1. Field of the Invention
The present invention relates to a head cartridge for ejecting predetermined liquid onto an ejection object and a liquid ejection apparatus.
2. Description of the Related Art
Hitherto, in such a liquid ejection apparatus, an inkjet printer for example, a cleaning roller formed of a cylindrical porous material has been continuously maintained in contact with a nozzle surface of an ink ejection head of a head cartridge under a predetermined pressure so as to relatively move, so that stains or foreign bodies are removed by absorbing ink within an ink ejection nozzle and its vicinity using the capillarity produced in a cell (pore cell) of the porous material (see Japanese Unexamined Patent Application Publication No. 2003-266717, P5, FIGS. 6 to 8, for example).
However, in such a head cartridge in related art, ink is naturally absorbed into the cleaning roller by moving and continuously bringing the cleaning roller in contact with the nozzle surface under a predetermined pressure so as to use the capillarity produced in the cell of the porous material, so that ink is removed with no positive approach. Accordingly, ink stuck into the ink ejection nozzle or its vicinity so as to thicken may not be sufficiently removed because of the weak capillarity.
Accordingly, in view of such problems, it is desirable that the present invention provide a head cartridge and a liquid ejection apparatus having a cleaner with a capacity improved using a sweeping member with a sucking force produced by temporarily increasing its elastic displacement so as to restore the displacement.
According to an embodiment of the present invention, there is provided a head cartridge including a liquid ejection head for ejecting predetermined liquid from a plurality of liquid ejection nozzles formed on a nozzle surface; cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface with elastic deformation of the wiping member; and deforming means for temporarily increasing the elastic deformation of the wiping member at a position in the foreground of the liquid ejection nozzles in the cleaning direction, wherein liquid stuck on the nozzle surface is absorbed and removed by an absorbing force produced along with restoring operation of the elastic deformation of the wiping member.
By such a structure, the elastic deformation of the wiping member of the cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface is temporarily increased by the deforming means at a position in the foreground of the liquid ejection nozzles in the cleaning direction. By the absorbing force produced along with the restoring operation of the elastic deformation, predetermined liquid stuck to the nozzle surface is absorbed and removed with the wiping member. Accordingly, to the capillarity ordinarily produced in the pressure contact part of the wiping member made of a porous member, the absorbing force produced along with the restoring operation of the elastic deformation is added so as to increase the absorbing force of liquid, improving the cleaning performance of the cleaning means.
A liquid ejection apparatus according to the present invention includes a head cartridge that includes a liquid ejection head for ejecting predetermined liquid from a plurality of liquid ejection nozzles formed on a nozzle surface; cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface with elastic deformation of the wiping member; and deforming means for temporarily increasing the elastic deformation of the wiping member at a position in the foreground of the liquid ejection nozzles in the cleaning direction, wherein liquid stuck on the nozzle surface is absorbed and removed by an absorbing force produced along with restoring operation of the elastic deformation of the wiping member.
By such a structure, the elastic displacement of the wiping member of the cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface is temporarily increased by the deforming means at a position in the foreground of the liquid ejection nozzles in the cleaning direction, so that predetermined liquid stuck to the nozzle surface is absorbed and removed with the wiping member. Thereby, to the capillarity ordinarily produced in the pressure contact part of the wiping member made of a porous member, the absorbing force produced along with the restoring operation of the elastic deformation is added, improving the cleaning performance of the cleaning means.
According to the embodiment of the present invention, there is provided a head cartridge including a liquid ejection head for ejecting predetermined liquid from a plurality of liquid ejection nozzles formed on a nozzle surface; cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface with elastic deformation of the wiping member; and deforming means for temporarily increasing the elastic deformation of the wiping member at a position in the foreground of the liquid ejection nozzles in the cleaning direction, wherein an elastic displacement h of the wiping member produced by the deforming means is established to satisfy the following condition:
h>(Vu/Vr)(L+n/2−φ/2),
where the restoring speed of the elastic deformation of the wiping member is denoted as Vu; the moving speed of the wiping member is denoted as Vr; the movement distance of the wiping member from a restoring initiation point of the elastic deformation to the center of the liquid ejection nozzles is L; the contact width between the wiping member and the nozzle surface is n; and the diameter of the liquid ejection nozzle is φ.
By such a structure, during the cleaning operation of the nozzle surface performed by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface with elastic deformation of the wiping member, the elastic displacement produced in the wiping member by the deforming member at a position in the foreground of the liquid ejection nozzles in the cleaning direction is temporarily increased by the displacement h so as to maintain the restoring operation of the elastic deformation of the wiping member until the wiping member passes through the liquid ejection nozzles. Thereby, using the absorbing force produced along with the restoring operation of the temporarily increased elastic deformation, liquid stuck into the ink ejection nozzle or its vicinity so as to thicken is absorbed and removed.
A liquid ejection apparatus according to the present invention includes a head cartridge that includes a liquid ejection head for ejecting predetermined liquid from a plurality of liquid ejection nozzles formed on a nozzle surface; cleaning means for cleaning the nozzle surface of the liquid ejection head by relatively moving a porous wiping member so as to bring the wiping member into contact with the nozzle surface with elastic deformation of the wiping member; and deforming means for temporarily increasing the elastic deformation of the wiping member at a position in the foreground of the liquid ejection nozzles in the cleaning direction, wherein an elastic displacement h of the wiping member produced by the deforming means is established to satisfy the following condition:
h>(Vu/Vr)(L+n/2−φ/2),
where the restoring speed of the elastic deformation of the wiping member is denoted as Vu; the moving speed of the wiping member is denoted as Vr; the movement distance of the wiping member from a restoring initiation point of the elastic deformation to the center of the liquid ejection nozzles is L; the contact width between the wiping member and the nozzle surface is n; and the diameter of the liquid ejection nozzle is φ.
By such a structure, during the cleaning operation of the nozzle surface performed by relatively moving and pressurizing a porous wiping member included in the head cartridge with elastic deformation of the wiping member, the elastic displacement produced in the wiping member by the deforming member at a position in the foreground of the liquid ejection nozzles in the cleaning direction is temporarily increased by the displacement h so as to maintain the restoring operation of the elastic deformation of the wiping member until the wiping member passes through the liquid ejection nozzles. Thereby, using the absorbing force produced along with the restoring operation of the temporarily increased elastic deformation, liquid stuck into the ink ejection nozzle or its vicinity so as to thicken is absorbed and removed.
Embodiments of the present invention will be described below in detail with reference to the attached drawings.
The printer body 2 shown in
On the upper surface of the printer body 2, an open/close upper lid 7 is attached. Under the upper lid 7, there is provided a holder 8 arranged on the upper portion of the printer body 2 for accommodating the head cartridge 3. In the holder 8 of the printer body 2, the head cartridge 3 is inserted in arrow Z direction and detachably accommodated therein. The head cartridge 3 has a casing slenderize extending in the width direction of the printer body 2, i.e., the width direction of a recording sheet, for ejecting four color inks of yellow Y, magenta M, cyan C, and black K on a recording sheet for forming images. The head cartridge 3 includes an ink tank 9, a print head 10, and a head cap 11.
Then, a first embodiment of the present invention of the head cartridge suitable for the inkjet printer will be described with reference to
On the bottom surface of the print head 10, the nozzle member 12 including a nozzle surface 12a is arranged. The nozzle member 12 is provided with a line of ink ejection nozzles 16 arranged so that its longitudinal direction corresponds to the entire width of a recording sheet. Furthermore, the nozzle surface 12a is provided with a projection 17 arranged in the foreground of the ink ejection nozzles 16 in the cleaning direction of a cleaning roller 21 (arrow A direction in
Specifically, a height h of the projection 17 is established to satisfy the following condition (1):
h>(Vu/Vr)(L+n/2−φ/2) (1),
where as shown in
The derivation of the condition (1) will be described in detail.
As described above, since the height h of the projection 17 substantially agrees on the elastic displacement of the cleaning roller 21 increased by the pressurizing with the projection 17, a time Tu necessary for restoring the original shape of the cleaning roller 21 elastically deformed by the pressurizing of the projection 17 is expressed by:
Tu=h/Vu (2),
where character Vu denotes the restoring speed of the elastic deformation. As the restoring speed Vu is the restoration of the elastic deformation per unit time, it can be easily obtained using a cut sample with the same quality as that of the cleaning roller 21. That is, as shown in
Vu=H/t.
In order to apply to the ink ejection nozzle 16 a sucking force produced during the restoration of the cleaning roller 21 elastically deformed by the pressurizing with the projection 17, within the time Tu, the cleaning roller 21 may pass through the ink ejection nozzles 16. Hence, a time Tr necessary for the cleaning roller 21 to move from the restoring initiation point (sucking initiation point) P1 shown in
Tu>Tr (3).
The value Tr herein can be obtained from the following equation:
where the radius of the cleaning roller 21 is r and the angular velocity of the cleaning roller 21 is ω, as shown in
Also, on the upper surface of the nozzle member 12, as shown in
Furthermore, on the upper surface of the head chip 13, the flow channel plate 14 is provided so as to constitute an ink flow channel 20 for supplying ink to the ink pressurized chamber 19 from the ink tank 9. Although the flow channel plates 14 are shown separated in the lateral direction in
On the bottom surface of the print head 10, as shown in
The cleaning roller 21 shown in
As shown in
The head cap 11 constructed in such a manner, as shown in
Next, the cleaning operation of the head cartridge according to the first embodiment will be described with reference to
First, referring to
Furthermore, when the cleaning roller 21 is rotated in arrow A direction in
The cleaning roller 21 climbs over the projection 17 and further rolls in arrow A direction in
Since the height h of the projection 17 (or the temporarily increased elastic displacement of the cleaning roller 21) is established to satisfy the equation (1) mentioned above, the restoration of the cleaning roller 21 continues during the movement of the cleaning roller 21 from the restoring initiation point (sucking initiation point) P1 shown in
In such a manner, according to the head cartridge 3 of the first embodiment of the present invention, there is provided the projection 17 arranged at a position in the foreground of the ink ejection nozzles 16 in the cleaning direction, so that the absorbing force Qt is produced by the shape restoration operation of the cleaning roller 21 elastically deformed by the pressurizing with the projection 17. Therefore, to the capillarity Qn and the absorption force Qr ordinarily produced along with the rolling of the cleaning roller 21, the above-mentioned absorbing force Qt is added, so that the increased liquid absorbing force improves the cleaning operation with the cleaning roller 21. Thereby, ink stuck into the ink ejection nozzle or its vicinity so as to thicken is efficiently removed.
By maintaining the restoring operation of the elastic deformation of the cleaning roller 21 until the cleaning roller 21 passes through the ink ejection nozzles 16, an absorbing force increased by adding the absorbing force Qt due to the restoration operation can be applied to the ink ejection nozzle 16. Therefore, ink stuck into the ink ejection nozzle or its vicinity so as to thicken is efficiently removed, improving the ejection performance and the quality of printed images.
According to the first embodiment, the cylindrical cleaning roller 21 has been exemplified; alternatively, it may be not cylindrical but prismatic. In this case, although the absorption force Qr produced in the portion where a pressed state is canceled along with the rolling of the cleaning roller 21 does not exist because the cleaning roller 21 does not roll over the nozzle surface 12a, the absorbing force Qt produced along with the restoring of the elastic deformation due to the projection 17 is added to the capillarity Qn, so that the increased liquid absorbing force also improves the cleaning operation in the same way as with the cylindrical cleaning roller 21.
Moreover, the rotational shaft 25 is integrally provided with an eccentric cam 27. A half of a slide-contact surface 27b of the eccentric cam 27 shown in
Also, as shown in
Next, the cleaning operation of the head cartridge according to the second embodiment will be described with reference to
During cleaning operation, the head cap 11 is moved in arrow A direction of
Furthermore, along with the rolling of the cleaning roller 21, the eccentric cam 27 is rotated. When the state that the half of the slide-contact surface 27b formed to have the same rotational radius comes in contact with the fixed part 28 is terminated, the rotational radius of the eccentric cam 27 gradually increases. Along with this, the cleaning roller 21 is gradually elevated in arrow I direction of
Then, as shown in
Then, when from the state of
In such a manner, in a transition stage from the state shown in
In such a manner, according to the head cartridge of the second embodiment of the present invention, during the cleaning operation, the pressure contact amount is changed by vertically moving the cleaning roller 21, so that the absorbing force Qt is produced when the cleaning roller 21 descends to reduce the pressure contact amount. An absorbing force more increased by adding the absorbing force Qt to the capillarity Qn and the absorption force Qr ordinarily produced along with the rolling of the cleaning roller 21 can be applied to the ink ejection nozzle 16. Accordingly, the cleaning performance with the cleaning roller 21 is improved, thereby effectively removing ink stuck to the nozzle surface 12a so as to thicken.
Also, by maintaining the restoring operation of the elastic deformation of the cleaning roller 21 until the cleaning roller 21 passes through the ink ejection nozzles 16, the absorbing force increased by adding the absorbing force Qt produced along with the restoration operation thereto can be applied to the ink ejection nozzle 16. Accordingly, ink stuck into the ink ejection nozzle or its vicinity so as to thicken is efficiently removed, improving the ejection performance and the quality of printed images.
Since the projection does not exist on the nozzle surface 12a, the nozzle surface 12a can be difficult to be stuck by ink and stain.
In addition, when the head cartridge 3 is for color printing, four apexes 27a of the eccentric cam 27 may be provided. In this case, each apex 27a is provided so as to maximize the elevation of the cleaning roller 21 at a position in the foreground of each color-ink ejection nozzle 16 in the cleaning direction. Then, while the cleaning roller 21 passes through each color-ink ejection nozzle 16, the height h of each apex 27a is established so as to satisfy the equation (1) mentioned above and to maintain the restoring operation of the elastic deformation of the ink ejection nozzle 16.
In the above description, the inkjet printer is exemplified; the present invention is not limited to this, so that any apparatus for ejecting predetermined liquid as liquid droplets from the liquid ejection nozzles may be applied. For example, an image forming apparatus, such as an inkjet facsimile apparatus and an inkjet copying machine, may be incorporated.
The liquid ejected from the liquid ejection nozzles is not limited to ink, so that other liquid ejection apparatuses may be incorporated as long as they form dots or dot lines by ejecting predetermined liquid from a liquid ejection head. For example, a liquid ejection apparatus for ejecting DNA contained liquid on a palette used in the DNA evaluation and a liquid ejection apparatus for ejecting liquid containing conductive particles for forming a wiring pattern of a printed circuit board may be incorporated.
Number | Date | Country | Kind |
---|---|---|---|
2004-059433 | Mar 2004 | JP | national |
2004-059434 | Mar 2004 | JP | national |
This application is a continuation of U.S. patent application Ser. No. 11/069,376, filed Mar. 1, 2005, the entirety of which is incorporated herein by reference to the extent permitted by law. The present application also claims priority to Japanese Patent Application Nos. 2004-059433 filed in the Japanese Patent Office on Mar. 3, 2004 and 2004-059434 filed in the Japanese Patent Office on Mar. 3, 2004, the entirety both of which also are incorporated by reference herein to the extent permitted by law.
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Number | Date | Country | |
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20080074463 A1 | Mar 2008 | US |
Number | Date | Country | |
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Parent | 11069376 | Mar 2005 | US |
Child | 11945741 | US |