Aspects of the present disclosure relate to an ink tank used for an ink jet printing apparatus that ejects ink and records an image, and the ink jet printing apparatus including the ink tank.
Japanese Patent Application Laid-Open No. 2007-253328 discusses an ink tank including an ink chamber that contains ink, an ink supply port provided in the ink chamber, and an external air introduction path that introduces external air into the ink chamber as the ink is consumed, and an air chamber provided halfway in the external air introduction path.
In the ink tank, even if the air in the ink chamber thermally expands due to a change in environment temperature and the ink in the ink chamber flows back through the external air introduction path, the ink can be stored in the air chamber so that the ink can be prevented from leaking to the outside.
In the ink tank discussed in Japanese Patent Application Laid-Open No. 2007-253328, respective covers for covering an opening of the ink chamber and an opening of the air chamber need to be provided and bonded thereto in a manufacturing process. At this time, in a case where there is an adhesion failure in thermal welding or ultrasonic welding or a component failure such as a step or a recess between the ink chamber and the air chamber, the cover does not normally adhere to the ink tank, so that a gap may be made between adhesive surfaces. When such a gap is made, air enters the ink chamber from not the external air introduction path but the gap. As a result, the function of the air chamber of preventing ink from leaking to the outside may not be sufficiently exhibited.
Aspects of the present disclosure are directed to providing an ink tank that enables to check whether a cover of the ink tank is normally bonded to the ink tank.
According to an aspect of the present disclosure, an ink tank includes a first chamber having a supply port for supplying ink to a printing head that ejects ink and configured to contain ink, a second chamber having an external air introduction port capable of introducing external air and configured to contain air, a partition wall configured to separate the first chamber and the second chamber, a communication path provided in the partition wall and configured to place the first chamber and the second chamber in communication with each other, a first cover member configured to cover an opening of the first chamber without extending over an opening of the second chamber, and a second cover member configured to cover the opening of the second chamber without extending over the opening of the first chamber.
Further features of the present disclosure will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
A first exemplary embodiment will be specifically described below with reference to the drawings.
The printing media P loaded on the cassette 2 are separated one by one by the feeding roller 3, and the printing medium P is fed to the conveyance roller 4 while being guided by a sheet guide. The printing medium P, which has reached the conveyance roller 4, is pinched between the conveyance roller 4 and a pinch roller 5, and is conveyed to a position where it opposes the printing head 10 while being supported from below by a platen 8. The printing head 10 is removably mounted on a carriage. The carriage is supported movably in a direction perpendicular to a conveyance direction of the printing medium P. Ink is ejected by the printing head 10 while the carriage is moving, and an image corresponding to one band is formed on the conveyed printing medium P. The printing medium P on which the image corresponding to one band is formed is intermittently conveyed by a predetermined conveyance amount to form an image corresponding to a subsequent one band thereon. Such an intermittently conveying operation and an image forming operation are alternately repeated so that an image is formed on the entire printing medium P. The printing medium P on which the image has been formed is pinched between a discharge roller 6 and a spur roller 7 and is conveyed to discharge onto a discharge tray (not illustrated).
A configuration of the ink tank according to the first exemplary embodiment will be described below.
The ink tank 21 is removably mounted on a mounting portion provided in the carriage. The ink tank 21 is mounted for each corresponding ink color (e.g., black Bk, cyan C, magenta M, or yellow Y). The ink tank 21 contains ink to be supplied to the printing head 10. The ink tank 21 includes a tank container 22, a first cover member 23, and a second cover member 24. The ink tank 21 includes an ink chamber (first chamber) 201 serving as a space for containing ink and an air chamber (second chamber) 202 serving as a space for containing air. The air chamber 202 is provided above the ink chamber 201. A partition wall 26 separates the ink chamber 201 and the air chamber 202. An opening of the ink chamber 201 is covered with a first cover member 23. An opening of the air chamber 202 is covered with a second cover member 24. An ink supply port 25 for connecting and communicating the ink chamber 201 and an ink receiving portion of the printing head 10 with each other is provided on a bottom surface of the ink chamber 201. An external air introduction port 27 capable of introducing external air into the ink chamber 201, which communicates with the atmosphere, as ink in the ink chamber 201 is consumed is provided on an upper surface of the air chamber 202. The partition wall 26 between the ink chamber 201 and the air chamber 202 is provided with a minute communication portion (communication path) 28. The ink chamber 201 and the air chamber 202 are in communication with each other via the communication path 28. The ink chamber 201 is in communication with the atmosphere by the external air introduction port 27 via the communication path 28 and the air chamber 202. The air chamber 202 usually contains air. However, the air chamber 202 can contain ink in its inner part so that the ink does not leak to the outside when the ink flows back through the communication path 28 because the air in the ink chamber 201 thermally expands.
The first cover member 23 and the second cover member 24 are bonded to the tank container 22 to form the ink chamber 201 and the air chamber 202, respectively, by a method such as ultrasonic welding or thermal welding. After the adhesion, a leak check (described below) is performed to check whether the first cover member 23 and the second cover member 24 are normally bonded to the tank container 22. The leak check is for checking whether there is a gap between an adhesive surface of the ink tank 21 and the cover. If there is a gap, a problem that, for example, the ink in the ink tank 21 may leak out, and the ink that has flowed back due to thermal expansion cannot be contained in the air chamber 202 may occur.
A leak checking method in the present exemplary embodiment will be described below.
A conventional ink tank 31 has a configuration in which one cover member 33 covering an ink chamber 301 and an air chamber 302 adhere to a tank container 32, as illustrated in
In the present exemplary embodiment, the opening of the ink chamber 201 and the opening of the air chamber 202 are respectively formed on different surfaces, and the first cover member 23 covering the opening of the ink chamber 201 and the second cover member 24 covering the opening of the air chamber 202 are separately bonded to the tank container 22. Thus, in the above described leak check, it is also possible to check not only whether the first cover member 23 and the second cover member 24 are normally bonded to respective outer peripheral portions of the tank container 22, but also whether the first cover member 23 and the second cover member 24 are normally bonded to the partition wall 26. As a result, it can be determined that the function of the ink tank 21 has been ensured.
As described above, in the ink tank according to the present exemplary embodiment, it can be checked whether the cover of the ink tank is normally bonded to the ink tank by the above described leak check.
According to aspects of the present disclosure, a space provided in the ink tank is not limited to an ink chamber and an air chamber. A first chamber may contain a negative pressure generation member that holds ink, and a second chamber may contain ink to be supplied to the first chamber. In this case, two covers can also respectively form the first chamber and the second chamber, like in the first exemplary embodiment. Therefore, an ink tank the function of which has been ensured can be determined by a similar leak check.
A second exemplary embodiment of will be described below. Description of a similar configuration to that in the first exemplary embodiment will not be repeated, and only a different portion will be described.
Even in a case where the ink tank 41 is configured as described above, it can be checked by the leak check illustrated in
As described above, an effect of the present disclosure can be also obtained in the present exemplary embodiment, like in the first exemplary embodiment.
A third exemplary embodiment will be described below. Description of a similar configuration to that in the first exemplary embodiment will not be repeated, and only a different portion will be described.
Even in a case where the ink tank 51 is configured as described above, it can be checked by the leak check illustrated in
As described above, an effect of the present disclosure can be also obtained in the present exemplary embodiment, like in the above described exemplary embodiments.
A fourth exemplary embodiment will be described below. Description of a similar configuration to that in the first exemplary embodiment will not be repeated, and only a different portion will be described.
Even in a case where the ink tank 61 is configured as described above, it can be checked by the leak check illustrated in
As described above, an effect of the present disclosure can be obtained in the present exemplary embodiment, like in the above described exemplary embodiments.
A fifth exemplary embodiment will be described below. Description of a similar configuration to that in the first exemplary embodiment will not be repeated, and only a different portion will be described.
An ink injection port 71 for a user to inject ink is provided, as illustrated in
The ink tank 112 includes a tank container 72, a first cover member 73, and a second cover member 74. The ink tank 112 includes an ink chamber (first chamber) 701 serving as a space for containing ink and an air chamber (second chamber) 702 serving as a space for containing air. The air chamber 702 is provided above the ink chamber 701. A partition wall 76 separates the ink chamber 701 and the air chamber 702. An opening of the ink chamber 701 is covered with the first cover member 73. An opening of the air chamber 702 is covered with the second cover member 74. An ink supply port 75 for connecting a supply tube, which places the ink chamber 701 and a printing head in communication with each other, is provided in the vicinity of a bottom surface of the ink chamber 701. An external air introduction port 77 capable of introducing external air into the ink chamber 701, which is in communication with the atmosphere, as ink in the ink chamber 701 is consumed is provided on an upper surface of the air chamber 702. A partition wall 76 between the ink chamber 701 and the air chamber 702 is provided with a minute communication portion (communication path) 78. The ink chamber 701 and the air chamber 702 are in communication with each other via the communication path 78. The ink chamber 701 is in communication with the atmosphere by the external air introduction port 77 via the communication path 78 and the air chamber 702. While the air chamber 702 usually contains air, the air chamber 702 can contain ink therein so that the ink does not leak to the outside when the ink flows back through the communication path 28 because the air in the ink chamber 701 thermally expands.
A leak checking method in the present exemplary embodiment will be described below.
In the present exemplary embodiment, the opening of the ink chamber 701 and the opening of the air chamber 702 are respectively formed on different surfaces, and the first cover member 73 covering the opening of the ink chamber 701 and the second cover member 74 covering the opening of the air chamber 702 are separately bonded to the tank container 72. Thus, in the above described leak check, it is possible to check not only whether the first cover member 73 and the second cover member 74 are normally bonded to respective outer peripheral portions of the tank container 72, but also whether the first cover member 73 and the second cover member 74 are normally bonded to the partition wall 76. As a result, an ink tank the function of which has been ensured can be determined.
As described above, in the ink tank according to the present exemplary embodiment, it can be checked whether the cover of the ink tank is normally bonded to the ink tank by the above described leak check.
In other words, aspects of the present disclosure can provide an ink tank that enables to check whether a cover of the ink tank is normally bonded to the ink tank.
While aspects of the present disclosure has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary 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.
Number | Date | Country | Kind |
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2015-214969 | Oct 2015 | JP | national |
This application is a continuation of U.S. patent application Ser. No. 16/370,695, filed Mar. 29, 2019, which is a continuation of U.S. patent application Ser. No. 15/336,572, filed Oct. 27, 2016, now U.S. Pat. No. 10,272,688 issued Apr. 30, 2019, which claims the benefit of Japanese Patent Application No. 2015-214969, filed Oct. 30, 2015, each of which is hereby incorporated by reference herein in their entirety.
Number | Name | Date | Kind |
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20110100998 | Komaki | May 2011 | A1 |
20120013687 | Ishizawa et al. | Jan 2012 | A1 |
Number | Date | Country |
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4707498 | Jun 2011 | JP |
2013-184433 | Sep 2013 | JP |
2017-081123 | May 2017 | JP |
Number | Date | Country | |
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20220016891 A1 | Jan 2022 | US |
Number | Date | Country | |
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Parent | 16370695 | Mar 2019 | US |
Child | 17489558 | US | |
Parent | 15336572 | Oct 2016 | US |
Child | 16370695 | US |