This application is based upon and claims the benefit of priority from prior Japanese Patent Application No. 2006-056488, filed Mar. 2, 2006, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to an image recording apparatus in which maintenance of a recording head that discharges ink is improved.
2. Description of the Related Art
An inkjet recording apparatus generally discharges ink from each nozzle in a recording head to record (print), e.g., an image on a recording medium. In the inkjet recording apparatus, maintenance is performed to prevent each nozzle from being clogged with the ink. The maintenance must be carried out periodically or in accordance with the number of recorded sheets of the recording medium.
For example, when the recording apparatus is not used for a long time, ink that has adhered to each nozzle in the inkjet recording head is dried. As a result, clogging of each nozzle may not be eliminated even if the maintenance is performed. The ink must be prevented from drying by shielding each nozzle from outside air in order to avoid clogging of each nozzle.
Besides, e.g., Jpn. Pat. Appln. KOKAI Publication No. 1993-131639 discloses a technology of preventing ink in a recording head from drying. Jpn. Pat. Appln. KOKAI Publication No. 1993-131639 discloses a cap member in an inkjet recording apparatus. A suction path through which ink is led by suction and a sealing portion having a sealing holding groove formed therein are provided to the cap member. An annular sealing member, separately prepared, is attached to the sealing holding groove of the sealing portion. The sealing member is formed by using an elastic member. In the cap member having this structure, the sealing portion (sealing member) is in contact with the ink discharge surface of a recording head. With this structure, the ink discharge surface of the recording head is hermetically sealed with the sealing portion of the cap member, and the ink is prevented from evaporating.
According to a first aspect of the present invention, there is provided an image recording apparatus comprising: at least one recording head having a plurality of nozzles that discharge ink; a protruding member provided on the recording head side; and a droplet receiving portion on which a flat surface portion that comes into contact with the protruding member is formed and which receives the ink dropping from the recording head, wherein the plurality of nozzles are covered with a hermetically closed space formed by contact of the protruding member and the flat surface portion.
An embodiment according to the present invention will now be explained hereinafter with reference to the accompanying drawings.
A sensor 6 is disposed on the sub-ink tank 5. The sensor 6 detects that the amount of ink 2 supplied from the ink tank 1 to the sub-ink tank 5 has reached a fixed value. As a result, the fixed amount of ink 2 is accommodated in the sub-ink tank 5. At this time, a space 7 is formed at an upper part in the sub-ink tank 5. An ink supply tube 8 is provided to the sub-ink tank 5. One end opening of the ink supply tube 8 is immersed in the ink 2 accommodated in the sub-ink tank 5. The other end opening of the ink supply tube 8 is connected with an ink distributor 9.
A plurality of recording heads 12 are connected with the ink distributor 9 through respective ink inflow paths 10 and respective connecting portions 11. Each ink inflow path 10 supplies the ink 2 in the ink distributor 9 to each recording head 12. Each connecting portion 11 enables connection and disconnection between the ink distributor 9 and each recording head 12.
As shown in
An ink pan 13 is provided below the respective recording heads 12. The ink pan 13 receives the ink 2 dropping from the respective recording heads 12. A head cap portion 15 as a droplet receiving portion is provided in the ink pan 13. A plurality of elastic members 14, e.g., springs support the head cap portion 15. A flat surface portion 16 is formed on a surface of the head cap portion 15 facing the respective recording heads 12.
In such a structure, the head cap portion 15 is brought into contact with the recording head 12 (the protruding member 19). As a result, the nozzle surface 17 of the recording head 12, the protruding member 19, and the flat surface portion 16 form a hermetically closed space. Each nozzle 18 of the recording head 12 is covered with this hermetically closed space. Therefore, each nozzle 18 of the recording head 12 is capped with the head cap portion 15.
The flat surface portion 16 is formed on the head cap portion 15 to face the nozzle surface 17 of the recording head 12. The flat surface portion 16 is provided substantially parallel to the nozzle surface 17 of the recording head 12. The flat surface portion 16 is formed of a rigid body. The flat surface portion 16 is formed to have an area wider than that of a region where the protruding member 19 is provided. As a result, the flat surface portion 16 is formed to have an area that enables connection with the protruding member 19. The suction hole 20 is provided in the flat surface portion 16 of the head cap portion 15. The suction hole 20 is provided at each position corresponding to each recording head 12. A suction path 21 is provided in the head cap portion 15. The suction hole 20 communicates with the suction path 21.
The plurality of elastic members 14 are provided on the lower surface of the head cap portion 15 as shown in
A maintenance mechanism will now be explained. As shown in
A waste liquid tube 26 as a waste liquid system is connected with a bottom portion of the suction chamber 24. The waste liquid tube 26 is connected with a sub-waste ink tank 27 through an electromagnetic valve 47. A waste liquid tube 28 is connected with the sub-waste ink tank 27. The waste liquid tube 28 is connected with a bottom portion of the ink pan 13. The waste liquid tube 28 supplies a waste liquid of the ink 2 that has dropped into the ink pan 13 from each recording head 12 to the sub-waste ink tank 27 in the form of natural drop. One end opening of a waste liquid tube 29 is connected with a bottom part of the sub-waste ink tank 27. The other end opening of waste liquid tube 29 is connected with a waste ink tank 30. An overflow tube 31 is provided between an upper part of the sub-waste ink tank 27 and the waste ink tank 30.
A filter unit 32 as the waste liquid system is provided above the ink tank 1. An upper part of the filter unit 32 is connected with the upper part of the ink tank 1 via a tube 33. An overflow tank 34 is provided below the sub-ink tank 5. The upper part of the filter unit 32 is connected with an upper part of the overflow tank 34 via a tube 35. An upper part of the sub-ink tank 5 is connected with the upper part of the overflow tank 34 via a tube 36. A valve 37 is provided on the tube 36. A bottom part of the filter unit 32 is connected with a upper part of the sub-waste ink tank 27 via a tube 38. One end opening of a tube 39 is connected with the tube 38. The other end opening of the tube 39 is connected with the overflow tank 34.
A maintenance operation by the maintenance mechanism of each recording head 12 will now be explained with reference to a flowchart of a maintenance operation depicted in
For example, an ink distributor 9k for the K color and an ink distributor 9c for the C color are integrally provided. An ink distributor 9m for the M color and an ink distributor 9y for the Y color are integrally provided. A recording heads 12k are respectively connected with the ink distributor 9k via a respective ink inflow paths 10k. A recording heads 12c are respectively connected with the ink distributor 9c via a respective ink inflow paths 10c. A recording heads 12m are respectively connected with the ink distributor 9m via a respective ink inflow paths 10m. A recording heads 12y are respectively connected with the ink distributor 9y via a respective ink inflow paths 10y.
In the maintenance operation, a respective ink pans 13k, 13c, 13m, and 13y for K, C, M, and Y are provided at positions where they face the respective recording heads 12. A head cap portions 15k, 15c, 15m and 15y are respectively provided on the ink pans 13k, 13c, 13m, and 13y. The respective head cap portions 15k, 15c, 15m, and 15y are supported by a respective elastic members 14k, 14c, 14m, and 14y.
An elevating mechanism W1 moves up and down the respective ink pans 13k, 13c, 13m, and 13y in a Z-axis direction. An X-axis driving mechanism W2 moves the respective ink pans 13k, 13c, 13m, and 13y in the X-axis direction.
In a recording operation, the respective recording heads 12k, 12c, 12m, and 12y discharge the inks 2 of the respective colors K, C, M, and Y. As a result, the recording medium is spotted with the inks 2 of the respective colors, thereby recording the image on the recording medium.
The maintenance step F1 depicted in
Then, when the maintenance operation begins, as represented by the maintenance step F2, the elevating mechanism W1 moves down the respective ink pans 13k, 13c, 13m, and 13y. The respective ink pans 13k, 13c, 13m, and 13y move down to reach predetermined positions below the respective protruding members 19 of the respective recording heads 12k, 12c, 12m, and 12y. At this time, the elevating mechanism W1 stops downward movement of the respective ink pans 13k, 13c, 13m, and 13y.
Then, at the maintenance step F3, the X-axis driving mechanism W2 moves the respective ink pans 13k, 13c, 13m, and 13y in the X-axis direction. When the respective ink pans 13k, 13c, 13m, and 13y reach positions where they face the respective recording heads 12k, 12c, 12m, and 12y, the X-axis driving mechanism W2 stops movement in the X-axis direction.
Subsequently, at the maintenance step F4, the elevating mechanism W1 moves up the respective ink pans 13k, 13c, 13m, and 13y in the Z-axis direction by a predetermined distance. As a result, the respective head cap portions 15k, 15c, 15m, and 15y in the ink pans 13k, 13c, 13m, and 13y come into contact with the respective recording heads 12k, 12c, 12m, and 12y.
Consequently, the nozzle surface 17 of the recording head 12k, the protruding member 19, and the flat surface portion 16 form the hermetically closed space 40. As a result, each nozzle 18 of the recording head 12k is covered with the hermetically closed space 40. That is, each nozzle 18 of the recording head 12k is capped with the head cap portion 15k.
In this state, the electromagnetic valve 23 and the electromagnetic valve 47 are respectively closed. Then, the suction pump 25 draws air. A negative pressure is formed in the suction chamber 24 by the air drawing operation. When the inside of the suction chamber 24 reaches a fixed negative pressure value, the electromagnetic valve 23 is opened. At this time, the air drawing operation of the suction pump 25 stops. The inside of the hermetically closed space 40 communicates with the suction chamber 24 from the suction hole 20 through the suction path 21 and the suction tube 22 at the moment of opening the electromagnetic valve 23. Therefore, a negative pressure is precipitously formed in the hermetically closed space 40. As a result, the negative pressure is precipitously applied to each nozzle 18 of the recording head 12k.
Consequently, the ink in each nozzle 18 is drawn, and foreign particles, e.g., dust, ink having an increased viscosity degree, or ink including air bubbles lodging in each nozzle 18 are drawn. These foreign particles are supplied from the hermetically closed space 40 to the suction chamber 24 via the suction hole 20, the suction path 21, and the suction tube 22.
When removal of the foreign particles in each nozzle 18 of the recording head 12k is finished, an operation is performed in the order opposite to the order of the maintenance steps F1 to F4. That is, the elevating mechanism W1 moves down the respective ink pans 13k, 13c, 13m, and 13y. When they reach predetermined positions, the elevating mechanism W1 stops downward movement of the ink pans 13k, 13c, 13m, and 13y.
Then, the X-axis driving mechanism W2 moves the respective ink pans 13k, 13c, 13m, and 13y in a negative X-axis direction. The respective ink pans 13, 13c, 13m, and 13y stop at positions deviating from the lower spaces of the recording heads 12k, 12c, 12m, and 12y.
Then, the elevating mechanism W1 moves up the respective ink pans 13k, 13c, 13m, and 13y to be arranged between the respective recording heads 12k, 12c, 12m, and 12y. It is to be noted that the head cap portions are moved in this embodiment, but the present invention is not restricted thereto. The recording heads may be moved, or both the head caps and the recording heads may be moved.
As explained above, according to the first embodiment, the protruding member 19 formed of an elastic member is provided on the entire periphery of the outer rim of the nozzle surface 17 of each recording head 12, and the head cap portion 15 having the flat surface portion 16 formed of a rigid body is provided. As a result, the flat surface portion 16 of the head cap portion 15 is brought into contact with the protruding member 19 provided on the recording head 12 side. Therefore, even if the protruding member 19 and the flat surface portion 16 of the head cap portion 15 are not positioned, the flat surface portion 16 of the head cap portion 15 can be assuredly brought into contact with the protruding member 19. Therefore, the flat surface portion 16 of the head cap portion 15 can be assuredly brought into contact with the protruding member 19 without requiring a complicated positioning mechanism.
The nozzle surface 17 of the recording head 12, the protruding member 19, and the flat surface portion 16 form the hermetically closed space 40. As a result, each nozzle 18 of the recording head 12 can be assuredly capped.
When the suction pump 25 draws air in a state where each nozzle 18 of the recording head 12 is capped, foreign particles in each nozzle 18 can be removed.
The protruding member 19 can be formed of an elastic member. For example, when a special ink is used, a very expensive rubber, e.g., a fluorocarbon rubber (especially, perfluoro) or phlorosilicon must be used for the protruding member 19 to cope with the special ink in some cases. In such a case, the protruding member 19 can be formed with a very small amount of such a material. As a result, a design can be realized with a suppressed cost.
Various kinds of materials or coating processing can be used for the head cap portion 15. For example, ink-shedding processing can be applied to the upper side of the flat surface portion 16 of the head cap portion 15. As a result, the ink 2 does not stay on the flat surface portion 16 of the head cap portion 15. Therefore, at the time of capping based on bringing the head cap portion 15 into contact with the recording head 12, the ink 2 with an increased viscosity degree does not adhere to the recording head 12 from the head cap portion 15.
The present invention is not restricted to the first embodiment, and may be modified as follows. It is to be noted that like reference numbers denote parts to the same as those in
The plate 41A is provided to cover the nozzle surface 17. The plate 41A protects the nozzle 18. The protruding member 19 is provided over an entire periphery of an outer rim of the plate 41A.
In such a configuration, the head cap portion 15 is brought into contact with the protruding member 19. As a result, the flat surface portion 16 of the head cap portion 15 is pressed against the protruding member 19 by an urging force of each elastic member 14. Therefore, the nozzle surface 17 of the recording head 12, the protruding member 19, the flat surface portion 16, and the plate 41A form a hermetically closed space. Even if the protruding member 19 is disposed to the plate 41A provided to protect the nozzle 18 in this manner, the same function and effect as those in the first embodiment can be obtained.
The support member 41B supports the nozzle surface 17 of the recording head 12 in a state where it slightly protrudes beyond the bottom surface portion 42. The protruding member 19 is provided over an entire periphery of the bottom surface portion 42 of the support member 41B.
In such a configuration, the head cap portion 15 is brought into contact with the protruding member 19. As a result, the flat surface portion 16 of the head cap portion 15 is pressed against the protruding member 19 by an urging force of each elastic member 14. Therefore, the nozzle surface 17, the protruding member 19, the flat surface portion 16, and the bottom surface portion 42 form a hermetically closed space.
In this manner, the protruding member 19 is disposed to the support member 41B that supports the recording head 12. As a result, the second modification can obtain the same function and effect as those in the first embodiment. A risk of damaging the nozzle surface 17 can be avoided as compared with an example where the protruding member 19 is disposed to the recording head 12.
The support member 41B supports the nozzle surface 17 of the recording head 12 in a state where it slightly protrudes beyond the bottom surface portion 42. The protruding member 19 is provided over an entire periphery of the bottom surface portion 42 of the support member 41B.
The elastic member 16A is provided in accordance with a position of the protruding member 19. The elastic member 16A is formed on the same plane with the flat surface portion 16 of the head cap portion 15. The elastic member 16A is formed to have an area wider than that of a region where the protruding member 19 is provided. As a result, the elastic member 16A is formed to have the area that enables contact with the protruding member 19.
In such a configuration, the head cap portion 15 is brought into contact with the protruding member 19. As a result, the elastic member 16A of the head cap portion 15 is pressed against the protruding member 19 by an urging force of each elastic member 14. Since the protruding member 19 is formed of the rigid body, it pushes in the elastic member 16A to be contracted. Consequently, the nozzle surface 17, the protruding member 19, the elastic member 16A of the flat surface portion 16, and the bottom surface portion 42 form a hermetically closed space.
In this manner, the protruding member 19 formed of the rigid body is provided with respect to the support member 41B that supports each recording head 12. Further, a part of the flat surface portion 16 is formed of the elastic member 16A. As a result, the third modification can obtain the same function and effect as those in the first embodiment. Further, the protruding member 19 is formed of the rigid body, and a part of the flat surface portion 16 is formed of the elastic member 16A. Consequently, processing can be facilitated. Furthermore, a risk of damaging the nozzle surface 17 can be avoided as compared with an example where the protruding member 19 is provided on the recording head 12.
The support member 41C supports the nozzle surfaces 17 of the plurality of recording heads 12-1 to 12-n in a state where they protrude slightly beyond the bottom surface 43. The protruding member 19 is provided over an entire periphery of the bottom surface portion 43 of the support member 41C. The protruding member 19 is provided to surround the plurality of recording heads 12-1 to 12-n. At least one suction hole 20 is formed in the flat surface portion 16 of the head cap portion 15.
In such a configuration, the head cap portion 15 is brought into contact with the protruding member 19. As a result, the flat surface portion 16 of the head cap portion 15 is pressed against each protruding member 19 by an urging force of each elastic member 14. Consequently, the respective nozzle surfaces 17 of the recording heads 12-1 to 12-n, the protruding member 19, the flat surface portion 16, and the bottom surface portion 43 form a hermetically closed space.
Even if the protruding member 19 is provided on the support member 41C that supports the plurality of recording heads, the fourth modification can obtain the same function and effect as those in the first embodiment. Moreover, the protruding member 19 does not have to be provided in accordance with each of the recording heads, and hence the plurality of recording heads can be collectively subjected to a maintenance operation. The fourth modification can avoid a risk of damaging the nozzle surfaces 17 as compared with an example where the protruding member 19 is provided on the recording head 12.
The support member 41C supports the nozzle surfaces 17 of the plurality of recording heads 12-1 to 12-n in a state where they slightly protrude beyond the bottom surface portion 43. The protruding member 19 is provided over an entire periphery of the bottom surface portion 43 of the support member 41C. The protruding member 19 is provided to surround the plurality of recording heads 12-1 to 12-n. The elastic member 16A is provided in accordance with a position of the protruding member 19. The elastic member 16A is formed on the same plane as the flat surface portion 16 of the head cap portion 15. The elastic member 16A is formed to have an area larger than an area of a region where the protruding member 19 is provided. As a result, the elastic member 16A is formed to have the area that allows contact with the protruding member 19.
In such a configuration, the head cap portion 15 is brought into contact with the protruding member 19. As a result, the elastic member 16A of the head cap portion 15 is pressed against the protruding member 19 by an urging force of each elastic member 14. Since the protruding member 19 is formed of the rigid body, it pushes in the elastic member 16A to be contracted. As a result, the respective nozzle surfaces 17 of the recording heads 12-1 to 12-n, the protruding member 19, the elastic member 16A of the flat surface portion 16, and the bottom surface portion 43 form a hermetically closed space.
The protruding member 19 formed of the rigid body is provided with respect to the support member 41C that supports the plurality of recording heads 12-1 to 12-n in this manner, and a part of the flat surface portion 16 is formed of the elastic member 16A. As a result, the fifth modification can obtain the same function and effect as those in the first embodiment. The protruding member 19 does not have to be provided in accordance with each of the recording heads 12-1 to 12-n. The plurality of recording heads 12-1 to 12-n can be collectively subjected to a maintenance operation. Since the protruding member 19 is formed of the rigid body and a part of the flat surface portion 16 is formed of the elastic member 16A, processing can be facilitated. A risk of damaging the nozzle surfaces 17 can be avoided as compared with an example where the protruding member 19 is provided on each recording head 12.
The protruding member 19 in the first embodiment and each modification can be modified in the following manner.
The protruding member 19 is formed of an elastic member. As shown in
As shown in
As shown in
When the protruding member 19 is formed in this manner, adhesion of the protruding member 19 with respect to the flat surface portion 16 can be improved.
On the other hand, a protruding member provided on the recording head 12 side may be movably provided.
A movable member 45 is provided on a side surface of the recording head 12. The movable member 45 is provided to be slidable with respect a side surface of the recording head 12 in a direction indicated by an arrow B. The movable member 45 has a pressing portion 46 formed into a hook-like shape. The pressing portion 46 comes into contact with a substantially top part of the lip portion 44 formed into the semi-cylindrical shape.
When such a configuration is adopted, the movable member 45 slides along the side surface of the recording head 12 in the downward direction indicated by the arrow B at the time of, e.g., maintenance of the recording head 12 as shown in
In this state, the head cap portion 15 is brought into contact with the recording head 12. As a result, the flat surface portion 16 of the head cap portion 15 comes into contact with the lip portion 44 on the recording head 12 side. The flat surface portion 16 of the head cap portion 15 is pressed against the lip portion 44 on each recording head 12 side by an urging force of each elastic member 14. Consequently, the nozzle surface 17 of each recording head 12, the lip portion 44, and the flat surface portion 16 form a hermetically closed space.
When maintenance of each recording head 12 is finished, the movable member 45 slides in a direction opposite to a direction indicated by an arrow B depicted in
Even if the lip portion 44 as the movable protruding member is provided, the same function and effect as those in the first embodiment can be obtained. When the lip portion 44 as the protruding member is movably provided, the protruding member can be set to protrude ahead of the nozzle surface 17 during maintenance, and set at the same height (position) as the nozzle surface during image recording. As a result, during image recording, it is possible to eliminate an influence of occurrence of, e.g., jam caused when a recording medium comes into contact with the protruding member. Since the protruding member is set at the same height as the nozzle surface during image recording, the nozzle surface can further approximate the recording medium, thus avoiding a spotting dislocation.
When such a configuration is adopted, the movable member 45 slides in a direction indicated by an arrow B as shown in
When the recording head 12 having the protruding member shown in one of
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details and representative embodiments shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents.
Number | Date | Country | Kind |
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2006-056488 | Mar 2006 | JP | national |
Number | Name | Date | Kind |
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7490921 | Hashi et al. | Feb 2009 | B2 |
Number | Date | Country |
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5-131639 | May 1993 | JP |
7-214794 | Aug 1995 | JP |
Number | Date | Country | |
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20070206047 A1 | Sep 2007 | US |