The disclosure relates to a liquid holding container that contains and holds a liquid, and to a recording apparatus.
Conventionally, among business-use inkjet printers for a large amount of printing and inkjet printers for a large-scale printed material such as a poster, there has been a printer that includes a detachable liquid holding container that contains and holds waste ink. The waste ink results from operation such as cleaning operation for inhibiting an ejection failure of a recording head. The amount of the waste ink increases with the printing operation time. To address such an increase, an absorber such as felt is provided inside the liquid holding container. The absorber absorbs the waste ink and holds the absorbed waste ink.
Japanese Patent Application Laid-Open No. 2005-131945 discusses a liquid holding container that has a container unit and a cover unit. The container unit is shaped like a box. The container unit has an opening in an upper portion, and contains an absorber. The cover unit is attached to cover the opening of the container unit, and has an opening portion for introducing a liquid into the container unit. The absorber is made of a sheet-shaped member such as felt having ink absorbency. The absorber is configured to be laminated from a bottom face portion to a top face portion (the cover unit) of the liquid holding container. The absorber has a shape and a size that substantially match with an inner surface of the liquid holding container to be in contact with a side face portion of the liquid holding container without creating clearance.
In the liquid holding container discussed in Japanese Patent Application Laid-Open No. 2005-131945, the absorber made of felt absorbs the ink by utilizing a strong capillary action of fiber, and holds the ink against gravity. However, in a case where a large height difference is caused in the absorber, such as a case where the liquid holding container is tilted, for example, 90 degrees, the capillary action becomes weaker as the height of a liquid surface becomes higher. Thus, a balance with gravity is lost, and the ink held by the absorber falls due to gravity. As a result, the ink seeping from the absorber may leak from the clearance between the container unit and the cover unit.
The disclosure is directed to a liquid holding container that inhibits leakage of liquid from inside even in a tilted state.
According to an aspect of the disclosure, a liquid holding container includes a top face portion having an opening portion, a bottom face portion facing the top face portion, a first ink absorber being disposed near the opening portion and layered in a first direction from the bottom face portion to the top face portion, the first ink absorber being configured to absorb a liquid introduced from the opening portion, and a second ink absorber being disposed outside the first absorber in a second direction that intersects the first direction and layered in the second direction, the second ink absorber being configured to absorb the liquid moving from the first ink absorber.
In such a liquid holding container, the first absorber is disposed near the opening portion, and the second absorber configured to be layered is provided outside the first absorber. Therefore, even in a case where the liquid holding container is vertically tilted, ink that cannot be held by the first absorber and thus can seep from the first absorber can be held by the second absorber. Accordingly, leakage of e ink to the outside of the liquid holding container can be inhibited.
Further features and aspects of the disclosure will become apparent from the following description of example embodiments with reference to the attached drawings.
Example embodiments of the disclosure and various aspects thereof will be described below with reference to the drawings. Portions identical or corresponding to each other are provided with the same sign.
A recording apparatus 20 includes a guide rail 1, a sub-rail 2 provided parallel to the guide rail 1, and a carriage 3 mounted on the guide rail 1. The carriage 3 is provided with a recording head 4 that discharges ink. The recording head 4 is connected to an ink tank 6 via liquid supply tubes 5. The ink tank 6 contains ink to be supplied to the recording head 4. The carriage 3, which is guided by the guide rail 1 and the sub-rail 2, moves in an arrow B direction, and the recording head 4 discharges inks of different colors, and thus an image is recorded on a recording sheet S that is conveyed in a conveyance direction A.
In the recording apparatus 20, by repeating ejections of the liquid, heat is generated and thus produces air bubbles in the ink inside the recording head 4. Since the air bubbles can cause an ejection failure, recovery operation is performed, for example, to remove the air bubbles. The recording apparatus 20 includes a recovery unit 7 and a waste liquid holding container (a liquid holding container) 9. The recovery unit 7 performs recovery operation for the recording head 4. The waste liquid holding container (the liquid holding container) 9 contains and holds waste ink that is collected from the recording head 4 by the recovery operation. The waste liquid holding container 9 is detachably attached to a frame 21. The waste liquid holding container 9 moves in an arrow Y1 direction to be detached from the frame 21, and moves in an arrow Y2 direction to be attached to the frame 21.
In the recovery operation for the recording head 4, the carriage 3 moves to a recovery operation position H, and a cap 8 seals (caps) the recording head 4. In this state, the recovery unit 7 sucks the ink inside the recording head 4 by, for example, performing suction operation using a pump mechanism (not illustrated) such as a tube pump. The sucked ink (the waste ink) is discharged from a waste ink tube 28 to the waste liquid holding container 9, by passing through a discharging unit 14. The waste liquid holding container 9 is installed immediately below the discharging unit 14.
A configuration of the waste liquid holding container 9 according to the present example embodiment will be described with reference to
The waste liquid holding container 9 includes an absorber 60, a container unit 11, and a cover unit 10, The absorber 60 absorbs a liquid. The container unit 11 is rectangular-box shaped and includes an opening in an upper portion and the absorber 60 therein. The cover unit 10 is attached to cover the opening of the container unit 11. A waste ink introduction port (an opening portion) 12 is formed in a top face portion, i.e., the cover unit 10, of the waste liquid holding container 9. The waste ink introduction port 12 is formed to introduce the waste ink from the discharging unit 14 into the container unit 11. A front surface of the cover unit 10 includes operation portions 39a to 39c indicating areas that a user can touch in attachment/detachment operation of the waste liquid holding container 9, In the present example embodiment, the waste liquid holding container 9 has such a shape that a width (a length in the arrow B direction in
The waste ink collected from the recording head 4 by the recovery operation is introduced into the waste liquid holding container 9 from the discharging unit 14 through the waste ink introduction port 12, The introduced waste ink is absorbed and held by the absorber 60, The waste ink is accumulated in the waste liquid holding container 9 and an integrated amount is measured by a waste ink counter (not illustrated) of the recording apparatus 20, When the integrated amount exceeds a predetermined amount, replacement of the waste liquid holding container 9 is notified to the user. The user detaches the waste liquid holding container 9, which is filled with the waste ink, from the frame 21, and attaches a new waste liquid holding container as a replacement.
Next, a configuration of the absorber used for the waste liquid holding container according to the present example embodiment will be described with reference to
The absorber 60 includes a first absorber 61 and a second absorber 62 each made of a material having ink absorbency. The first absorber 61 is disposed near the waste ink introduction port 12 of the cover unit 10. In the present example embodiment, the first absorber 61 is made of a sheet member including a plurality of layers laminated from a bottom face portion 67 of the container unit 11 to the cover unit 10. The first absorber 61 is disposed to be in contact with the bottom face portion 67 of the container unit 11. A waste ink introduction portion (a through opening) 63 is formed in the first absorber 61. The waste ink introduction portion 63 communicates with the waste ink introduction port 12 by passing through the first absorber 61 in a lamination direction of the sheet member.
As illustrated in
The second absorber 62 is disposed outside the first absorber 61, in a direction that intersects the lamination direction (a first lamination direction) of the sheet member of the first absorber 61, The second absorber 62 is configured to be layered in this intersecting direction (a second lamination direction), In the present example embodiment, the first lamination direction and the second lamination direction are orthogonal to each other. In the present example embodiment, the second absorber 62 has a layered structure in which one sheet member is folded to have a bellows-like shape. The second absorber 62 is disposed between a side face portion 68 of the container unit 11 in a longitudinal direction X of the waste liquid holding container 9 and the first absorber 61. In other words, the second absorber 62 is disposed next to the first absorber 61, in a longitudinal direction of the first absorber 61 formed to have a rectangular shape as viewed from the lamination direction of the sheet member. In the present example embodiment, a fold portion of the sheet member of the second absorber 62 faces the bottom face portion 67 of the container unit 11 and a back surface 13 of the cover unit 10. However, the fold portion may face a side face portion of the container unit 11 in a transverse direction Y of the waste liquid holding container 9. Further, a break may be formed in part to become a fold in the sheet member of the second absorber 62 to make it easy to fold the sheet member. The second absorber 62 is disposed between the first absorber 61 and the side face portion 68 of the container unit 11, while being compressed to some extent to be in contact with each of the first absorber 61 and the side face portion 68 without creating clearance. The second absorber 62 is disposed while being compressed to some extent to be also in contact with each of the bottom face portion 67 of the container unit 11 and the cover unit 10 without creating clearance.
The back surface 13 (a surface facing the absorber 60) of the cover unit 10 is provided with a rib 72 that protrudes toward the first absorber 61 and abuts the first absorber 61. The rib 72 is provided to form a space 64 between the cover unit 10 and the first absorber 61, while compressing the first absorber 61 in the lamination direction. A vent (a hole portion) 66 that communicates with the inside of the waste liquid holding container 9 is formed in an area facing the first absorber 61 of the cover unit 10, The first absorber 61 is exposed to the outside (atmosphere) by the space 64 and the vent 66. Thus, evaporation of the waste ink held by the first absorber 61 is accelerated, so that the first absorber 61 can absorb and hold the waste ink more. As a result, the amount of the waste ink to be contained in the waste liquid holding container 9 can be increased, and thereby the frequency of replacement of the waste liquid holding container 9 can be lower. On the other hand, the rib 72 and the vent 66 are not provided in a portion of the back surface 13 of the cover unit 10 that is facing the second absorber 62. In other words, the second absorber 62 is disposed to be in contact with the back surface 13 of the cover unit 10, without being exposed to the outside (atmosphere).
Next, how the waste ink introduced into the waste liquid holding container penetrates the absorber will be described with reference to
When the waste ink introduced into the waste ink introduction portion 63 reaches an inner bottom face 67a of the container unit 11, the waste ink spreads within a first layer 61A of the first absorber 61. The first absorber 61 is disposed to be in contact with the inner bottom face 67a. The first layer 61A is located at the lowest part of the first absorber 61 in a vertical direction (the first lamination direction), in a use state of the recording apparatus 20. The ink is absorbed while spreading horizontally in the inside of the first layer 61A, Since the first layer 61A is compressed in the vertical direction (the first lamination direction) by the rib 72, the ink is also absorbed by a second layer 61B located above the first layer 61A due to the capillary force of fiber, Note that, due to the action of gravity, an ink amount to be absorbed by the first layer 61A is greater than an ink amount to be absorbed by the second layer 61B, As indicated by hatched lines in
In the use state of the recording apparatus 20 illustrated in
In general, an absorber made of a material such as felt holds ink by utilizing a strong capillary action of fiber. When the absorber is vertically tilted, a balance with gravity s lost, and the ink held in the absorber falls due to gravity in some cases. As a result, an upper portion of the absorber holds a smaller amount of ink. In other words, in the absorber, a proportion of ink to the amount of ink to be held (a retention rate of ink) varies with height from the inner bottom face 67a, and thus a lower portion of the absorber in the direction of gravity has a higher retention rate of ink.
In a case where the waste liquid holding container 9 is vertically tilted as illustrated in
The ink absorbed by the first layer 62A of the second absorber 62 spreads in an arrow T direction due to the property of the absorber. After the ink spreads to some extent, the ink moves to a second layer 62B below the first layer 62A to be held by the second layer 62B. The ink then farther moves sequentially to a lower layer to be held by the lower layer. Due to the property of the absorber, a movement of a liquid easily occurs on a cutting surface, whereas a movement of a liquid does not easily occur on a front surface. Therefore, much of the overflow of the ink moving downward from the cutting surface of the first absorber 61 is absorbed from a cutting surface of the first layer 62A of the second absorber 62, upon moving on the bottom face 67a of the container unit 11, The first layer 62A and the second layer 62B located below the first layer 62A are in contact with each other with the respective front surfaces touching each other. Since a movement of a liquid does not easily occur on a front surface, the ink absorbed by the first layer 62A spreads in the arrow T direction. The overflow of the ink, which exceeds an amount that can be held by the first layer 62A, seeps from the cutting surface of the first layer 62A, and moves on the inner bottom face 67a and the back surface 13 of the cover unit 10, and is absorbed from a cutting surface of the second layer 62B. As a result, even in a case where the waste liquid holding container 9 is vertically tilted so that the longitudinal direction X extends vertically, the second absorber 62 prevents the ink from directly reaching the inner side face 68a. Therefore, leakage of the ink to the outside of the waste liquid holding container 9 can be inhibited for a predetermined time.
In a case where the second absorber 62 is laminated in the same direction as that of the first absorber 61, the cutting surface of the second absorber 62 faces downward when the waste liquid holding container 9 is vertically tilted, Therefore, the overflow of the ink from the cutting surface easily reaches the inner side face 68a. This increases the possibility of leakage of the ink from the waste liquid holding container 9. In the present example embodiment, the lamination is provided to prevent the cutting surface of the second absorber 62 from facing downward in a case where the waste liquid holding container 9 is vertically tilted. Thus, the ink holding power of the waste liquid holding container 9 can be increased.
In the present example embodiment, in a case where the waste liquid holding container 9 is vertically tilted, so that the transverse direction Y of the waste liquid holding container 9 extends vertically, a height difference of the first absorber 61 (the length of the transverse direction Y) is small. Thus, the ink can be held in the first absorber 61, and leakage of the ink to the outside does not easily occur. Hence, the second absorber 62 is not disposed at both ends of the first absorber 61 in the transverse direction Y of the waste liquid holding container 9. However, in a case where the length of the first absorber 61 in the transverse direction Y of the waste liquid holding container 9 is long, the second absorber 62 may be provided at both ends of the first absorber 61 in the transverse direction Y of the first absorber 61. In the present example embodiment, the second absorber 62 is disposed between the first absorber 61 and the side face portion 68 of the container unit 11 to be in contact with each of the first absorber 61 and the side face portion 68 without creating clearance. However, clearance may be provided with respect to each of the first absorber 61 and the side face portion 68, if the overflowing ink from the first absorber 61 can be held.
As described above, according to the waste liquid holding container of the present example embodiment, even in a case where the waste liquid holding container is vertically tilted, the ink seeping from the first absorber can be held by the second absorber. Therefore, leakage of the ink to the outside of the waste liquid holding container can be inhibited. It is therefore unnecessary to provide a sealing member that inhibits leakage of the ink, in clearance between the container unit and the cover unit, so that the waste liquid holding container can be provided at low cost. In addition, it is not necessary to increase the size of the first absorber to inhibit leakage by increasing the amount of ink to be held, and therefore downsizing of the waste liquid holding container can be realized.
According to the example embodiment of the disclosure, even in a state where the liquid holding container is tilted, leakage of a liquid from inside can be inhibited.
While the disclosure has been described with reference to example embodiments, it is to be understood that the disclosure is not limited to the disclosed example embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2018-014555, filed Jan. 31, 2018, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2018-014555 | Jan 2018 | JP | national |
Number | Name | Date | Kind |
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20070076046 | Toki | Apr 2007 | A1 |
Number | Date | Country |
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2005-131945 | May 2005 | JP |
Number | Date | Country | |
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20190232677 A1 | Aug 2019 | US |