JP2004050568A - Image forming apparatus and control method thereof - Google Patents

Abstract

In an image forming apparatus for forming an image on a recording medium, an ink ejection surface is not damaged, and a cleaning effect near an ink ejection hole is improved.
An image forming apparatus includes a print head having an ink ejection surface provided with ink ejection holes, and forming an image on a recording medium by ejecting ink from the ink ejection holes. A cleaning roller 7 formed of a material having a cylindrical shape, a moving means for relatively moving the cleaning roller 7 while bringing the outer peripheral surface of the cleaning roller 7 into contact with the ink ejection surface 6 of the print head 4, And a drive control means for controlling the driving of the moving means. When the image forming operation on the recording medium is completed, the moving means is driven under the control of the drive control means to move the outer peripheral surface of the cleaning roller 7 to the ink ejection surface. The ink in the ink ejection hole is sucked by moving the ink jet nozzle 6 in contact with the ink jetting nozzle 6.
[Selection] Fig. 2

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus that forms an image on a recording medium by discharging ink from ink discharge holes, and a control method thereof.Specifically, when the image forming operation is completed, the outer peripheral surface of the cleaning member is placed on the ink discharge surface. The present invention relates to an image forming apparatus and a control method therefor that, when moved in contact, do not damage the ink ejection surface and improve the cleaning effect near the ink ejection holes.
[0002]
[Prior art]
2. Description of the Related Art Ink-jet type image forming apparatuses, for example, ink-jet printers, are widely used in terms of low running cost, color printing of print images, and easy downsizing of the apparatuses. This ink-jet printer is designed to perform image recording by discharging a small amount of ink from a fine ink discharge hole provided on the ink discharge surface of the print head, so that the print head does not perform printing operation continuously for a long time. If the ink is not ejected from the ink ejection hole of the above, the ink attached to the vicinity of the ink ejection hole on the ink ejection surface by the previous printing operation may evaporate, dry, thicken and solidify. Ink ejection becomes difficult.
[0003]
For this reason, conventionally, a slightly harder blade made of rubber or the like is pressed against the ink ejection surface of the print head, and the ink that has adhered to the ink ejection surface and has been thickened and solidified by sliding on the ink ejection surface. The print head was cleaned by removing (wiping). In this connection, Japanese Patent Application Laid-Open No. 57-34969 discloses a technique in which a plurality of blades are attached to a rotating shaft and rotated to further enhance the wiping effect.
[0004]
[Problems to be solved by the invention]
However, in such a conventional technique, a slightly hard rubber blade or the like is pressed against the ink ejection surface of the print head and slides on the ink ejection surface, thereby wiping the ink adhered to the ink ejection surface. Therefore, a large force is applied to the ink ejection surface by the blade, and the ink ejection surface may be damaged. Further, in the above blade, only the wiping effect has to be relied upon, but ink may remain in the ink ejection holes only by wiping. Note that, even when a plurality of blades are used, there is a problem that the ink ejection surface may be damaged and ink remains near the ink ejection holes, as described above.
[0005]
In view of the above, the present invention addresses such a problem, and when the image forming operation is completed, the outer peripheral surface of the cleaning member is moved while being in contact with the ink ejection surface so that the ink ejection surface is not damaged and the ink ejection surface is not damaged. It is an object of the present invention to provide an image forming apparatus for improving a cleaning effect near a hole and a control method thereof.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, an image forming apparatus according to a first aspect of the present invention provides a cleaning member formed of a material having elasticity in a cylindrical shape, and an outer peripheral surface of the cleaning member being brought into contact with an ink ejection surface of the print head. Moving means for relatively moving the two in a state of being moved, and driving control means for controlling the driving of the moving means, wherein the moving means is controlled by the driving control means at the end of the image forming operation on the recording medium. Is driven to move the outer peripheral surface of the cleaning member into contact with the ink ejection surface, thereby sucking the ink in the ink ejection hole.
[0007]
With this configuration, when the operation of forming an image on the recording medium is completed, the moving unit is driven under the control of the drive control unit, and the outer peripheral surface of the cylindrical cleaning member formed of an elastic material is used as the ink of the print head. The two are relatively moved while being in contact with the ejection surface, and the ink in the ink ejection holes is suctioned and removed by the elastic deformation of the cleaning member during this movement. Accordingly, the ink ejection surface of the print head is not damaged, and the cleaning effect near the ink ejection holes is improved.
[0008]
A cap member for housing the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the drive of the moving means, and the cap member is opened. The cleaning member may be relatively moved while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. Thus, the cleaning member is housed inside the cap member and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface are opened and closed once again by opening and closing the cap member. Move relatively. The ink in the ink ejection holes is sucked and removed by the elastic deformation of the cleaning member during the movement.
[0009]
Alternatively, a cap member that accommodates the cleaning member therein and protects the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving means, and the cleaning member is closed with the closing operation of the cap member. May be relatively moved while the outer peripheral surface thereof is in contact with the ink ejection surface of the print head. Thus, the cleaning member is housed inside the cap member and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface are relatively moved by the closing operation of the cap member. The ink in the ink ejection holes is sucked and removed by the elastic deformation of the cleaning member during the movement.
[0010]
An image forming apparatus according to a second aspect of the present invention includes a cleaning member formed in a columnar shape with an elastic material, and a cleaning member formed by contacting an outer peripheral surface of the cleaning member with an ink ejection surface of the print head. A moving means for relatively moving the moving means, a drive control means for controlling the driving of the moving means, and a discharge control means for controlling a discharge operation of ink from an ink discharge hole of the ink discharge surface; At the end of the image forming operation, the moving means is driven under the control of the drive control means, and the outer peripheral surface of the cleaning member is brought into contact with the ink discharging surface to move, thereby sucking the ink in the ink discharging holes, Under the control of the ejection control means, the ink is preliminarily ejected from the ink ejection holes after the cleaning member moves on the ink ejection surface. Than it is.
[0011]
With this configuration, when the operation of forming an image on the recording medium is completed, the moving unit is driven under the control of the drive control unit, and the outer peripheral surface of the cylindrical cleaning member formed of an elastic material is used as the ink of the print head. The two members are relatively moved while being in contact with the ejection surface, and the ink in the ink ejection holes is sucked by the elastic deformation of the cleaning member during this movement. After the surface is moved, the ink is preliminarily ejected from the ink ejection holes. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0012]
A cap member is provided for accommodating the cleaning member therein and protecting the ink ejection surface of the print head. The cap member once closed is opened and closed again by the drive of the moving means, and the cap member is opened. The cleaning member may be relatively moved while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. Thus, the cleaning member is housed inside the cap member and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface are opened and closed once again by opening and closing the cap member. Move relatively. The ink in the ink ejection hole is sucked by the elastic deformation of the cleaning member at the time of the movement, and the ink is preliminary ejected from the ink ejection hole after the cleaning member moves on the ink ejection surface.
[0013]
Alternatively, a cap member that accommodates the cleaning member therein and protects the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving means, and the cleaning member is closed with the closing operation of the cap member. May be relatively moved while the outer peripheral surface thereof is in contact with the ink ejection surface of the print head. Thus, the cleaning member is housed inside the cap member and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface are relatively moved by the closing operation of the cap member. The ink in the ink ejection hole is sucked by the elastic deformation of the cleaning member at the time of the movement, and the ink is preliminary ejected from the ink ejection hole after the cleaning member moves on the ink ejection surface.
[0014]
An image forming apparatus according to a third aspect of the present invention provides a cleaning member formed of a material having elasticity in a cylindrical shape, and a cleaning member formed by contacting an outer peripheral surface of the cleaning member with an ink ejection surface of the print head. A moving means for relatively moving the moving means, a drive control means for controlling the driving of the moving means, and a discharge control means for controlling a discharge operation of ink from an ink discharge hole of the ink discharge surface; At the end of the image forming operation, the ink is ejected from the ink ejection hole under the control of the ejection control means, and the ink is preliminarily ejected from the ink ejection hole.
[0015]
With such a configuration, at the end of the image forming operation on the recording medium, the ink is ejected from the ink ejection hole under the control of the ejection control means, and the ink is preliminary ejected from the ink ejection hole. Accordingly, the ink ejection surface of the print head is not damaged, and the cleaning effect near the ink ejection holes is improved.
[0016]
A cap member for housing the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the drive of the moving means, and the cap member is opened. Thus, the cleaning member and the print head may be relatively moved. Accordingly, the cleaning member is housed inside the cap member and the ink discharge surface of the print head is protected, and the closed cap member is opened and closed again to open the cap. Move relative to the surface.
[0017]
Alternatively, a cap member that accommodates the cleaning member therein and protects the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving means, and the cleaning member is closed with the closing operation of the cap member. And the print head may be relatively moved. Thus, the cleaning member is housed inside the cap member and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface of the print head are relatively moved by the closing operation of the cap member.
[0018]
Further, an image forming apparatus according to a fourth aspect of the present invention includes a print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors, and ejects ink from the ink ejection holes to form an image on a recording medium. An image forming apparatus for forming, comprising: a cleaning member formed in a columnar shape with an elastic material; a cap member for housing the cleaning member therein and protecting an ink ejection surface of the print head; With the opening and closing of the member and the outer peripheral surface of the cleaning member being brought into contact with the ink discharge surface of the print head with the opening operation of the cap member, the cleaning member and the ink discharge hole of each of the plurality of colors are brought into contact with each other. A cap opening / closing means for relatively moving in a direction perpendicular to the head, a drive control means for controlling the driving of the cap opening / closing means, Discharge control means for controlling the ink discharge operation from the ink discharge holes on the ink discharge surface, and upon completion of the image forming operation on the recording medium, the cap opening / closing means is driven under the control of the drive control means to temporarily close the cap. The opened and closed cap member is opened and closed again, and the outer peripheral surface of the cleaning member is moved by bringing the outer peripheral surface into contact with the ink ejection surface to suck the ink in the ink ejection hole. The ink is preliminarily ejected from the ink ejection holes in the order of passing through the row of ink ejection holes of each color on the ejection surface.
[0019]
With such a configuration, at the end of the image forming operation on the recording medium, the cap opening / closing means is driven under the control of the drive control means, and the cylindrical cleaning member formed of an elastic material is housed therein and printed. The cap member for protecting the ink ejection surface of the head is once again opened and closed from a closed state, and the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface of the print head with the opening operation of the cap member. The two are relatively moved in a direction orthogonal to the rows of the ink ejection holes for each of the plurality of colors, and the ink in the ink ejection holes is sucked by the elastic deformation of the cleaning member at the time of this movement. In this way, ink is reserved from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface. To discharge. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0020]
Further, an image forming apparatus according to a fifth aspect of the present invention includes a print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors, and ejects ink from the ink ejection holes to form an image on a recording medium. An image forming apparatus for forming, comprising: a cleaning member formed in a columnar shape with an elastic material; a cap member for housing the cleaning member therein and protecting an ink ejection surface of the print head; With the outer surface of the cleaning member in contact with the ink ejection surface of the print head with the opening and closing of the member and the closing operation of the cap member, the two members are moved with respect to the rows of the ink ejection holes of the plurality of colors. A cap opening / closing means for relatively moving in the orthogonal direction, a drive control means for controlling the driving of the cap opening / closing means, Discharge control means for controlling the discharge operation of the ink from the ink discharge holes of the ink discharge surface, and when the operation of forming an image on the recording medium ends, the cap opening / closing means is driven by the control of the drive control means to form a cap member. Is closed, and the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface and moved to suck the ink in the ink ejection hole. The ink is preliminarily ejected from the ink ejection holes in the order of passing through the row of ink ejection holes.
[0021]
With this configuration, at the end of the image forming operation on the recording medium, the cap opening / closing unit is driven under the control of the drive control unit, and the cleaning member formed into a columnar shape with an elastic material is housed therein and printed. The cap member for protecting the ink ejection surface of the head is closed, and the two members are ejected for a plurality of colors while the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface of the print head with the closing operation of the cap member. The cleaning member is moved relatively in a direction orthogonal to the row of holes, and the ink in the ink discharge hole is sucked by elastic deformation of the cleaning member at the time of the movement. Ink is preliminarily ejected from the ink ejection holes in the order of passing through the row of ink ejection holes of each color above. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0022]
Further, in the control method of the image forming apparatus according to the sixth invention, when the operation of forming the image on the recording medium is completed, the moving means is driven by the control of the drive control means to form the cleaning member having a cylindrical shape formed of an elastic material. By controlling the outer peripheral surface of the member to be in contact with the ink discharge surface provided with the ink discharge holes and moving the member, the ink in the ink discharge holes is sucked.
Accordingly, the ink ejection surface of the print head is not damaged, and the cleaning effect near the ink ejection holes is improved.
[0023]
Further, in the control method of the image forming apparatus according to the seventh aspect, when the operation of forming an image on the recording medium is completed, the moving unit is driven by the control of the drive control unit, and the cleaning unit is formed into a columnar shape by using an elastic material. The ink in the ink ejection hole was sucked by bringing the outer peripheral surface of the member into contact with the ink ejection surface provided with the ink ejection hole, and the cleaning member moved the ink ejection surface under the control of the ejection control means. The control is performed so that the ink is preliminarily ejected from the ink ejection hole later.
Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0024]
Further, in the control method of the image forming apparatus according to the eighth aspect, when the operation of forming the image on the recording medium is completed, the discharge control means for controlling the discharge operation of the ink from the ink discharge hole controls the discharge of the ink from the ink discharge hole. The operation is performed so that the ink is preliminarily ejected from the ink ejection holes.
Accordingly, the ink ejection surface of the print head is not damaged, and the cleaning effect near the ink ejection holes is improved.
[0025]
Further, in the control method of the image forming apparatus according to the ninth aspect, when the operation of forming the image on the recording medium is completed, the cap opening / closing means is driven by the control of the drive control means to open and close the once closed cap member again. The ink in the ink ejection holes is sucked by bringing the outer peripheral surface of the cleaning member formed into a columnar shape with the material having the above-mentioned shape into contact with the ink ejection surface provided with the rows of the ink ejection holes of the respective colors. In addition, under the control of the ejection control means, the cleaning member is controlled to preliminarily eject ink from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface.
Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0026]
Further, in the control method of the image forming apparatus according to the tenth aspect, when the operation of forming an image on the recording medium is completed, the cap member is closed by driving the cap opening / closing means under the control of the drive control means, and the cylindrical member is formed of an elastic material. The ink in the ink ejection holes is sucked by moving the outer peripheral surface of the cleaning member formed in contact with the ink ejection surface provided with the rows of the ink ejection holes for the plurality of colors, thereby controlling the ejection control means. Thus, control is performed so that ink is preliminarily ejected from the ink ejection holes in the order in which the cleaning member has passed through the row of ink ejection holes of each color on the ink ejection surface.
Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink do not damage the ink ejection surface of the print head, and improve the cleaning effect near the ink ejection holes.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a perspective view showing an embodiment of an image forming apparatus, for example, an ink jet printer according to the present invention. This ink jet printer is of a type in which the ink jet head 1 has an independent form and is directly mounted on the printer main body 2. The ink jet head 1 is housed as shown by an arrow H and fixed to the printer main body 2. It is set in the state.
[0028]
The ink jet head 1 jets liquid ink into fine particles by, for example, an electrothermal conversion method or an electromechanical conversion method, and ejects the ink particles onto recording paper (recording medium). As shown in (1), the ink cartridge includes an ink cartridge 3, a print head 4, and a head cap 5.
[0029]
The ink cartridge 3 contains one or more colors of ink therein, and its housing is elongated over the entire width in the width direction of the printer main body 2 shown in FIG. 1, that is, in the width direction of the recording paper. Although not shown, there are, for example, four separate ink chambers inside the housing, which are filled with four color inks of yellow Y, magenta M, cyan C, and black K. The ink cartridge 3 is made of a hard resin or the like.
[0030]
As shown in FIG. 2 (an enlarged cross-sectional view of the ink jet head 1 shown in FIG. 1), a print head 4 is provided on the bottom surface of the ink cartridge 3. The print head 4 discharges the ink supplied from the ink cartridge 3 into fine particles and discharges the ink. The ink discharge holes formed of fine holes are formed over the entire width of the recording paper along the longitudinal direction of the ink cartridge 3. It has an ink ejection surface 6 provided correspondingly.
[0031]
The ink ejection surface 6 is formed of, for example, a material containing nickel and nickel in a thin sheet shape by a nickel electroforming method, extends in the longitudinal direction of the ink cartridge 3, and has yellow Y, magenta M, cyan C, and black K. The four color ink ejection holes are provided, respectively, to form a four-color integrated line head. Although not shown, the head electrode was covered with resin on the portion of the ink ejection surface 6 where the rows of the ink ejection holes of Y, M, C, and K were provided, and on both sides sandwiching the ink ejection holes. The portion where the convex portion is formed has a wavy surface.
[0032]
On the bottom side of the ink cartridge 3, a head cap 5 is attached. The head cap 5 accommodates a cleaning roller 7 to be described later inside, and serves as a cap member for covering the ink ejection surface 6 of the print head 4 and protecting the ink ejection holes to prevent drying and clogging of the ink ejection holes. It is formed in a shallow box shape having the same length as the housing of the ink cartridge 3 and extending and having an open upper surface, and is relatively movable with respect to the print head 4 and is detachably mounted. Then, the head cap 5 is moved by a moving means such as a motor as shown by arrows A and B in a direction perpendicular to the longitudinal direction of the ink ejection surface 6 of the print head 4, and the head cap 5 is The ink cartridge 3 is detached from the cartridge 3 and returned to the direction of the arrow B to be mounted on the ink cartridge 3 again. The head cap 5 is made of a hard resin or the like.
[0033]
A cleaning roller 7 is provided inside the head cap 5. The cleaning roller 7 serves as a cleaning member for cleaning the ink ejection surface 6 of the print head 4 and is formed in a cylindrical shape with an elastic material. The head cap 5 is attached in the longitudinal direction. Therefore, it is parallel to the longitudinal direction of the ink ejection surface 6 of the print head 4. The cleaning roller 7 moves in the direction of arrow A together with the head cap 5 to clean the ink ejection surface 6 of the print head 4.
[0034]
In addition, an ink receiving section 8 is provided inside the head cap 5. The ink receiving portion 8 receives the preliminary discharge ink from the ink discharge holes of the print head 4, and receives the preliminary discharge ink on a part or the whole of the bottom surface of the head cap 5 having a shallow box shape. ing.
[0035]
Next, specific examples of the head cap 5 and the cleaning roller 7 will be described with reference to FIGS. First, in FIG. 4, the head cap 5 is formed in an elongated shape in accordance with the width and the length of the ink cartridge 3 shown in FIG. 1, and as shown in FIG. It is formed in a shallow box shape with an open upper part. Then, as described above, the head cap 5 is moved in the direction orthogonal to the longitudinal direction of the ink ejection surface 6 of the print head 4 as shown by arrows A and B. As shown in FIG. 3, a positioning claw 12 is provided at the upper end of the side wall opposite to the cleaning roller 7 as a positioning means for mounting on the cleaning roller 7. The positioning claw 12 is engaged with the lower side edge of the ink cartridge 3 to position the head cap 5.
[0036]
A cleaning roller 7 formed in a columnar shape and in contact with the entire length of the ink ejection surface 6 of the print head 4 is attached to and detached from the head cap 5 near the side wall on one side in the longitudinal direction on the print head 4 side. It is kept possible. That is, pins 9 are provided at both ends of the cleaning roller 7 so as to protrude as shown in FIG. 4, and the pins 9 are held by holding members 10 which stand up in a substantially U-shape as shown in FIG. ing. The upper pin receiving portion of the holding member 10 is elastically openable and closable. When the pin 9 is pressed from above onto the pin receiving portion, the pin receiving portion opens to receive the pin 9, and then closes. Hold. Conversely, when the pin 9 is lifted upward, the pin receiving portion is opened and the pin 9 can be removed.
[0037]
As shown in FIGS. 4 and 5, the cylindrical shape of the cleaning roller 7 is formed in a so-called crown shape in which the central portion in the longitudinal direction is gradually thickened. This is to prevent the cleaning roller 7 from bending out of contact with the ink ejection surface 6 because the cleaning roller 7 may bend downward at the central portion in the longitudinal direction.
[0038]
The portion of the cleaning roller 7 that contacts the ink ejection surface 6 is made of a material such as rubber having elasticity. That is, the core material of the cleaning roller 7 is formed of, for example, metal or hard resin, and the outer peripheral portion of the core material is formed of an elastic member such as rubber. The entire cleaning roller 7 may be formed of an elastic member such as rubber.
[0039]
As shown in FIG. 3, a floating spring 11 is interposed in a portion for holding the cleaning roller 7 on the head cap 5. The floating spring 11 serves as a means for urging the cleaning roller 7 toward the ink ejection surface 6 of the print head 4, and is composed of, for example, a leaf spring formed in a substantially U shape in a side view. It is inserted below the pin 9 in the vicinity of 10. Then, the urging force of the floating spring 11 acts on the pins 9 at both ends, thereby pressing the cleaning roller 7 against the ink ejection surface 6 of the print head 4 with a substantially uniform force.
[0040]
As a result, as shown in FIG. 2, in a state where the head cap 5 is attached to the bottom surface side of the ink cartridge 3, the urging force of the floating spring 11, the elastic force of the cleaning roller 7, and the crown shape The cleaning roller 7 comes into contact over the entire length of the ink ejection surface 6 of the print head 4. The floating spring 11 is not limited to a substantially U-shaped leaf spring, but may be a coil spring.
[0041]
Further, the cleaning roller 7 is driven to rotate by contact with the ink ejection surface 6 of the print head 4. Therefore, as shown in FIG. 2, when the head cap 5 moves in the direction of arrow A, the cleaning roller 7 rotates while being in close contact with an appropriate pressure over the entire length of the ink ejection surface 6 of the print head 4, and the rotation Cleaning the ink adhering to the ink ejection surface 6.
[0042]
Here, the cleaning operation of the ink discharge surface 6 of the print head 4 by the cleaning roller 7 will be described with reference to FIG. FIG. 6 is an enlarged sectional view of the ink discharge surface 6, the ink discharge holes 13, and the cleaning roller 7 for easy understanding. First, in FIG. 6, the cleaning roller 7 is driven to rotate in the direction of arrow C by contact with the ink ejection surface 6 while moving in the direction of arrow A together with the head cap 5 shown in FIG. Then, it is assumed that the cleaning roller 7 passes through the position of the ink ejection holes 13 in a certain row on the ink ejection surface 6 of the print head 4 shown in FIG.
[0043]
FIG. 6A shows a state in which the cleaning roller 7 that has moved in the direction of arrow A while rotating in the direction of arrow C has approached the position of the ink ejection holes 13 in a certain row. At this time, the ink 15 is filled with ink 15 from the ink chamber 14 at the portion of the ink ejection hole 13, and a meniscus 16 having a concave curved surface is formed inside the ink ejection hole 13 due to the interfacial tension of the surface of the ink 15. Is formed. Here, the ink in the vicinity of the meniscus is in a state of being thicker than the normal ink viscosity due to drying. Then, as shown in FIG. 6A, the cleaning roller 7 is moved in the direction of arrow A while rotating in the direction of arrow C, thereby moving the ink discharge holes 13 from one side edge to the other side edge. In the meantime, the air in the ink ejection holes 13 is pushed out from the gap at the other side edge as shown by the arrow D.
[0044]
Next, as shown in FIG. 6B, when the cleaning roller 7 further moves in the direction of the arrow A while further rotating in the direction of the arrow C, and just reaches the position of the ink discharge hole 13, the ink discharge hole 13 is completely closed. At this time, since the cleaning roller 7 is pressed against the ink ejection surface 6 and is in contact therewith, microscopically, a part of the surface of the cleaning roller 7 has one side edge of the ink ejection hole 13 due to its elasticity. Between the portion and the other side edge portion, slightly enters the ink discharge hole 13, closes the inlet of the ink discharge hole 13 in a state where the air in the ink discharge hole 13 is pushed out by that much, and seals the inside. I have. At this time, the surface of the cleaning roller 7 contacts the meniscus 16 and sucks the ink 15 depending on the state of the force (negative pressure on the meniscus) applied to the meniscus 16 and drawn into the ink chamber. Sometimes.
[0045]
Thereafter, as shown in FIG. 6C, the cleaning roller 7 further moves in the direction of the arrow A while further rotating in the direction of the arrow C, so that the cleaning roller 7 closes the other side edge of the ink discharge hole 13 in one direction. Open only the side edges. At this time, microscopically, when a part of the surface of the cleaning roller 7 slightly entering the ink ejection hole 13 is separated from one side edge of the ink ejection hole 13, the sealing inside the ink ejection hole 13 is performed. The drawn air is drawn and sucked as shown by an arrow E from a gap at one side edge.
[0046]
That is, as shown in FIG. 6B, the air in the ink ejection holes 13 is slightly pushed out and sealed (positive pressure), and then the air in the ink ejection holes 13 is changed as shown in FIG. When ink is drawn out (negative pressure), a change in pressure in the ink ejection hole 13 causes the ink in the ink ejection hole 13 to be sucked. Here, in the state of FIG. 6B, depending on the state of the force (negative pressure with respect to the meniscus) applied to the meniscus 16 toward the ink chamber side, the surface of the cleaning roller 7 may be , And the ink 15 may start to be sucked. Thereby, the ink remaining in the ink ejection holes 13 is subjected to a suction force that is pulled to the outside of the print head 4 in FIG. 2, and the ink in the ink ejection holes 13 can be sucked and reliably removed. .
[0047]
In this case, since the cleaning roller 7 formed of a material having elasticity such as rubber in a cylindrical shape is moved on the ink ejection surface 6, the protection layer in a state where the head electrode of the ink ejection surface 6 is covered with the resin is damaged. The cleaning of the ink ejection surface 6 can be performed without performing the above operation.
[0048]
In the above description, the cleaning roller 7 is driven to rotate by contact with the ink ejection surface 6 of the print head 4. However, the cleaning roller 7 is fixed so as not to rotate in contact with the ink ejection surface 6. Is also good. For example, in FIG. 3, two pins 9 are provided at both ends of the cleaning roller 7 in the up-down direction, and these two pins 9 are inserted into the substantially U-shaped grooves of the holding member 10 so that the cleaning roller 7 is formed. Is prevented from rotating. In this case, since the ink discharge surface 6 is moved while being rubbed by the cleaning roller 7, not only liquid ink adhering to the ink discharge surface 6 but also solidified and adhered ink can be cleaned.
[0049]
Further, the cleaning roller 7 may be configured to rotate while rubbing the ink ejection surface 6 of the print head 4 by restricting the rotation by a brake mechanism. In this brake mechanism, for example, in FIG. 3, an appropriate elastic body is interposed in a portion where the pins 9 at both ends of the cleaning roller 7 are held by the holding member 10, and the pin 9 is inserted into a hole formed in the elastic body. The mechanism is such that the cleaning roller 7 is press-fitted or the both end surfaces of the cleaning roller 7 are pressed against the side surfaces of the elastic body, and an appropriate braking force is generated when the cleaning roller 7 rotates. In this case, since the cleaning roller 7 slightly rotates while rubbing the ink discharge surface 6, the liquid ink adhering as well as the solidified and adhered ink can be used without damaging the ink discharge surface 6. Can be cleaned.
[0050]
As shown in FIGS. 3 to 5, the ink receiving portion 8 inside the head cap 5 has an ink absorbing member 8 ′ laid on a receiving surface which is a bottom surface thereof. The ink absorbing member 8 'serves as a means for preventing the ink ejected from the print head 4 from rebounding. The ink absorbing member 8' is made of a porous polymer material such as sponge, polyurethane, or foamed polyurethane. As shown, the ink receiving portion 8 is laid over substantially the entire receiving surface. However, as shown in FIG. 5, in order to escape the large-diameter portion at the center of the cleaning roller 7 formed in a crown shape, the cleaning roller 7 may not be laid below the cleaning roller 7.
[0051]
When the ink absorbing member 8 ′ is laid as described above, it is necessary to prevent the ink ejected from the print head 4 shown in FIG. 2 from rebounding and to absorb the ink so as not to collect in the ink receiving portion 8. Can be. Accordingly, it is possible to prevent the preliminary ejection ink from rebounding at the ink receiving portion 8 and re-adhering to the ink ejection surface 6. Also, by using the appropriate period, the ink absorbing member 8 ′ that has absorbed the pre-discharged ink is removed from the ink receiving unit 8 and discarded, and a new ink absorbing member 8 ′ is laid to clean the pre-discharged ink. Can be done easily.
[0052]
Although the embodiment shown in FIGS. 3 to 5 shows an example in which the entire bottom surface of the head cap 5 is formed as the ink receiving portion 8, the present invention is not limited to this. It may be. For example, in FIG. 2, the cleaning roller 7 is slightly moved toward the center, and a partition plate is provided between the cleaning roller 7 and the side wall of the head cap 5 on the cleaning roller 7 side. The enclosed chamber may be used as the ink receiving section 8. In this case, the location for receiving the preliminary ejection ink from the ink ejection hole of the print head 4 can be limited to a specific position of the head cap 5.
[0053]
Next, the preliminary ejection of ink from the ink ejection holes of the print head 4 will be described. Preliminary ejection of ink is performed before printing or printing, in order to prevent the ink in the ink ejection holes from evaporating and drying to increase the viscosity or solidify as described above, making it difficult to perform normal ink ejection. For example, the ink in the ink ejection holes is suctioned and discharged. The preliminary ejection of the ink is performed from the ink ejection hole toward the ink receiving portion 8 of the head cap 5 after the cleaning of the ink ejection surface 6 by the cleaning roller 7. For example, ink droplets are ejected from the ink ejection holes of the print head 4 at a frequency of about 10 kHz, and this is repeated several times to perform preliminary ejection.
[0054]
In FIG. 2, in order to avoid color mixing due to cleaning of the ink ejection surface 6 of each color with one cleaning roller 7, when performing preliminary ejection of ink after cleaning of the ink ejection surface 6 of each color, the ink is discharged. It is necessary to control the timing of preliminary ejection.
[0055]
For this purpose, as shown in FIG. 7, when the head cap 5 moves relative to the print head 4, the timing of preliminary ejection from the ink ejection holes of the print head 4 is detected. Means are provided. In FIG. 7, the moving direction of the head cap 5 is shown as moving to the opposite side from FIG.
[0056]
The means for detecting the timing of the preliminary ejection is provided in FIG. 7 with a position detection sheet 17 provided on the lower surface side of the head cap 5 and provided in the printer main body 2 shown in FIG. And the photoelectric switch 18 provided. The position detection sheet 17 is for checking the position of the print head 4 corresponding to the ink ejection surface 6 of each color when the head cap 5 moves in the direction of arrow A. For example, Y, M, C, K The light and dark patterns are formed in accordance with the arrangement pitch of the ink ejection surfaces 6 of the ink ejection surfaces 6, and the arrangement of the patterns is in the direction opposite to the order of the respective colors Y, M, C, and K of the ink ejection surface 6. In the initial state of the movement of the head cap 5, the pattern arrangement on the position detection sheet 17 side is shifted rearward in the direction of arrow A.
[0057]
The photoelectric switch 18 detects a light and dark pattern of the position detection sheet 17 that moves together with the head cap 5. For example, the photoelectric switch 18 integrally includes a light emitting unit 18 a formed of a light emitting diode (LED) and a light receiving detecting unit 18 b formed of a photodiode. It is composed by a combination. The light / dark pattern of the position detection sheet 17 is such that the reflectance changes with respect to the wavelength of the light emitted from the light emitting unit 18a, and the light receiving / detecting unit 18b is also sensitive to the wavelength of the reflected light. Have been.
[0058]
With such a configuration, when the head cap 5 moves in the direction of arrow A, when the position detection sheet 17 on the lower surface of the head cap 5 passes in front of the photoelectric switch 18, the brightness of the position detection sheet 17 increases. By detecting the pattern, the corresponding positions of the Y, M, C, and K with respect to the ink ejection surface 6 can be checked. Thus, the position of the cleaning roller 7 that moves together with the head cap 5 is known, and immediately after the cleaning of the ink discharge surface 6 of each color by the cleaning roller 7, preliminary discharge of ink is sequentially performed from each ink discharge hole. To control the timing. At this time, the pre-discharged ink is reliably received in the ink receiving section 8.
[0059]
FIG. 8 is a schematic explanatory view showing another embodiment of the cleaning roller 7. In this embodiment, the cleaning roller 7 is rotated in a forward or reverse direction by a rotation driving mechanism. That is, in FIG. 2, the rotation shaft of a motor (not shown) provided in the printer main body 2 is coupled to the pin 9 of the cleaning roller 7 via a gear mechanism having an appropriate reduction ratio, and the cleaning roller 7 is positively actuated. It is configured to be rotationally driven.
[0060]
As shown in FIG. 8A, the rotation of the cleaning roller 7 by the motor is rotated in the same direction as the arrow A of the head cap 5 shown in FIG. Speed v ₁ Than the peripheral speed v of the cleaning roller 7 ₂ Is rotated at a rotational speed such that becomes larger. In this case, rubbing occurs based on the speed difference between the ink ejection surface 6 of the print head 4 and the outer peripheral surface of the cleaning roller 7, and the ink ejection surface 6 is reliably cleaned. Also, the moving speed v of the head cap 5 ₁ Is the outer peripheral speed v of the cleaning roller 7. ₂ When the motor is rotated at a rotation speed larger than the above, rubbing occurs between the ink ejection surface 6 and the outer peripheral surface of the cleaning roller 7 in the same manner as described above, and the ink ejection surface 6 is reliably cleaned. You.
[0061]
Alternatively, as shown in FIG. 8B, the cleaning roller 7 may be rotated in a direction opposite to the moving direction of the arrow A of the head cap 5 shown in FIG. In this case, rubbing occurs due to a difference in the moving direction between the ink discharge surface 6 of the print head 4 and the outer peripheral surface of the cleaning roller 7, and the ink discharge surface 6 is reliably cleaned. As described above, in the case of the embodiment shown in FIG. 8, the ink discharge surface 6 of the print head 4 is cleaned by the new outer peripheral surface that is successively drawn out by the positive rotation of the cleaning roller 7.
[0062]
FIG. 9 is a block diagram illustrating the configuration and operation of the control unit 40 that controls the image forming apparatus configured as described above. The control unit 40 controls the driving of a moving unit that moves the head cap 5 containing the cleaning roller 7 therein, and controls the operation of discharging ink from the ink discharge holes of the print head 4. , A control unit 41, a mechanical drive unit 42, and a head drive unit 43.
[0063]
The control unit 41 serves as a drive control unit that controls the driving of a cap opening / closing motor 46 that opens and closes the head cap 5 and a discharge control unit that controls the operation of discharging ink from the ink discharge holes. Has a ROM 44 for storing various information and control programs, and a CPU 45 for transmitting various control commands based on the control programs read from the ROM 44. It comes to control.
[0064]
The mechanical drive unit 42 drives a cap opening / closing motor 46 for opening and closing the head cap 5 and a supply / discharge motor 47 for supplying and discharging paper as a recording medium. The cap opening / closing motor 46 serves as a moving means for relatively moving the cleaning roller 7 and the ink ejection surface 6 of the print head 4 in a state where the two are brought into contact with each other.
[0065]
Further, the head driving section 43 drives an element section for ejecting ink from ink ejection holes provided on the ink ejection surface 6 of the print head 4, and includes, for example, an electrothermal converter for yellow constituted by a heating resistor. A drive signal is sent to the means 48, the magenta electrothermal conversion means 49, the cyan electrothermal conversion means 50, and the black electrothermal conversion means 51, respectively.
[0066]
The control unit 40 configured as described above receives the print signal indicating the image forming operation from the outside by the control unit 41, and the position corresponding to the ink ejection surface 6 of each color from the photoelectric switch 18 shown in FIG. , And sends a drive signal to the mechanical drive unit 42 and the head drive unit 43 so that the cleaning roller 7 sequentially moves from the row of ink discharge holes of the color on the ink discharge surface 6 in the order of yellow, magenta, Control is performed such that ink is preliminarily ejected into the head cap 5 in the order of cyan and black.
[0067]
FIG. 10 is a flowchart illustrating a control method of the image forming apparatus configured as described above, and mainly illustrates control of a printing operation. This control is executed in accordance with an instruction from the CPU 45 based on a control program stored in the ROM 44 in the control unit 41 shown in FIG.
[0068]
First, in step S1 of FIG. 10, when a print signal indicating the start of image forming operation is input to the control unit 41 shown in FIG. 9, the control unit 41 sends a cap opening trigger signal to the mechanical driving unit 42 in step S2. Is transmitted to drive the cap opening / closing motor 46 to start the opening operation of the head cap 5. Next, in step S 3, the ink discharge surface 6 is cleaned by the cleaning roller 7 in accordance with the opening operation of the head cap 5, and the control unit 41 sends a preliminary discharge signal to the head drive unit 43. I do.
[0069]
Subsequently, in step S4, it is confirmed that the head cap 5 has reached the retracted position, and in step S5, the printing operation is started. When the printing operation is completed (step S6), the control unit 41 sends a cap closing trigger signal to the mechanical driving unit 42 to drive the cap opening / closing motor 46, thereby closing the head cap 5 (step S7). Thereafter, the above operation may be repeated according to the input of the print signal. When the printing operation is completed in step S7, the head cap 5 is once closed and then opened and closed again, and the cleaning of the ink ejection surface 6 by the cleaning roller 7 and the ink Is performed.
[0070]
Next, a series of cleaning operations by the cleaning roller 7 and the head cap 5 in the image forming apparatus configured as described above will be described with reference to FIG. Here, in the ink jet head 1 shown in FIG. 2, the head cap 5 moves in the direction of arrow A to clean the ink discharge surface 6 of the print head 4, and after that, preliminary discharge of ink is performed.
[0071]
First, FIG. 11A shows an initial state in which the head cap 5 is closed with respect to the ink cartridge 3. In this state, in FIG. 1, the ink jet head 1 is stored and set in the printer main body 2. Next, in a state where the head cap 5 is set in the printer main body 2, the head cap 5 is moved in the direction of arrow A relative to the ink cartridge 3 as shown in FIG. . Then, the cleaning roller 7 moves in the direction of the arrow A together with the head cap 5 with respect to the ink cartridge 3, and is driven in contact with the ink discharge surface 6 of the print head 4 while being pressed against the ink discharge surface 6. Alternatively, the rotation is restricted by a fixed or brake mechanism, or the motor is rotated in a forward or reverse direction by a motor to move.
[0072]
In this state, in FIG. 2, it is assumed that the yellow Y ink ejection surface 6 among the ink ejection surfaces 6 of the print head 4 has been cleaned. Then, the portion corresponding to yellow Y of the position detection sheet 17 (see FIG. 7) provided on the lower surface side of the head cap 5 moves to the detection position of the photoelectric switch 18, and the cleaning of the yellow Y ink ejection surface 6 is performed. Detects termination. Thereby, a preliminary ejection start signal is sent from the control unit 41 shown in FIG. That is, a preliminary ejection start signal is sent to the row of ink ejection holes (yellow electrothermal converting means 48) on the yellow Y ink ejection surface 6.
[0073]
Next, as shown in FIG. 11C, the preliminary ejection ink 52 is ejected from the ink ejection holes of the yellow Y ink ejection surface 6. Thereafter, a preliminary ejection stop signal is sent to the ink ejection holes of the yellow Y ink ejection surface 6, and the ejection of the preliminary ejection ink 52 is stopped. In the same manner, in FIG. 2, each time the cleaning of the M, C, and K ink ejection surfaces 6 by the cleaning roller 7 is sequentially completed, the end of cleaning of the ink ejection surfaces 6 is detected by the photoelectric switch 18, and the control unit 41. Sends a preliminary ejection start signal and a preliminary ejection stop signal to each row of ink ejection holes. As a result, as shown in FIGS. 11D, 11E, and 11F, the timing of the preliminary ejection from the row of the ink ejection holes of each color is controlled, and the preliminary ejection ink 52 in the order of M, C, and K is controlled. Are sequentially executed.
[0074]
When the cleaning and the preliminary ejection of the ink ejection surfaces 6 of the respective colors are completed in this way, as shown in FIG. 11 (g), the head cap 5 moves fully in the direction of arrow A and moves slightly upward to the retreat position. Fits in. In this state, printing and printing are performed on recording paper.
[0075]
Next, when printing and printing of the required number of pages are completed, a head cap closing signal is sent, and the head cap 5 is moved relative to the ink cartridge 3 from the retracted position as shown in FIG. Is moved in the direction of arrow B. Then, the cleaning roller 7 moves together with the head cap 5 in the direction of the arrow B with respect to the ink cartridge 3 to close the ink cartridge 3 and return to the initial state. When the cleaning roller 7 returns in the direction of arrow B, the cleaning roller 7 does not contact the ink ejection surface 6 and does not clean the ink ejection surface 6.
[0076]
As described above, when printing and printing of a required number of pages are completed, the head cap 5 once closed to the ink cartridge 3 and returned to the initial state receives the head cap open signal again, and ) To (g) are repeated. In other words, with the opening operation of the head cap 5, the cleaning rollers 7 sequentially clean the ink discharge surfaces 6 of the respective colors Y, M, C, and K, and each time the corresponding color of the cleaned ink discharge surface 6 is reserved. The ejection ink 52 is ejected. Then, the head cap 5 receives the head cap closing signal again, and returns to the initial state of the closed state with respect to the ink cartridge 3 through the operation of FIG. Then, it waits for the next print / print instruction.
[0077]
In the description of the operation shown in FIG. 11, when the head cap 5 moves in the direction of arrow A, the cleaning roller 7 contacts the ink discharge surface 6 to clean the ink discharge surface 6, When the head cap 5 returns in the direction of arrow B, the cleaning roller 7 does not contact the ink ejection surface 6. However, the present invention is not limited to this. In some cases, only the cleaning of the ink ejection surface 6 by the cleaning roller 7 is performed. The head cap 5 may move in the directions of arrows A and B in a state where the cleaning roller 7 does not contact the ink ejection surface 6. In this case, only the preliminary ejection of ink toward the inside of the head cap 5 is performed without cleaning the ink ejection surface 6 by the cleaning roller 7. At this time, when the head cap 5 returns to the position shown in FIG. 11H from the retracted position of the head cap 5 shown in FIG. 11G, preliminary ejection of the ink is performed, and the sequence of retreating to the position shown in FIG. There is also.
[0078]
In addition, in the state where the head cap 5 shown in FIG. 11G is in the retracted position, regardless of the opening / closing operation of the head cap 5, the preliminary discharge of the ink is performed without cleaning the ink discharge surface 6 by the cleaning roller 7. May be done.
[0079]
10 and 11, the case where the ink ejection surface 6 is cleaned when the head cap 5 moves in the direction of the arrow A and opened, and the preliminary ejection of the ink is performed after the cleaning has been described. Then, without cleaning the ink ejection surface 6, the head cap 5 is moved and opened in the direction of arrow A, and then when the head cap 5 is moved and closed in the direction of arrow B, the cleaning roller 7 cleans the ink ejection surface 6. May be performed, and after that, preliminary ejection of ink may be performed. FIG. 12 shows that when the head cap 5 is moved from the open state to the arrow B direction and closed at the end of the printing and printing operations, the cleaning roller 7 cleans the ink ejection surface 6, 5 is a flowchart showing an operation and a control method when performing the preliminary ejection of the first embodiment, and mainly shows control of a printing operation. Also in this case, the control is executed in accordance with an instruction from the CPU 45 based on a control program stored in the ROM 44 in the control unit 41 shown in FIG.
[0080]
First, in step S11 of FIG. 12, when a print signal indicating the start of image forming operation is input to the control unit 41 shown in FIG. 9, the control unit 41 sends a cap opening trigger signal to the mechanical drive unit 42 in step S12. Is transmitted to drive the cap opening / closing motor 46 to start the opening operation of the head cap 5.
[0081]
Next, in step S13, it is confirmed that the head cap 5 has reached the retracted position, and in step S14, the printing operation is started. Subsequently, when the printing operation is completed (step S15), the control unit 41 sends a cap closing trigger signal to the mechanical driving unit 42 to drive the cap opening / closing motor 46, thereby starting the closing operation of the head cap 5 (step S15). Step S16). Then, with the cap closing operation, the outer peripheral surface of the cleaning roller 7 is brought into contact with the ink ejection surface 6 of the print head 4 to clean the ink ejection surface 6, and the control unit 41 sends a preliminary ejection signal to the head driving unit 43. The preliminary ejection of the ink is performed by sending the ink (step S17). Thus, the head cap 5 closes and returns to the initial state.
[0082]
Next, a series of cleaning operations by the cleaning roller 7 and the head cap 5 shown in FIG. 12 will be described with reference to FIG. Here, the cleaning operation after the printing operation of printing and printing is completed will be described.
[0083]
As shown in FIG. 13A, when printing and printing of a required number of pages are completed with the head cap 5 in the retracted position, a head cap closing signal is sent, and the head cap 5 is moved to the retracted position. Then, as shown in FIG. 13B, the ink cartridge 3 is moved in the direction of arrow B relative to the ink cartridge 3 to perform the closing operation.
[0084]
In accordance with the closing operation of the head cap 5, the cleaning roller 7 brings the outer peripheral surface thereof into contact with the ink ejection surface 6 of the print head 4, and K, C, M, Y from the opposite direction to the opening operation of the head cap 5. The cleaning of the ink ejection surface 6 is performed in this order. Then, the passage of the position detection sheet corresponding to the ink ejection surface 6 of each color is detected by a photoelectric switch (not shown), and the preliminary ejection ink 52 of the corresponding color is ejected. When cleaning and preliminary ejection of the ink ejection surfaces 6 for all colors are completed in this manner, the state returns to the initial state in which the head cap 5 is closed in FIG. In this case as well, only the cleaning of the ink discharge surface 6 by the cleaning roller 7 is performed and the preliminary discharge of the ink is not performed. Conversely, only the preliminary discharge of the ink is performed and the ink discharge by the cleaning roller 7 is performed. It is also possible not to clean the surface 6.
[0085]
Next, the overall configuration and operation of the above-described image forming apparatus, for example, an ink jet printer, will be described with reference to FIG. 1 and FIGS. This ink jet printer prints by spraying ink dots on recording paper by ejecting fine ink particles from an ink jet head and printing the ink. As shown in FIG. 1, an ink jet head 1, a printer body 2, a head It comprises an attachment / detachment mechanism 19 and a head cap opening / closing mechanism 20. This ink jet printer is of a type in which the ink jet head 1 is directly mounted on the printer main body 2.
[0086]
The ink jet head 1 discharges liquid ink into fine particles by, for example, an electrothermal conversion method or an electromechanical conversion method, and sprays ink dots on recording paper, as described in FIGS. 1 to 11 described above. It is configured in the same way.
[0087]
The printer main body 2 is for mounting the ink jet head 1 at a predetermined position and exhibiting a function as an ink jet printer, and includes a recording paper tray, a recording paper transport system, an operation drive system, an overall control circuit unit, and the like. Have. In FIG. 1, reference numeral 21 denotes a paper feed cartridge for supplying recording paper and a paper discharge tray discharged after printing.
[0088]
The head attaching / detaching mechanism 19 is for mounting and fixing the ink jet head 1 to a predetermined location of the printer main body 2 and releasing the fixing. It is composed of a horizontally long bar member configured to insert the ink jet head 1 and press the upper surface thereof. That is, it extends in the entire width direction of the printer main body 2 and falls, for example, vertically and horizontally. Then, as shown in FIG. 1, the ink jet head 1 is housed and mounted in the direction of arrow H in a state where the bar member stands upright in the vertical direction, and the ink jet head is mounted in a state where the bar member is tilted in the horizontal direction as shown in FIG. The head 1 is fixed to the predetermined location.
[0089]
The head cap opening / closing mechanism 20 moves the head cap 5 relative to the print head 4 (see FIG. 2) while the ink jet head 1 is fixed to a predetermined portion of the printer main body 2, and moves the ink ejection surface 6 (see FIG. 2). 2), and closes the head cap 5 after printing is completed. The head cap 5 is engaged with a pinion 23 and a rack 22 provided on a side surface of the printer body 2, for example. Note that a pin-shaped projection is provided on the inner side surface of the rack 22, and this is fitted into a concave portion formed on the corresponding outer surface of the head cap 5.
[0090]
Then, as shown in FIG. 14, the pinion 23 is rotated in a predetermined direction by a motor (not shown) in a state where the ink jet head 1 is fixed to a predetermined position of the printer main body 2 by the head attaching / detaching mechanism 19, and thereby, as shown in FIG. As shown in the figure, the rack 22 moves in the direction of arrow A, and at the same time, the head cap 5 shown in FIG.
[0091]
The head cap opening / closing mechanism 20 is not limited to the above-described engagement between the rack 22 and the pinion 23. For example, a rubber roller is pressed against both side surfaces of the head cap 5, and a motor is connected to a rotation shaft of the rubber roller. The head cap 5 may be moved in the direction of arrow A and opened by friction of the rubber roller by rotating a motor.
[0092]
Next, the ink jet head 1 is fixed to a predetermined portion of the printer main body 2 shown in FIG. 1, and the head cap 5 is moved relative to the print head 4 (see FIG. 2) to move the ink ejection surface 6 (see FIG. 2). A specific mechanism and operation for releasing is described with reference to FIGS.
[0093]
First, FIG. 16 shows a state in which the ink jet head 1 is inserted and stored in a predetermined position of the printer main body 2 in the direction of arrow H in FIG. In this state, the lower ends of the cap lock hooks 24 provided on both ends of the ink jet head 1 engage with the locking pieces 26 on both sides of the head cap 5 by the elastic force of the helical spring 25. ing. Thus, the head cap 5 is integrally attached to the ink cartridge 3.
[0094]
In this state, in FIG. 16, the head attaching / detaching mechanism 19 is pressed down in the direction of arrow J and fixed. Then, the upper end portion 28 of the cap lock hook 24 is pushed down and rotated by the cap unlocking piece 27 provided on the lower side of the head attaching / detaching mechanism 19, and as shown in FIG. To release the engagement with the locking pieces 26 on both sides of the head cap 5. Thereby, as shown in FIG. 14, the ink jet head 1 is fixed to a predetermined portion of the printer main body 2 by the head attaching / detaching mechanism 19, and the head cap 5 becomes movable.
[0095]
Next, the head cap opening / closing mechanism 20 shown in FIG. 14 is operated, and the pinion 23 is rotated by a motor (not shown) to move the rack 22 in the direction of arrow A. Then, as shown in FIG. 18, the head cap 5 mounted on the bottom side of the ink cartridge 3 moves in the direction of arrow A together with the rack 22 and opens. Then, as shown in FIG. 2, the cleaning of the ink ejection surface 6 of the print head 4 provided on the bottom surface of the ink cartridge 3 is started by the cleaning roller 7 urged by the floating spring 11. In FIG. 18, reference symbol P indicates a locus of movement of the head cap 5.
[0096]
Thereafter, as shown in FIG. 19, the head cap 5 sequentially moves in the direction of arrow A according to the movement locus P. At this time, the cleaning rollers 7 attached to the head cap 5 sequentially clean the ink discharge surfaces 6 of the respective colors Y, M, C, and K shown in FIG. Do.
[0097]
When the cleaning and the preliminary ejection of the ink ejection surfaces 6 of the respective colors are completed, the head cap 5 moves fully in the direction of arrow A according to the movement locus P and moves slightly upward as shown in FIG. As shown, it fits in the evacuation position. In this state, printing and printing are performed on recording paper. At this time, since the head cap 5 moves slightly upward as shown in FIG. 20, the space for storing the head cap 5 can be reduced. In FIG. 20, the recording paper passes below the print head 4 provided on the bottom surface of the ink cartridge 3, but the recording paper may be guided on the lower surface of the head cap 5. In this case, a rib for guiding the recording paper may be provided on the lower surface side of the head cap 5. Further, a water-repellent treatment may be performed so that the ink printed on the recording paper does not adhere.
[0098]
In this state, when printing and printing of a required number of pages are completed, the head cap 5 is moved from the retreat position shown in FIG. 20 in the direction of arrow B by the above-described reverse operation, and as shown in FIG. 5 is returned to the bottom side of the ink cartridge 3 in an initial state. At the end of the printing operation, the head cap 5 is moved in the direction of arrow B shown in FIG. 21 to open and close the once closed head cap 5 again in the directions of arrows A and B. Cleaning and preliminary ejection of the ink ejection surface 6 are performed. Alternatively, at the end of the printing operation, the cleaning of the ink ejection surface 6 and the preliminary ejection are performed with the operation of closing the head cap 5.
[0099]
In FIG. 16, when the head attaching / detaching mechanism 19 is opened in the direction opposite to the arrow J, the cap lock hook 24 engages with the locking pieces 26 on both sides of the head cap 5 by the elastic force of the helical spring 25. The head cap 5 is integrally attached to the ink cartridge 3. In this state, the inkjet head 1 can be removed from the printer main body 2 as shown in FIG.
[00100]
If the power of the printer is shut off for any reason while the head cap 5 is in the retracted position shown in FIG. 20, the head cap 5 remains in the retracted position. Then, in this state, as shown in FIG. 16, when the head attaching / detaching mechanism 19 is opened in the direction opposite to the arrow J, only the ink cartridge 3 is removed while the head cap 5 is left at the retracted position. . In order to prevent this, if the power of the printer is cut off for some reason, the head cap 5 at the retracted position is automatically returned to the initial position shown in FIG. An interlock mechanism may be provided to prevent the head attaching / detaching mechanism 19 from being opened in the direction opposite to the arrow J when the cap 5 has not returned to the initial state shown in FIG.
[0101]
As described above, according to the image forming apparatus of the present invention, after the printing operation is completed, the head cap 5 that has been once closed is reopened or is formed of a material having elasticity with the closing operation of the head cap 5. The cleaning roller 7 is moved on the ink ejection surface 6 and the cleaning roller 7 moves on the ink ejection surface 6 to suck the ink in the ink ejection hole. Thus, the cleaning effect in the vicinity of the ink ejection surface can be improved without damaging the ink ejection surface 6.
[0102]
Although the inkjet printer according to the above description is of a type in which the inkjet head 1 is directly mounted on the printer main body 2, the present invention is not limited to this, and the type in which the inkjet head 1 is mounted on the printer main body 2 via a tray is described. The same applies to Hereinafter, an outline of another type of ink jet printer will be described with reference to FIG.
[0103]
First, as shown in FIG. 21A, the ink jet head 1 in which the head cap 5 is integrally attached to the ink cartridge 3 is placed at a predetermined position inside a tray 29 provided to be able to advance and retreat with respect to the printer main body 2. Attach as shown by arrow Q. Thereafter, the tray 29 is moved in the direction of arrow R and set in the printer main body 2. At this time, as shown in FIG. 21B, during the movement of the tray 29 in the direction of arrow R, the head cap 5 is stopped by being hooked by an appropriate hooking means provided in the printer main body 2. . The tray 29 is for setting the ink jet head 1 in the printer main body 2 or for replacing the ink jet head 1.
[0104]
Thereafter, the tray 29 moves in the direction of arrow R as it is, whereby the ink cartridge 3 moves in the direction of arrow R relative to the head cap 5, and as a result, the head cap 5 is opened. At the same time, when the head cap 5 moves relative to the ink cartridge 3 in the direction opposite to the arrow R, the ink ejection surface 6 of the print head 4 is cleaned by the same operation as shown in FIG. Then, preliminary ejection of ink is performed. Thereafter, printing and printing are performed on the recording paper.
[0105]
Then, when the printing operation of printing or printing is completed, the ink cartridge 3 moves in the direction opposite to the arrow R relative to the head cap 5 and returns to the initial state in which the head cap 5 is closed. When the ink cartridge 3 relatively returns to the direction in which the head cap 5 is closed, neither the cleaning of the ink discharge surface 6 of the print head 4 nor the preliminary discharge of ink is performed. Thereafter, the opening and closing operation of the head cap 5 relative to the ink cartridge 3 is performed again. With the opening operation of the head cap 5, cleaning of the ink ejection surface 6 of the print head 4 and preliminary ejection of ink are performed.
[0106]
Alternatively, when the ink cartridge 3 is moved relative to the head cap 5 in the direction opposite to the arrow R to close the head cap 5, cleaning of the ink ejection surface 6 of the print head 4 and preliminary ejection of ink are performed. It is also possible to do so. Further, only one of the cleaning of the ink ejection surface 6 and the preliminary ejection of the ink may be performed.
[0107]
In FIG. 21, reference numeral 30 indicates a recording paper tray, reference numeral 31 indicates recording paper, reference numeral 32 indicates a feed roller, reference numeral 33 indicates a feed belt, reference numeral 34 indicates a discharge tray, and reference numeral S. Indicates the paper discharge direction of the recording paper.
[0108]
In the above description, the image forming apparatus is applied to, for example, a line head type ink jet printer. However, the present invention is not limited to this, and may be applied to a serial type ink jet printer. Further, the present invention is not limited to an ink jet printer, and can be implemented as an image forming apparatus such as a facsimile apparatus or a copying machine having an ink jet recording method.
[0109]
【The invention's effect】
Since the present invention is configured as described above, according to the image forming apparatus according to the first aspect, when the operation of forming an image on a recording medium ends, the moving unit is driven under the control of the drive control unit to have elasticity. In a state where the outer peripheral surface of the cylindrical cleaning member formed of a material is in contact with the ink ejection surface of the print head, the two members are relatively moved, and the elastic deformation of the cleaning member during this movement causes the inside of the ink ejection hole to move. Can be removed by suction. This makes it possible to improve the cleaning effect near the ink ejection holes without damaging the ink ejection surface of the print head.
[0110]
According to the second and third aspects of the present invention, a cap member that accommodates the cleaning member therein and protects the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving unit. By opening and closing the cap member, the cap member is moved relatively while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head in accordance with the operation of closing the cap member. Thus, the cleaning member is housed inside and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface can be relatively moved by opening or closing the cap member. Due to the elastic deformation of the cleaning member during the movement, the ink in the ink ejection holes can be sucked and removed.
[0111]
According to the image forming apparatus of the present invention, when the operation of forming an image on the recording medium is completed, the moving unit is driven under the control of the drive control unit, and the cleaning member is formed in a cylindrical shape with an elastic material. While the outer peripheral surface is in contact with the ink ejection surface of the print head, the two are relatively moved, and the ink in the ink ejection holes is sucked by the elastic deformation of the cleaning member at the time of this movement. By the control, after the cleaning member moves on the ink ejection surface, the preliminary ejection of the ink from the ink ejection holes can be performed. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink can improve the cleaning effect near the ink ejection holes without damaging the ink ejection surface of the print head.
[0112]
According to the invention according to claims 5 to 7, a cap member for housing the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving means. The cap member is moved relatively with the outer peripheral surface of the cleaning member being in contact with the ink ejection surface of the print head in accordance with the opening or closing operation of the cap member. Thus, the cleaning member is housed inside and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface can be relatively moved by opening or closing the cap member. The ink in the ink ejection hole is sucked by the elastic deformation of the cleaning member during this movement, and the ink can be preliminarily ejected from the ink ejection hole after the cleaning member moves on the ink ejection surface.
[0113]
Further, according to the image forming apparatus of the present invention, at the end of the image forming operation on the recording medium, the ink is ejected from the ink ejection hole under the control of the ejection control means, and the ink is preliminarily ejected from the ink ejection hole. can do. This makes it possible to improve the cleaning effect near the ink ejection holes without damaging the ink ejection surface of the print head.
[0114]
According to the ninth to eleventh aspects of the present invention, a cap member for housing the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member is opened and closed by driving the moving means. By opening and closing the cap member, the cap member is moved relatively while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head in accordance with the operation of closing the cap member. Thus, the cleaning member is housed inside and the ink ejection surface of the print head is protected, and the cleaning member and the ink ejection surface can be relatively moved by opening or closing the cap member.
[0115]
Furthermore, according to the image forming apparatus of the twelfth and thirteenth aspects, when the operation of forming an image on a recording medium is completed, the cap opening / closing means is driven under the control of the drive control means to form the cap into a cylindrical shape with an elastic material. The cap member for accommodating the cleaned cleaning member inside and protecting the ink ejection surface of the print head is once again opened and closed from a closed state, and the outer peripheral surface of the cleaning member is moved along with the opening operation of the cap member by the print head. In the state of contact with the ink ejection surface of the ink ejection holes, the two are relatively moved in the direction orthogonal to the rows of the ink ejection holes of each of the plurality of colors. The cleaning member passes through a row of ink ejection holes of each color on the ink ejection surface under the control of the ejection control means. Turn the ink can be preliminary discharge from the ink discharge hole. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink can improve the cleaning effect near the ink ejection holes without damaging the ink ejection surface of the print head.
[0116]
According to the image forming apparatus of the present invention, when the operation of forming an image on the recording medium is completed, the cap opening / closing means is driven under the control of the drive control means, so that the cap forming means is formed of a material having elasticity into a cylindrical shape. A state in which the cleaning member is housed inside and the cap member for protecting the ink ejection surface of the print head is closed, and the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface of the print head with the closing operation of the cap member. And moving the two relative to each other in a direction orthogonal to the rows of the ink ejection holes for each of the plurality of colors, and sucking the ink in the ink ejection holes by elastic deformation of the cleaning member during this movement. Control, the cleaning member passes through the rows of ink discharge holes for each color on the ink discharge surface in order from the ink discharge holes. It is possible to pre-discharge. Thus, the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink can improve the cleaning effect near the ink ejection holes without damaging the ink ejection surface of the print head.
[0117]
Further, according to the control method of the image forming apparatus according to the sixteenth to eighteenth aspects, when the operation of forming an image on a recording medium is completed, the moving means is driven by the control of the drive control means to form a column with an elastic material. The outer peripheral surface of the formed cleaning member is moved while being in contact with the ink ejection surface provided with the ink ejection holes, so that the ink in the ink ejection holes is controlled to be sucked. It is possible to improve the cleaning effect near the ink ejection holes without damaging the ejection surface.
[0118]
Further, according to the control method of the image forming apparatus according to the nineteenth to twenty-first aspects, when the operation of forming an image on a recording medium is completed, the moving unit is driven by the control of the driving control unit to form a column with an elastic material. The outer peripheral surface of the formed cleaning member is brought into contact with the ink ejection surface provided with the ink ejection hole and moved to suck the ink in the ink ejection hole, and the cleaning member controls the ink ejection by controlling the ejection control means. By controlling the preliminary ejection of the ink from the ink ejection holes after moving the surface, the ink ejection surface of the print head is controlled by the suction of the ink in the ink ejection holes and the subsequent preliminary ejection of the ink. It is possible to improve the cleaning effect in the vicinity of the ink ejection hole without damaging it.
[0119]
Further, according to the control method of the image forming apparatus according to the present invention, when the operation of forming an image on a recording medium is completed, the control of the discharge control means for controlling the discharge operation of the ink from the ink discharge holes is performed. By performing the ink ejection operation from the holes and controlling the preliminary ejection of the ink from the ink ejection holes, the ink ejection surface of the print head is not damaged, and the cleaning effect near the ink ejection holes is improved. Can be.
[0120]
Further, according to the control method of the image forming apparatus according to the twenty-fifth aspect, at the end of the operation of forming an image on the recording medium, the cap opening / closing means is driven by the control of the drive control means to open and close the once closed cap member again. The ink in the ink ejection holes is moved by bringing an outer peripheral surface of a cylindrical cleaning member formed of a material having elasticity into contact with an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors. By controlling the cleaning member so as to preliminarily discharge ink from the ink discharge holes in the order in which the cleaning member has passed the row of ink discharge holes of each color on the ink discharge surface under the control of the discharge control means, the ink discharge holes are controlled. By sucking the ink in the inside and the subsequent preliminary ejection of the ink, the ink ejection surface of the print head is not damaged, and the ink ejection holes are not damaged. It is possible to improve the near-cleaning effect.
[0121]
According to the control method of the image forming apparatus of the twenty-sixth aspect, when the operation of forming an image on a recording medium ends, the cap member is closed by driving the cap opening / closing means under the control of the drive control means, and the cap member is made of an elastic material. The ink in the ink ejection holes is sucked by moving the outer peripheral surface of the cleaning member formed in a column shape in contact with the ink ejection surface provided with the rows of the ink ejection holes of the respective colors, thereby controlling the ejection control means. By controlling the cleaning member to preliminarily eject ink from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface, suction of ink in the ink ejection holes and The preliminary ejection of the ink does not damage the ink ejection surface of the print head and cleans the vicinity of the ink ejection hole. To improve the results.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of an image forming apparatus, for example, an ink jet printer according to the present invention.
FIG. 2 is an enlarged cross-sectional view of the inkjet head shown in FIG.
FIG. 3 is a side view showing a specific example of a head cap, a cleaning roller, and an ink receiving unit shown in FIG. 2;
FIG. 4 is a plan view showing a specific example of the head cap, cleaning roller, and ink receiving section.
FIG. 5 is a sectional view taken along line EE of FIG. 4;
FIG. 6 is an enlarged cross-sectional view for explaining the cleaning action of the ink discharge surface of the print head by the cleaning roller.
FIG. 7 is an explanatory diagram showing a means for detecting the timing of preliminary ejection from the ink ejection holes performed when the head cap moves relative to the print head.
FIG. 8 is a schematic explanatory view showing another embodiment of the cleaning roller.
FIG. 9 is a block diagram for explaining the configuration and operation of a control unit that controls the image forming apparatus.
FIG. 10 is a flowchart showing a control method of the image forming apparatus of the present invention, and mainly shows control of a printing operation.
FIG. 11 is an explanatory diagram illustrating a cleaning operation by a head cap and a cleaning roller of the inkjet head.
FIG. 12 is a flowchart illustrating another control method of the image forming apparatus according to the present invention, and mainly illustrates control of a printing operation.
FIG. 13 is an explanatory diagram showing an operation after a printing operation is completed in the cleaning operation of FIG. 12;
FIG. 14 is a perspective view showing an embodiment of an image forming apparatus, for example, an ink jet printer according to the present invention, showing a state where an ink jet head is mounted.
FIG. 15 is a perspective view showing an embodiment of the ink jet printer, showing a state in which a head cap is opened.
FIG. 16 is an explanatory view showing a specific mechanism and operation in which the ink jet head is inserted and stored in a predetermined position of the printer body in the direction of arrow H in FIG.
FIG. 17 is an explanatory diagram showing a specific mechanism and operation in which the ink jet head is fixed to a predetermined portion of the printer main body by a head attaching / detaching mechanism and a head cap is movable.
FIG. 18 is an explanatory diagram showing a specific mechanism and operation in a state where the head cap mounted on the bottom side of the ink cartridge moves in the direction of arrow A and is opened.
FIG. 19 is an explanatory diagram showing a specific mechanism and operation in a state where the head cap sequentially moves in the direction of arrow A according to the movement locus P.
FIG. 20 is an explanatory diagram showing a specific mechanism and operation in a state where the head cap has moved fully in the direction of arrow A according to the movement locus P and has been settled at the retracted position.
FIG. 21 is a schematic explanatory view showing another type of ink jet printer in which an ink jet head is mounted on a printer main body via a tray.
[Explanation of symbols]
1. Inkjet head
2. Printer body
3. Ink cartridge
4: Print head
5. Head cap
6. Ink ejection surface
7. Cleaning roller
8. Ink receiver
8 ': ink absorbing member
9: Cleaning roller pin
10 ... holding member
11 ... Floating spring
13: Ink ejection hole
14 ... Ink chamber
15 ... Ink
17 ... Position detection sheet
18. Photoelectric switch
19… Head attachment / detachment mechanism
20 ... Head cap opening and closing mechanism
40 ... Control unit
41 ... Control unit
42 ... Mechanical drive
43 ... Head drive unit
52: preliminary ejection ink

Claims (26)

An image forming apparatus comprising: a print head having an ink ejection surface provided with ink ejection holes, and forming an image on a recording medium by ejecting ink from the ink ejection holes,
A cleaning member formed in a cylindrical shape with a material having elasticity,
Moving means for relatively moving the cleaning member with the outer peripheral surface thereof in contact with the ink ejection surface of the print head;
Drive control means for controlling the drive of the moving means,
At the end of the operation of forming an image on the recording medium, the moving means is driven under the control of the drive control means, and the outer peripheral surface of the cleaning member is brought into contact with the ink discharging surface to move the cleaning member. An image forming apparatus characterized by sucking air. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the driving of the moving means, and the cap member is opened with the opening operation. 2. The image forming apparatus according to claim 1, wherein the cleaning member is relatively moved while an outer peripheral surface of the cleaning member is in contact with an ink ejection surface of the print head. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head; and opening and closing the cap member by driving the moving means, and closing the cap member in accordance with an operation of closing the cap member. 2. The image forming apparatus according to claim 1, wherein the two surfaces are relatively moved while the surface is in contact with the ink ejection surface of the print head. An image forming apparatus comprising: a print head having an ink ejection surface provided with ink ejection holes, and forming an image on a recording medium by ejecting ink from the ink ejection holes,
A cleaning member formed in a cylindrical shape with a material having elasticity,
Moving means for relatively moving the cleaning member with the outer peripheral surface thereof in contact with the ink ejection surface of the print head;
Drive control means for controlling the drive of the moving means,
Discharge control means for controlling the discharge operation of ink from the ink discharge holes of the ink discharge surface,
At the end of the operation of forming an image on the recording medium, the moving means is driven under the control of the drive control means, and the outer peripheral surface of the cleaning member is brought into contact with the ink discharging surface to move the cleaning member. An image forming apparatus for preliminarily ejecting ink from the ink ejection holes after the cleaning member moves on the ink ejection surface under the control of the ejection control means. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the driving of the moving means, and the cap member is opened with the opening operation. 5. The image forming apparatus according to claim 4, wherein the cleaning member is relatively moved while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. A cap member for accommodating the cleaning member therein and protecting an ink ejection surface of the print head; opening and closing of the cap member by driving the moving means; 5. The image forming apparatus according to claim 4, wherein the two surfaces are relatively moved while the surface is in contact with the ink ejection surface of the print head. 7. An image forming apparatus according to claim 5, wherein an ink receiving portion for receiving ink preliminarily ejected from said ink ejection hole is provided inside said cap member. An image forming apparatus comprising: a print head having an ink ejection surface provided with ink ejection holes, and forming an image on a recording medium by ejecting ink from the ink ejection holes,
A cleaning member formed in a cylindrical shape with a material having elasticity,
Moving means for relatively moving the cleaning member with the outer peripheral surface thereof in contact with the ink ejection surface of the print head;
Drive control means for controlling the drive of the moving means,
Discharge control means for controlling the discharge operation of ink from the ink discharge holes of the ink discharge surface,
An image forming apparatus, comprising: performing an ink discharge operation from an ink discharge hole under the control of the discharge control means at the end of an image forming operation on the recording medium; and preliminarily discharging ink from the ink discharge hole. The said cleaning member cap member for protecting an ink discharge surface of the print head accommodates therein provided, once closed cap member in accordance with the operation of opening again open and close the cap member by the driving of the moving means 9. The image forming apparatus according to claim 8, wherein the cleaning member and the print head are relatively moved. A cap member is provided for accommodating the cleaning member therein and protecting the ink ejection surface of the print head. The cap member is opened and closed by driving the moving means, and the cleaning member and the cleaning member are closed by an operation of closing the cap member. 9. The image forming apparatus according to claim 8, wherein the print head is relatively moved. The image forming apparatus according to claim 9, wherein an ink receiving portion that receives ink preliminarily ejected from the ink ejection hole is provided inside the cap member. An image forming apparatus comprising: a print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors, and forming an image on a recording medium by ejecting ink from the ink ejection holes.
A cleaning member formed in a cylindrical shape with a material having elasticity,
A cap member accommodating the cleaning member therein and protecting the ink ejection surface of the print head;
With the cap member opened and closed and the cap member being opened, the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface of the print head, and the two members are arranged in an array of the ink ejection holes of the plurality of colors. Cap opening and closing means for relatively moving in a direction orthogonal to the direction,
Drive control means for controlling the drive of the cap opening and closing means,
Discharge control means for controlling the discharge operation of ink from the ink discharge holes of the ink discharge surface,
At the end of the operation of forming an image on the recording medium, the cap opening and closing means is driven under the control of the drive control means to open and close the once closed cap member again, and the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface. By moving the ink, the ink in the ink ejection holes is sucked, and under the control of the ejection control means, ink is reserved from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface. An image forming apparatus characterized by discharging. 13. The image forming apparatus according to claim 12, wherein an ink receiving portion that receives ink preliminarily ejected from the ink ejection hole is provided inside the cap member. An image forming apparatus comprising: a print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors, and forming an image on a recording medium by ejecting ink from the ink ejection holes.
A cleaning member formed in a cylindrical shape with a material having elasticity,
A cap member accommodating the cleaning member therein and protecting the ink ejection surface of the print head;
With the outer peripheral surface of the cleaning member in contact with the ink ejection surface of the print head with the opening and closing of the cap member and the closing operation of the cap member, the two are arranged in the rows of the ink ejection holes of the plurality of colors. Cap opening and closing means for relatively moving in a direction orthogonal to the direction,
Drive control means for controlling the drive of the cap opening and closing means,
Discharge control means for controlling the discharge operation of ink from the ink discharge holes of the ink discharge surface,
When the operation of forming an image on the recording medium is completed, the cap opening / closing means is driven under the control of the drive control means to close the cap member, and the outer peripheral surface of the cleaning member is brought into contact with an ink ejection surface to move the ink. Suctioning the ink in the ejection holes, and preliminarily ejecting the ink from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface under the control of the ejection control means. Image forming apparatus. 15. The image forming apparatus according to claim 14, wherein an ink receiving portion that receives ink preliminarily ejected from the ink ejection hole is provided inside the cap member. A print head having an ink ejection surface provided with ink ejection holes, a cleaning member formed in a columnar shape with an elastic material, and a state in which the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface of the print head. A moving means for relatively moving the two, and a drive control means for controlling the driving of the moving means, wherein an image forming apparatus for forming an image on a recording medium by discharging ink from the ink discharge holes. A control method,
At the end of the image forming operation on the recording medium, the moving means is driven under the control of the drive control means to bring the outer peripheral surface of the cleaning member into contact with the ink discharging surface and to move the cleaning member. A method for controlling an image forming apparatus, wherein the control is performed such that suction is performed. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the drive of the moving means, and the cap member is opened along with the opening operation. 17. The control method for an image forming apparatus according to claim 16, wherein the cleaning member is relatively moved while the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. A cap member for accommodating the cleaning member therein and protecting an ink ejection surface of the print head; opening and closing of the cap member by driving the moving means; 17. The control method for an image forming apparatus according to claim 16, wherein the two surfaces are relatively moved while the surface is in contact with the ink ejection surface of the print head. A print head having an ink ejection surface provided with ink ejection holes, a cleaning member formed in a columnar shape from an elastic material, and a state in which the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. A moving means for relatively moving the two, a drive control means for controlling the driving of the moving means, and an ejection control means for controlling the ejection operation of ink from the ink ejection holes of the ink ejection surface, A method of controlling an image forming apparatus that forms an image on a recording medium by discharging ink from the ink discharge holes,
At the end of the operation of forming an image on the recording medium, the moving means is driven under the control of the drive control means, and the outer peripheral surface of the cleaning member is brought into contact with the ink discharging surface to move the cleaning member. And controlling the ejection control means to preliminarily eject ink from the ink ejection holes after the cleaning member moves on the ink ejection surface under the control of the ejection control means. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the drive of the moving means, and the cap member is opened along with the opening operation. 20. The control method according to claim 19, wherein the cleaning member is relatively moved while an outer peripheral surface of the cleaning member is in contact with an ink ejection surface of the print head. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head; and opening and closing the cap member by driving the moving means, and closing the cap member in accordance with an operation of closing the cap member. 20. The control method of an image forming apparatus according to claim 19, wherein the both are relatively moved while the surface is in contact with the ink ejection surface of the print head. A print head having an ink ejection surface provided with ink ejection holes, a cleaning member formed in a columnar shape from an elastic material, and a state in which the outer peripheral surface of the cleaning member is in contact with the ink ejection surface of the print head. A moving means for relatively moving the two, a drive control means for controlling the driving of the moving means, and an ejection control means for controlling the ejection operation of ink from the ink ejection holes of the ink ejection surface, A method of controlling an image forming apparatus that forms an image on a recording medium by discharging ink from the ink discharge holes,
An image forming method comprising: performing an ink discharging operation from an ink discharging hole under the control of the discharging control means at the end of the image forming operation on the recording medium, and controlling the preliminary discharging of the ink from the ink discharging hole. How to control the device. A cap member for accommodating the cleaning member therein and protecting the ink ejection surface of the print head is provided, and the cap member once closed is opened and closed again by the driving of the moving means, and the cap member is opened with the opening operation. 23. The method according to claim 22, wherein the cleaning member and the print head are relatively moved. A cap member is provided for accommodating the cleaning member therein and protecting the ink ejection surface of the print head. The cap member is opened and closed by driving the moving means, and the cleaning member and the cleaning member are closed by an operation of closing the cap member. 23. The control method of an image forming apparatus according to claim 22, wherein the print head is relatively moved. A print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors; a cleaning member formed in a columnar shape with an elastic material; A cap member that protects the ink ejection surface, and a cap member that opens and closes the cap member and contacts the outer peripheral surface of the cleaning member with the ink ejection surface of the print head as the cap member opens. A cap opening / closing means for relatively moving in a direction orthogonal to the row of ink ejection holes for each of the plurality of colors; a drive control means for controlling the driving of the cap opening / closing means; and an ink ejection hole on the ink ejection surface. Discharge control means for controlling the discharge operation of the ink, and discharges the ink from the ink discharge holes to perform recording. A method of controlling an image forming apparatus for forming an image on the body,
At the end of the image forming operation on the recording medium, the cap opening / closing means is driven under the control of the drive control means to open and close the once closed cap member again, and the outer peripheral surface of the cleaning member is brought into contact with the ink ejection surface. By moving the ink, the ink in the ink ejection holes is sucked, and under the control of the ejection control means, ink is reserved from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface. A method for controlling an image forming apparatus, characterized in that control is performed to cause ejection. A print head having an ink ejection surface provided with a row of ink ejection holes for each of a plurality of colors; a cleaning member formed in a columnar shape with an elastic material; A cap member that protects the ink ejection surface, and a cap member that opens and closes the cap member and contacts the outer peripheral surface of the cleaning member with the ink ejection surface of the print head as the cap member closes. A cap opening / closing means for relatively moving in a direction orthogonal to a row of the ink ejection holes for each of the plurality of colors; a drive control means for controlling the driving of the cap opening / closing means; and an ink ejection hole on the ink ejection surface. Discharge control means for controlling the discharge operation of the ink, and discharges the ink from the ink discharge holes to record. A method of controlling an image forming apparatus for forming an image on a medium,
At the end of the operation of forming an image on the recording medium, the cap opening / closing means is driven under the control of the drive control means to close the cap member, and the outer peripheral surface of the cleaning member is brought into contact with an ink ejection surface to move the ink member. The ink in the ejection holes is sucked and controlled by the ejection control means to preliminarily eject the ink from the ink ejection holes in the order in which the cleaning member has passed the row of ink ejection holes of each color on the ink ejection surface. A method for controlling an image forming apparatus, comprising:

Images