between the liquid container supported on the support surface and the side walls, and the orientation and position of the liquid container on the support surface may change due to the gap when the liquid container tray is attached to the liquid ejection device or the like. When a change in orientation and position of the liquid container on the support surface occurs, the change may adversely affect the favorable supply state of liquid from the liquid container.
An advantage of some aspects of the invention is to provide a liquid ejection device that can suppress change in orientation and position of a liquid container on a support surface of a liquid container tray caused by a difference in size of the liquid container.
In one aspect of the invention, a liquid ejection device includes a casing including a guide wall, a liquid container tray configured to support a liquid container, and a recording head that ejects liquid supplied from the liquid container that is supported by the liquid container tray to a medium. A support surface that supports the liquid container, and a movable wall configured to move in at least one direction on the support surface are included. The liquid container tray is configured to be inserted to or removed from the casing along the guide wall. The liquid container tray includes a support surface that supports the liquid container and a movable wall configured to move in at least one direction on the support surface.
According to this configuration, as a result of moving the movable wall by selecting a position at which the movable wall comes into contact with the liquid container according to the size of the liquid container, in a state where the liquid container is supported on the support surface of the liquid container tray, the movable wall can be caused to come into contact with the liquid container. Accordingly, because the liquid container can be positioned by the movable wall that comes into contact with the liquid container in at least one direction on the support surface, the change in orientation and position of the liquid container that is supported on the support surface can be suppressed, even if the size of the liquid container varies.
The liquid ejection device may further include an operation panel, and a paper feed tray that is removably mounted to the casing. The liquid container tray, the operation panel, and the paper feed tray may be provided so as to be stacked in an up-down direction.
When the casing is viewed looking toward the liquid container tray, two or more of the liquid container trays may be provided side by side in a left and right direction.
The liquid ejection device further includes a side wall that protrudes from an edge of the support surface, and a portion of the side wall may be configured by the movable wall.
According to this configuration, as a result of a portion of the side wall that protrudes from the edge of the support surface functioning as the movable wall, the structure of the liquid container tray can be simplified by an amount that corresponds to the movable wall also functioning as the side wall.
The movable wall may be configured to continuously move in one direction on the support surface.
According to this configuration, because the movable wall can be continuously moved in one direction on the support surface, the position of the movable wall can be finely adjusted such that the movable wall comes into contact with the liquid container from one direction, even if the size of the liquid container that is to be supported on the support surface varies.
The movable wall may be configured to engage with a guide groove that extends in one direction on the support surface, and move along the guide groove.
According to this configuration, because the movement of the movable wall in one direction on the support surface is guided by the guide groove, the movement of the movable wall can be performed more accurately.
The liquid container tray may further include a lock mechanism that performs fixing and releasing of the fixing of the movable wall to the support surface based on an operation of an operation portion. According to this configuration, the movable wall configured to move on the support surface can be positioned (fixed) at any position in a moving range on the support surface by the lock mechanism based on an operation of the operation portion. On the other hand, when the fixing of the movable wall to the support surface by the lock mechanism is released based on an operation of the operation portion, the movable wall can be moved on the support surface. Therefore, by merely operating the operation portion of the lock mechanism, the positioning of the movable wall can be performed, or the movable wall is enabled to move.
The support surface of the liquid container tray may be provided with display portions serving as a guide of a moving position at intervals in a moving direction of the movable wall.
According to this configuration, because the position to which the movable wall is to be moved can be determined using the display portions as a guide, the determination can be performed easily.
The movable wall may be constituted by two or more movable walls that are configured to come into contact with the liquid container from one direction and the other direction, respectively, on the support surface.
According to this configuration, as a result of the two or more movable walls coming into contact with the liquid container on the support surface so as to sandwich the liquid container from one direction and the other direction (direction opposite to the one direction), the liquid container can be stably held on the support surface, and change in orientation and position of the liquid container can be effectively suppressed.
The movable wall may be constituted by a pair of movable walls that oppose each other and are configured to, in conjunction with each other, approach and separate from each other.
According to this configuration, as a result of the pair of movable walls being caused to approach or separate from each other so as to come into contact with the liquid container supported on the support surface, the liquid container can be held at the center of the pair of movable walls regardless of the size of the liquid container.
The liquid container tray may be provided with a fixed wall that opposes the movable wall and is configured to sandwich the liquid container between the fixed wall and the movable wall.
According to this configuration, as a result of sandwiching the liquid container on the support surface between the movable wall and the fixed wall, the liquid container can be stably held on the support surface, and change in orientation and position of the liquid container can be effectively suppressed.
The liquid container tray may further include a side wall that protrudes from an edge of the support surface, and a portion of the side wall may be constituted by the fixed wall.
According to this configuration, as a result of a portion of the side wall that protrudes from the edge of the support surface functions as the fixed wall, the structure of the liquid container tray can be simplified by an amount that corresponds to the fixed wall also functioning as the side wall.
In the liquid container tray, the movable wall and the fixed wall may be provided so as to oppose each other on a center line that passes through a center of the support surface and extends along the support surface.
According to this configuration, because the liquid container supported by the support surface can be held on the center line by the fixed wall and the movable wall, a state can be realized in which the liquid container can be held at a position closer to the center on the support surface. In this state, because the position of the center of gravity of the liquid container tray is made closer to the center of the support surface, the liquid container tray is unlikely to incline when the liquid container tray is carried so as to be attached to the liquid ejection device, or the like.
The fixed wall may be provided with a positioning portion for positioning a liquid outlet portion of the liquid container.
According to this configuration, the liquid container can be sandwiched between the fixed wall and the movable wall in a state where the liquid outlet portion is positioned to the positioning portion provided in the fixed wall. Therefore, the liquid container can be held on the support surface between the movable wall and the fixed wall while the liquid outlet portion of the liquid container is reliably positioned by the positioning portion.
In the liquid container tray, an opposing surface of the movable wall that opposes the liquid container may be a rough surface.
According to this configuration, the liquid container is unlikely to slide relative to the opposing surface that is a rough surface when the movable wall is moved to a position at which the opposing surface comes into contact with the liquid container.
In the liquid container tray, an opposing surface of the movable wall that opposes the liquid container may be formed in a shape that conforms to a portion of the liquid container corresponding to the opposing surface.
According to this configuration, when the movable wall is moved to a position at which the opposing surface of the movable wall comes into contact with the liquid container, because the contact area of the opposing surface with the liquid container can be increased, the liquid container is unlikely to slide relative to the opposing surface.
An end of a moving range of the movable wall in the liquid container tray is set on a side of a center with respect to the edge of the support surface.
According to this configuration, the movable wall that has been moved to a position so as to be in contact with the liquid container on the support surface does not protrude out past the edge of the support surface. Therefore, when the liquid container tray is attached to the liquid ejection device in a state where the liquid container is supported on the support surface, the movable wall is unlikely to interfere with components or the like that constitute the liquid ejection device.
The liquid container tray may further include a side wall that protrudes from the edge of the support surface, and the protruding height of the movable wall relative to the support surface may be smaller than the protruding height of the side wall relative to the support surface.
According to this configuration, the movable wall that has been moved to a position so as to be in contact with the liquid container on the support surface does not protrude out past the leading end of the side wall that protrudes from the support surface, in the protruding direction. Therefore, when the liquid container tray is attached to the liquid ejection device in a state where the liquid container is supported on the support surface, the movable wall is unlikely to interfere with components or the like that constitute the liquid ejection device.
In the liquid container tray, the support surface may be configured to support two or more of the liquid containers.
According to this configuration, when the two or more liquid containers are supported on the support surface, change in orientation and position of the liquid containers on the support surface can be suppressed by the movable wall.
Also, a liquid ejection device that solves the aforementioned problem includes a casing, a liquid container tray that can be mounted to the casing and is configured as described above, and a liquid ejection head that ejects liquid supplied from the liquid container supported by the liquid container tray to a medium.
According to this configuration, effects similar to those of the liquid container tray can be achieved in the liquid ejection device.
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Hereinafter, one embodiment of a liquid container tray will be described with reference to
A separation portion 18 is provided at a leading end portion on the feeding direction downstream side of the paper feed cassette 14 such that the sheet P being fed out from the paper feed cassette 14 is separated from the lower sheets P in the paper feed cassette 14 mid-way of being fed out. An inversion roller 19 and a separation roller 20 that sandwich the sheet P fed out from the separation portion 18 and again separate the sheet P from the lower sheets P in the paper feed cassette 14 are provided on the feeding direction downstream side (upper side in the diagram) from the separation portion 18 in the casing 12. These inversion roller 19 and the separation roller 20 reliably send the upper-most sheet P in the paper feed cassette 14 to a position between a pair of conveyance rollers 21 by performing the second separation. Furthermore, the sheet P, after being conveyed to a position between a pair of paper feed rollers 22 by rotationally driving the pair of conveyance rollers 21, is conveyed to a position between a pair of paper discharge rollers 23 by rotationally driving the pair of paper feed rollers 22.
A print unit 24 that performs printing on the sheet P is provided between the pair of paper feed rollers 22 and the pair of paper discharge rollers 23 in the casing 12. The print unit 24 includes a carriage 26 that can move along a guide shaft 25 that extends in a direction intersecting a conveyance direction of the sheet P (orthogonal to a paper surface, in this example), the conveyance direction being a direction extending from right to left in the diagram. A recording head 27 for performing printing on the sheet P is provided in a portion of a bottom portion of the carriage 26 that corresponds to a portion between the pair of paper feed rollers 22 and the pair of paper discharge rollers 23. Also, a support base 28 is provided at a position that opposes the recording head 27 in the casing 12, and the sheet P that is conveyed from the pair of paper feed rollers 22 to the pair of paper discharge rollers 23 passes between the recording head 27 and the support base 28.
The printing onto the sheet P by the print unit 24 is realized by ejecting ink onto the sheet P from nozzles of the recording head 27 by appropriately moving the carriage 26 in the extending direction of the guide shaft 25 (scanning direction) while conveying the sheet P from the pair of paper feed rollers 22 to the pair of paper discharge rollers 23. The sheet P onto which printing by the print unit 24 is performed is discharged to a discharge tray 29 provided in the casing 12 after being conveyed to a downstream side (left side in the diagram) in the conveyance direction from the pair of paper discharge rollers 23.
A liquid container tray 31 for holding a liquid container 30 that stores liquid (ink) for printing is provided under the paper feed cassette 14 in the casing 12. Incidentally, a liquid container 30 that is formed in a bag shape is adopted in this example. The liquid container tray 31 is removably attached to the casing 12 of the printer 11, for improving the convenience of replacing the liquid container 30 or the like. Specifically, the liquid container tray 31 can be inserted and removed in the left and right direction in the diagram along a guide wall 35 provided under the paper feed cassette 14 in the casing 12.
The liquid container tray 31 is attached to the casing 12 by being inserted into the casing 12. When the liquid container tray 31 is attached to the casing 12, a liquid outlet portion 32 of the liquid container 30 that is held by the liquid container tray 31 is connected to a liquid supply needle 33 provided in the casing 12. The liquid supply needle 33 is connected to the recording head 27 via a tube 34. Accordingly, when the liquid container tray 31 is attached to the casing 12, the ink in the liquid container 30 that is held by the liquid container tray 31 is supplied to the recording head 27 via the liquid supply needle 33 and the tube 34.
On the other hand, when the liquid container 30 is replaced, the liquid outlet portion 32 of the liquid container 30 that is held by the liquid container tray 31 is separated from the liquid supply needle 33 by removing the liquid container tray 31 from the casing 12. Thereafter, the old liquid container 30 is taken out from the liquid container tray 31, and the liquid container tray 31, in a state where a new liquid container 30 is held by the liquid container tray 31, is attached to the casing 12 as described above, and thus the ink in the new liquid container 30 is supplied to the recording head 27 via the liquid supply needle 33 and the tube 34.
As shown in
A positioning portion 41 for positioning the liquid outlet portion 32 of the liquid container 30 is formed in the side wall 39. The liquid container 30 is placed on a portion of the support surface 36 of the liquid container tray 31 that is surrounded by the side walls 37, 38, 39, and 40. Thereafter, the liquid outlet portion 32 of the liquid container 30 is positioned by the positioning portion 41 of the side wall 39. The casing 12 is provided with a pair of the guide walls 35 that are in parallel. As a result of inserting the liquid container tray 31 between the pair of guide walls 35 in a state where the side wall 39 is faced toward the liquid supply needle 33 side, the liquid container tray 31 is attached to the casing 12 and the liquid outlet portion 32 is connected to the liquid supply needle 33.
The liquid outlet portion 32 can be positioned to the positioning portion 41 by inserting the portion of the liquid outlet portion 32 corresponding to the groove 43 into the slit 42 from the above. On the other hand, the positioning of the liquid outlet portion 32 by the positioning portion 41 can be released by removing the liquid outlet portion 32 from the slit 42 by displacing it upward from a state in which the portion of the liquid outlet portion 32 corresponding to the groove 43 is inserted into the slit 42.
Next, a detailed structure of the liquid container tray 31 will be described.
When a liquid container 30 that is smaller than that shown in
As shown in
The movable wall 44 is provided between the side wall 37 and a center C of the support surface 36, and the movable wall 45 is provided between the side wall 38 and the center C of the support surface 36. These movable walls 44 and 45 are in parallel with a center line CL that passes through the center C of the support surface 36 and the positioning portion 41 (slit 42) of the side wall 39 and extends along the support surface 36, and oppose each other in a direction that is orthogonal to the center line CL.
The movable wall 44 engages with a guide groove 47 that extends so as to be orthogonal to the center line CL on the support surface 36, and can continuously move along the guide groove 47 in a left and right direction in
The movable wall 45 engages with a guide groove 48 that extends so as to be orthogonal to the center line CL on the support surface 36, and can continuously move along the guide groove 48. The movable wall 45 approaches the liquid container 30 (
These movable walls 44 and 45 are connected via an interlocking mechanism 50 that is provided on a side opposite to the support surface 36 in the liquid container tray 31, and approach and separate from each other in conjunction with each other due to the interlocking mechanism 50. Note that the movable walls 44 and 45 that operate this way function as two or more movable walls that come into contact with the liquid container 30 on the support surface 36 so as to sandwich it from the right direction and the left direction in
A lock mechanism 52 that fixes the movable walls 44 and 45 to the support surface 36 and performs releasing of the fixing based on an operation of an operation lever 51 is provided in a portion of the movable wall 44 corresponding to the guide groove 47. Note that the operation lever 51 functions as an operation portion that is operated by a user to perform the fixing and releasing of the fixing by the lock mechanism 52. Line-shaped display portions 55 serving as a guide of moving positions of the movable walls 44 and 45 are provided on the support surface 36 of the liquid container tray 31 at intervals in the left and right direction in
The movable wall 46 is provided so as to extend along the side wall 40 between the side wall 40 and the center C of the support surface 36, and is orthogonal to the center line CL. The movable wall 46 engages with a guide groove 49 that extends along the center line CL on the support surface 36, and can continuously move in an up and down direction in
The movable wall 46 and the side wall 39 oppose each other on the center line CL, and can sandwich the liquid container 30 on the support surface 36 therebetween. Accordingly, the side wall 39 functions as a fixed wall that opposes the movable wall 46 and can sandwich the liquid container 30 between itself and the movable wall 46. In this regard, some (side wall 39) of the side walls 37, 38, 39, and 40 can be said to be configured by a fixed wall. Note that, a surface (upper surface in
A lock mechanism 54 that fixes the movable wall 46 to the support surface 36 and performs releasing of the fixing based on an operation of an operation lever 53 is provided in a portion of the movable wall 46 corresponding to the guide groove 49. Note that the operation lever 53 functions as an operation portion that is operated by the user for performing the fixing and releasing the fixing by the lock mechanism 54. Line-shaped display portions 56 serving as a guide of moving position of the movable wall 46 are provided on the support surface 36 of the liquid container tray 31 at intervals in the up and down direction in
As shown in
Next, operations of the liquid container tray 31 will be described.
When the liquid container 30 is placed on the support surface 36 of the liquid container tray 31 in the case where the liquid container 30 is to be replaced or the like, first the liquid outlet portion 32 of the liquid container 30 is positioned to the positioning portion 41 of the side wall 39. Then, positioning of the liquid container 30 on the support surface 36 is performed by the movable walls 44, 45, and 46.
That is, as a result of moving the movable walls 44, 45, and 46 in a state where the liquid container 30 is supported on the support surface 36 of the liquid container tray 31, while selecting positions at which the movable walls 44, 45, and 46 come into contact with the liquid container 30 according to the size of the liquid container 30, the movable walls 44, 45, and 46 are caused to come into contact with the liquid container 30. Since the liquid container 30 can be positioned by the movable walls 44, 45, and 46 that come into contact with the liquid container 30 in this way, change in orientation and position of the liquid container 30 can be suppressed even if the size of the liquid container 30 supported on the support surface 36 varies.
The detailed positioning of the liquid container 30 on the support surface 36 by the movable walls 44, 45, and 46 is performed according to the following procedure.
In a state where the fixing of the movable walls 44 and 45 to the support surface 36 by the lock mechanism 52 is released based on an operation of the operation lever 51, the movable walls 44 and 45 are continuously moved along the guide grooves 47 and 48 using the display portions 55 as a guide so as to come into contact with the liquid container 30 on the support surface 36. Here, the movable walls 44 and 45 come into contact with the liquid container 30 so as to sandwich the liquid container 30 therebetween in a direction in which the guide grooves 47 and 48 extend, as a result of the movable walls 44 and 45 being caused to, in conjunction with each other, approach or separate from each other. Thereafter, the movable walls 44 and 45 are fixed to the support surface 36 by the lock mechanism 52 based on an operation of the operation lever 51.
Furthermore, in a state where the fixing of the movable wall 46 to the support surface 36 by the lock mechanism 54 is released based on an operation of the operation lever 53, the movable wall 46 is continuously moved along the guide groove 49 using the display portions 56 as a guide so as to come into contact with the liquid container 30 on the support surface 36. Here, the movable wall 46 comes into contact with the liquid container 30 so as to sandwich the liquid container 30 between itself and the side wall 38 (fixed wall) in a direction in which the guide groove 49 (center line CL) extends as a result of the movable wall 46 being caused to approach or separate from the side wall 39. Thereafter, the movable wall 46 is fixed to the support surface 36 by the lock mechanism 54 based on an operation of the operation lever 53.
According to the present embodiment described above in detail, the following effects are obtained.
(1) Even if the size of the liquid container 30 varies, as a result of the liquid container 30 being positioned by causing the movable walls 44, 45, and 46 to come into contact with the liquid container 30 on the support surface 36, the change in orientation and position of the liquid container 30 can be suppressed.
(2) The movable walls 44, 45, and 46 can be continuously moved when the movable walls 44, 45, and 46 are caused to come into contact with the liquid container 30 on the support surface 36. Accordingly, even if the size of the liquid container 30 varies, the positions of the movable walls 44, 45, and 46 can be finely adjusted so as to come into contact with such a liquid container 30.
(3) The aforementioned movements of the movable walls 44, 45, and 46 are performed along the guide grooves 47, 48, and 49 on the support surface 36. In other words, the movements of the movable walls 44, 45, and 46 are guided by the guide grooves 47, 48, and 49. Therefore, the movements of the movable walls 44, 45, and 46 can be performed more appropriately.
(4) When the movable walls 44, 45, and 46 are moved so as to come into contact with the liquid container 30, because the positions to which the movable walls 44, 45, and 46 are to be moved can be determined using the display portions 55 and 56 on the support surface 36 as a guide, the determination can be performed easily.
(5) The movable walls 44 and 45 can be fixed (positioned) to the support surface 36 by the lock mechanism 52 based on an operation of the operation lever 51. On the other hand, when the fixing of the movable walls 44 and 45 to the support surface 36 by the lock mechanism 52 is released based on an operation of the operation lever 51, the movable walls 44 and 45 can be moved on the support surface 36. Accordingly, the movable walls 44 and 45 can be positioned, or the movable walls 44 and 45 can be moved by merely operating the operation lever 51 of the lock mechanism 52.
(6) The movable wall 46 can be fixed (positioned) to the support surface 36 by the lock mechanism 54 based on an operation of the operation lever 53. On the other hand, when the fixing of the movable wall 46 to the support surface 36 by the lock mechanism 54 is released based on an operation of the operation lever 53, the movable wall 46 can be moved on the support surface 36. Accordingly, the movable wall 46 can be positioned, or the movable wall 46 can be moved by merely operating the operation lever 53 of the lock mechanism 54.
(7) The movable wall 44 is caused to come into contact with the liquid container 30 on the support surface 36 by being moved in one direction (left direction in
(8) Since the movable walls 44 and 45 come into contact with the liquid container 30 on the support surface 36 as a result of the movable walls 44 and 45, in conjunction with each other, approaching or separating from each other, the liquid container 30 can be held at the center between the movable wall 44 and the movable wall 45 regardless of the size of the liquid container 30.
(9) As a result of sandwiching the liquid container 30 on the support surface 36 between the movable wall 46 and the side wall 39 (fixed wall), the liquid container 30 can be stably held on the support surface 36, and the change in orientation and position of the liquid container 30 can be effectively suppressed.
(10) Some of the side walls 37, 38, 39, and 40 (side wall 39) that protrude from edges of the support surface 36 function as the fixed wall that sandwich the liquid container 30 between itself and the movable wall 46. The structure of the liquid container tray 31 can be simplified by an amount that corresponds to the fixed wall also functioning as the side wall.
(11) Since the movable wall 46 and the side wall 39 are provided so as to oppose each other on the center line CL, a state is realized in which the liquid container 30 is held at a position closer to the center of the support surface 36 (closer to the center line CL) as a result of sandwiching the liquid container 30 between the movable wall 46 and the side wall 39. In this state, because the position of the center of gravity of the liquid container tray 31 is made closer to the center of the support surface 36, the liquid container tray 31 is unlikely to incline when the liquid container tray 31 is carried so as to be attached to the printer 11, or the like.
(12) The side wall 39 is provided with the positioning portion 41 for positioning the liquid outlet portion 32 of the liquid container 30, and the liquid container 30 is sandwiched between the side wall 39 and the movable wall 46 in a state where the liquid outlet portion 32 is positioned to the positioning portion 41. Therefore, the liquid container 30 can be held on the support surface 36 between the movable wall 46 and the side wall 39 while the liquid outlet portion 32 of the liquid container 30 is reliably positioned by the positioning portion 41.
(13) When the movable walls 44, 45, and 46 move and come into contact with the liquid container 30 on the support surface 36, opposing surfaces of the movable walls 44, 45, and 46 that oppose the liquid container 30 come into contact with the liquid container 30. Since the opposing surfaces are rough surfaces, the liquid container 30 is unlikely to slide relative to the opposing surfaces when the movable walls 44, 45, and 46 are moved such that the opposing surfaces come into contact with the liquid container 30.
(14) The right end in the moving range of the movable wall 44 in
(15) The protruding heights of the movable walls 44, 45, and 46 relative to the support surface 36 are smaller than the protruding heights of the side walls 37, 38, 39, and 40 relative to the support surface 36. Therefore, the leading ends of the movable walls 44, 45, and 46 in the protruding direction do not protrude out past (upper side) the leading ends of the side walls 37, 38, 39, and 40 in the protruding direction, and the movable walls 44, 45, and 46 are unlikely to interfere with components or the like that constitute the printer 11 when the liquid container tray 31 is attached to the printer 11.
Note that the aforementioned embodiment can be changed as follows, for example.
The entire disclosure of Japanese Patent Application No. 2015-232004, filed Nov. 27, 2015, is expressly incorporated by reference herein.
Number | Date | Country | Kind |
---|---|---|---|
2015-232004 | Nov 2015 | JP | national |