The present application claims priority from Japanese Patent Application No. 2010-292506, which was filed on Dec. 28, 2010, the disclosure of which is herein incorporated by reference in its entirety.
1. Field of the Invention
The present invention relates to a recording apparatus configured to record an image on a recording medium and a conveyance member used in the recording apparatus.
2. Description of the Related Art
There is known a technique (a wiping technique) of a recording apparatus for removing foreign matters (such as liquid (e.g., ink) and paper dust) from a face of an annular conveyance member by a wiper. For example, in a conventional technique, foreign matters on a face of a conveyance belt (as a conveyance member) are removed by a blade (as a wiper) in an ink-jet recording apparatus (as a recording apparatus). In the wiping, the blade is moved in a direction intersecting a circumferential direction of the conveyance belt while being held in contact with the face of the conveyance belt.
Meanwhile, the face of the annular conveyance member is generally ground in its manufacturing process in order to reduce a surface roughness. A large surface roughness lowers a conveyance accuracy and an adsorptive holding force of the conveyance member and deteriorates an efficiency of removing foreign matters by the wiper. In a grinding step, the conveyance member is rotated in its circumferential direction in a state in which a grindstone or a buff is held in contact with the face of the conveyance member, for example. This makes it possible to easily grind the entire face of the conveyance member. As a result of this grinding, grinding marks (polishing lines) extending in the circumferential direction are formed in the face of the conveyance member.
However, in the conventional technique, the direction of the movement of the wiper is the direction intersecting the circumferential direction. Thus, if the grinding marks extending in the circumferential direction are formed in the face of the conveyance member, the foreign matters disadvantageously enter into the grinding marks in the wiping because the direction of the movement of the wiper intersects the direction in which the grinding marks extend. This may cause a problem that good wiping is unable to be performed.
This invention has been developed in view of the above-described situations, and it is an object of the present invention to provide a recording apparatus and a conveyance member used for the recording apparatus each of which can perform good wiping in a construction in which a wiper is moved relative to a face of an annular conveyance member in a direction intersecting a circumferential direction of the conveyance member.
The object indicated above may be achieved according to the present invention which provides a recording apparatus including: a recording portion configured to record an image on a recording medium; an annular conveyance member having a face opposed to the recording portion, the face being capable of moving in a circumferential direction of the annular conveyance member while supporting the recording medium to convey the recording medium; and a first wiper configured to wipe the face by moving relative to the face, while contacting the face, in an intersecting direction that intersects the circumferential direction, wherein the face has a first area as a part of the face, the first area being an area at least a part of which is wiped by the first wiper, the first area having a grinding mark extending in the intersecting direction.
The object indicated above may be achieved according to the present invention which provides an annular conveyance member having a face disposed so as to be opposed to a recording portion configured to record an image on a recording medium, wherein the annular conveyance member is configured such that the face moves in a circumferential direction of the annular conveyance member while supporting the recording medium to convey the recording medium, and wherein the face has a first area as a part of the face, the first area being an area at least a part of which is wiped by a wiper in an intersecting direction that intersects the circumferential direction, the first area having a grinding mark extending in the intersecting direction.
The objects, features, advantages, and technical and industrial significance of the present invention will be better understood by reading the following detailed description of an embodiment of the invention, when considered in connection with the accompanying drawings, in which:
Hereinafter, there will be described an embodiment of the present invention by reference to the drawings.
First, there will be explained an overall construction of an ink-jet printer 1 as one embodiment of the present invention with reference to
The printer 1 includes a casing 1a having a rectangular parallelepiped shape. A sheet-discharge portion 31 is provided on a top plate of the casing 1a. An inner space of the casing 1a is divided into spaces A, B, and C in order from an upper side thereof. A sheet-supply unit 1b is disposed in the space B. In the spaces A and B, there is formed a sheet conveyance path extending from the sheet-supply unit 1b to the sheet-discharge portion 31.
In the space A, there are disposed a sheet sensor 32, four heads 10, a conveyance unit 21, a guide unit, a wiping unit 40, a controller 1p, and so on.
The conveyance unit 21 includes: belt rollers 6, 7; an endless conveyance belt 8 wound around the rollers 6, 7; a nip roller 4 and a peeling plate 5 disposed outside the conveyance belt 8; platens 9a, 9b disposed inside the conveyance belt 8; and so on. The belt roller 7 is a drive roller that is rotated in a clockwise direction in
Each head 10 (as one example of a recording portion) is a line head having a generally rectangular parallelepiped shape elongated in a main scanning direction. In recording (forming an image), the four heads 10 respectively eject inks of four colors, namely, magenta, cyan, yellow, and black, from the lower faces (the ejection faces 10a) thereof. The four heads 10 are arranged in a sub-scanning direction (perpendicular to the main scanning direction) at predetermined pitches and supported by the casing 1a via a frame 3.
The guide unit includes the upstream-side guide portion and the downstream-side guide portion disposed on opposite sides of the conveyance unit 21. The upstream-side guide portion includes two guides 27a, 27b and a pair of conveyance rollers 26. The upstream-side guide portion connects the sheet-supply unit 1b and the conveyance unit 21 to each other. The downstream-side guide portion includes two guides 29a, 29b and two pairs of conveyance rollers 28. The downstream-side guide portion connects the conveyance unit 21 and the sheet-discharge portion 31 to each other.
The wiping unit 40 includes a first wiper 41 (as one example of a first wiper), a second wiper 42 (as one example of a second wiper), a first wiper cleaner 44 (see
The sheet-supply unit 1b includes a sheet-supply tray 23 and a sheet-supply roller 25. The sheet-supply tray 23 is mountable on and removable from the casing 1a. The sheet-supply tray 23 has a box shape opening upward and can accommodate various sizes of sheets P. The sheet-supply roller 25 supplies, to the upstream-side guide portion, an uppermost one of the sheets P in the sheet-supply tray 23.
The controller 1p controls operations of the components of the printer 1 to control entire operations of the printer 1.
In order to record an image on the sheet P on the basis of image data supplied from an external device such as a PC connected to the printer 1, the controller 1p controls: a preliminary operation for the recording; the supplying, conveying, and discharging of the sheet P; an ink ejecting operation synchronized with the conveyance of the sheet P; and so on. Specifically, on the basis of a recording command received from the external device, the controller 1p controls driving devices for driving: a sheet-supply motor 125 (see
Here, the sub-scanning direction is a direction parallel to a horizontal plane and parallel to a direction (a part of a conveyance direction) in which the sheet P conveyed by the conveyance unit 21 is conveyed through the position opposed to the heads 10, and the main scanning direction is a direction parallel to the horizontal plane and perpendicular to the sub-scanning direction.
The controller 1p also controls a maintenance operation (which will be described below) for the heads 10 and the conveyance belt 8. The maintenance operation includes: an ink ejection (a preliminary ejection) performed at a timing different from that of the recording; and a wiping for removing foreign matters (such as the ink and paper dust) from the face 8a of the conveyance belt 8. The maintenance operation will be explained in more detail.
In the space C, a cartridge unit 1c is disposed so as to be mountable on and removable from the casing 1a. The cartridge unit 1c includes a tray 35 and four cartridges 39 accommodated in the tray 35 side by side. The cartridges 39 respectively store the inks of four colors and respectively communicate with the heads 10 via tubes, not shown. The inks stored in the respective cartridges 39 are supplied to the respective heads 10 at appropriate timings.
There will be next explained the construction of each head 10 with reference to
The head 10 is a stacked body including: a reservoir unit, not shown; a channel unit 12; eight actuator units 17 fixed to an upper face 12x of the channel unit 12 (see
Projections and recesses are formed on and in a lower face of the reservoir unit. The projections are bonded to areas of the upper face 12x of the channel unit 12 on which the actuator units 17 are not disposed (i.e., areas including the openings 12y and enclosed by two-dot chain lines in
The channel unit 12 is a stacked body constituted by nine metal rectangular plates 12a-12i (see
As shown in
Each of the FPCs 19 has wirings respectively corresponding to electrodes of the actuator unit 17, and driver ICs, not shown, are mounted on the wirings. One end of the FPC 19 is fixed to the actuator unit 17, and the other end thereof is fixed to a control board, not shown, of the head 10 (which is disposed on an upper side of the reservoir unit). Under the control of the controller 1p (see
There will be next explained the structures of the conveyance belt 8 and the wiping unit 40 with reference to
As shown in
The conveyance belt 8 is manufactured by performing the following molding step and then performing a grinding step, for example.
One of various methods may be employed as the molding step. For example, the methods include (a) a method for molding a material of the conveyance belt 8 (e.g., a resin such as a rubber, a polyimide, and a polycarbonate) into a tubular shape using an annular die and an inner mandrel and cutting the molded material such that the material has a predetermined width, (b) a method for molding a flat sheet, then cutting the molded flat sheet such that the sheet has a predetermined length, and finally bonding opposite end portions of the cut sheet to each other, and (c) a method in which a prepolymer is infused into a circular die, then semi-cured, then removed from the die, and then cured by heating in a state in which the prepolymer is put on an iron core, for example. Normally, a surface of a belt molded in this manner (a precursor of the conveyance belt 8 (hereinafter may be referred to as “belt precursor”)) is not completely smooth or flat and has a large surface roughness. The large surface roughness deteriorates a conveyance accuracy, an image transferring accuracy, and an efficiency of removing the foreign matters by the wipers 41, 42. In order to solve this problem, a step for grinding the surface of the belt precursor is performed.
In the grinding step, the belt precursor is wound between and around two rollers, then tensioned by moving the rollers away from each other, and finally circulated in this state by rotating the rollers, for example. When the belt precursor is being circulated, the grindstone or the buff is brought into contact with an area (to be the second area 8a2) of the surface of the running belt precursor except an area thereof (to be the first area 8a1). As a result, grinding marks extending in a direction of the circulation are formed over the second area 8a2. Further, in the state in which the belt precursor is tensioned as described above and the roller is at rest, the grindstone or the buff is moved in a widthwise direction of the belt precursor while contacting the area (to be the first area 8a1) of the surface of the belt precursor. As a result, grinding marks extending in the widthwise direction of the belt precursor are formed over the first area 8a1.
Each of the first area 8a1 and the second area 8a2 of the grinded face 8a generally has a mirror surface (having a surface roughness Rz that is equal to or lower than 1.5μ, for example). It is noted that the first area 8a1 and the second area 8a2 have different surface roughnesses from each other, and thus the optical sensor 49 can sense the first area 8a1. The surface roughness can be adjusted by a type of the grindstone, a roughness of a grinding agent (abrasive) for the buff, and a pressure of the grindstone or the buff applied to the surface of the belt precursor, for example.
Each of the first wiper 41 and the second wiper 42 of the wiping unit 40 is a plate-like member formed of an elastic material such as a rubber. The first wiper 41 is elongated in the sub-scanning direction, and the second wiper 42 is elongated in the main scanning direction. The first wiper 41 is longer than the first area 8a1 in the sub-scanning direction, and the second wiper 42 is longer than the second area 8a2 in the main scanning direction. The controller 1p controls each of the wipers 41, 42 to be held in contact with the face 8a in the corresponding wiping and to be distant from the face 8a when the wiping is not performed.
Each of the wiper cleaners 44, 45 (see
Here, there will be explained a mechanism for supporting the wipers 41, 42 and the wiper cleaners 44, 45 with reference to
A basal end of the first wiper 41 (i.e., an end portion thereof opposite to the distal end thereof) is fixed to a supporter 41a. The supporter 41a is supported by a shaft 41x extending in the sub-scanning direction such that the supporter 41a is rotatable about the shaft 41x. A pair of sliders 41s are respectively provided on opposite ends of the shaft 41x. The sliders 41s are slidably supported on respective bars 41b each extending in the main scanning direction. To each of the sliders 41s is fixed a lower portion of a corresponding one of belts 41c. One of the belts 41c is wound around pulleys 41p1, 41p2, and the other of the belts 41c is wound around pulleys 41p3, 41p4. The pulleys 41p1, 41p3 are provided on opposite ends of a roller 41r. In addition to the pulley 41p1, a gear 41g1 rotatable integrally with the pulley 41p1 is provided on one of the opposite ends of the roller 41r. The gear 41g1 is connected to a motor 41M via a gear 41g2. When the pulley 41p1 is rotated by the motor 41M, the belts 41c are circulated. The sliders 41s are in turn slid along the bars 41b, whereby the supporter 41a is moved in the main scanning direction while supporting the first wiper 41. A plate 41d extending in the main scanning direction is disposed on a lower side of the supporter 41a. During the movement of the first wiper 41 in the main scanning direction, a lower end 41a1 of the supporter 41a is held in sliding contact with a face of the plate 41d. The face of the plate 414 is flat except opposite ends thereof in the main scanning direction. The plate 414 has: a step face 41d1 on one of the opposite ends thereof in the main scanning direction (i.e., an upstream end portion in a direction indicated by arrow in
A shaft 44x extending in the sub-scanning is inserted, or fitted in a center of the first wiper cleaner 44 so as to be fixed to the first wiper cleaner 44. A pulley 44p1 is provided on one end of the shaft 44x. A motor 44M and a pulley 44p2 fixed to an output shaft of the motor 44M are disposed on a lower side of the pulley 44p1. A belt 44b is wound around the pulleys 44p1, 44p2. When the pulley 44p2 is rotated by the motor 44M, the belt 44b is circulated, which rotates the pulley 44p1 with the shaft 44x. As a result, the first wiper cleaner 44 is rotated about the shaft 44x.
A basal end of the second wiper 42 (i.e., an end portion thereof opposite to the distal end thereof) is fixed to a shaft 42x. A worm wheel 42h is provided on one end of the shaft 42x. The worm wheel 42h is connected to a motor 42M via gears 42g1, 42g2, 42g3. The gears 42g3, 42g2, 42g1 are rotated by the motor 42M, which rotates the worm wheel 42h with the shaft 42x. This changes an angle of the second wiper 42 with respect to the face 8a.
A shaft 45x extending in the main scanning direction is inserted or fitted in a center of the second wiper cleaner 45 so as to be fixed to the second wiper cleaner 45. A pulley 45p1 is provided on one end of the shaft 45x. A motor 45M and a pulley 45p2 fixed to an output shaft of the motor 45M are disposed at positions distant from the pulley 45p1 in the sub-scanning direction. A belt 45b is wound around the pulleys 45p1, 45p2. When the pulley 45p2 is rotated by the motor 45M, the belt 45b is circulated, which rotates the pulley 45p1 with the shaft 45x. As a result, the second wiper cleaner 45 is rotated about the shaft 45x.
There will be explained operations of the wipers 41, 42. The first wiper 41 wipes the first area 8a1, and the second wiper 42 wipes the second area 8a2.
When the wiping is not performed, the first wiper 41 is positioned at the home position (that is the position located on one side of the conveyance belt 8 in its widthwise direction in
When the wiping is not performed, the second wiper 42 is held at a position distant from the conveyance belt 8. During the wiping, the second wiper 42 is slightly pivoted or rotated about the shaft 42x, whereby the distal end thereof is held at a position at which the distal end contacts the second area 8a2 while being deformed. In this position, the second wiper 42 is held in contact with an entire width of the second area 8a2 and inclined with respect to the face 8a as seen in the main scanning direction such that a lower portion of the second wiper 42 is located on a downstream side (on a right side in
The foreign matters removed by the wipings of the wipers 41, 42 are received by respective receiving trays, not shown, located below the respective wipers 41, 42.
The wipers 41, 42 and components for supporting the wiper cleaners 44, 45 (such as the bars 41b and the shafts 42; 44x, 45x) are supported by a frame 50 movable upward and downward relative to the casing 1a. Teeth 50t meshable with teeth of a gear 50g are formed on an end face of a one-side face of the frame 50. When the gear 50g is rotated forwardly or reversely by a motor 50M, the frame 50 is moved upward or downward in the vertical direction. As a result, the wipers 41, 42 and the wiper cleaners 44, 45 are moved upward and downward in the vertical direction while being supported by the bars 41b and the shafts 42x, 44x, 45x.
There will be next explained an electric configuration of the printer 1 with reference to
As shown in
The controller 1p is connected to the motors 121, 125, 127, 41M, 42M, 44M, 45M, 50M, the sensors 32, 49, a sensor 121S, the control boards of the respective heads 10, and so on. It is noted that the sensor 121S is a sensor that detects a rotational amount of the conveyance motor 121 and detects a moving (circulating) amount of the conveyance belt 8 (i.e., the conveyance amount of the conveyance belt 8 by the conveyance motor 121) on the basis of the detected rotational amount of the conveyance motor 121. The sensor 121S is disposed near a rotational portion of the conveyance motor 121. It is noted that, in addition to or instead of the sensor 121S, a sensor capable of directly detecting the moving amount of the conveyance belt 8 may be disposed near the conveyance belt 8 to detect the moving amount of the conveyance belt 8.
There will be next explained processings for the maintenance operation executed by the controller 1p with reference to
In S1, the controller 1p judges whether the controller 1p has received a maintenance command or not. The controller 1p receives the maintenance command in the following cases: (i) after the printer 1 is turned on; (ii) when a jamming of the sheet P occurs in the sheet conveyance path in the casing 1a; (iii) after the recording is completed on a predetermined number of the sheets P in successive recording and before the recording starts to be performed on the next sheet P; (iv) when no recording command has not been received for equal to or longer than a predetermined length of time after the recording has been completed on the basis of the recording command; and the like.
When the controller 1p has received the maintenance command (S1: YES), the controller 1p in S2 controls the components of the printer 1 to perform the preliminary ejection. The preliminary ejection is ejection of the ink from the head 10 onto the first area 8a1 of the face 8a of the conveyance belt 8, and the preliminary ejection includes purging (that is an operation for driving a pump so as to apply a pressure to the ink in the head 10 to eject the ink from the ejection openings 14a) and flushing (that is an operation for driving the actuators of the head 10 on the basis of flushing data (different from the image data) to eject the ink from the ejection openings 14a). It is noted that the preliminary ejection is the ejection that is not based on the image data for recording the image on the sheet P and that is the ejection performed preliminarily for the ejection onto the sheet P on the basis of the image data. The preliminary ejection is performed prior to the ejection onto the sheet P on the basis of the image data or during intervals between the plurality of the ejections onto the sheets P on the basis of the image data. Whether the head 10 performs the purging or the flushing in S2 is determined depending upon a situation. For example, the purging is performed in the above-described cases (i), (ii), and (iv), and the flushing is performed in the above-described case (iii). In this operation, the controller 1p controls the conveyance motor 121 to circulate the conveyance belt 8 and detects or senses the first area 8a1 on the basis of the signal transmitted from the sensor 49 to stop the conveyance belt 8 at a timing when the first area 8a1 faces the ejection face 10a. The controller 1p then drives the pump or the actuators to eject the ink from the head 10 onto the first area 8a1. The controller 1p executes these controls for each head 10.
After S2, the controller 1p in S3 performs the wiper cleaning for cleaning the distal end of the second wiper 42. In this cleaning, the controller 1p drives the motor 42M in a state in which the conveyance belt 8 is stopped, and then rotates the second wiper 42 by 360 degrees about the shaft 42x in the clockwise direction in
After S3, the controller 1p in S4 controls the components of the printer 1 to perform the wiping of the second wiper 42. In this operation, the controller 1p controls the conveyance motor 121 to circulate the conveyance belt 8 and detects or senses the first area 8a1 on the basis of the signal transmitted from the sensor 49. The controller 1p then stops the conveyance belt 8 at a timing when a downstream portion X (see
In S4, the controller 1p determines a release position (a position on the portion Y) at which the second wiper 42 is released from the face 8a at a timing when the wiping of the second wiper 42 is completed, on the basis of an amount of the foreign matters held on the second wiper 42 at the timing when the wiping of the second wiper 42 is completed. For example, the larger the amount of the foreign matters held on the second wiper at the completion of the wiping of the second wiper 42, the nearer to the upstream side in the relative-movement direction the above-described release position is determined in the portion Y. Specifically, the controller 1p estimates the amount of the foreign matters held on the second wiper 42 at the timing of the completion of the wiping of the second wiper 42, on the basis of an amount of the ink attached on the face 8a, in other words, an amount of the ink ejected from the head 10. That is, where the purging is performed in S2, the controller 1p judges that the amount of the foreign matters held on the second wiper 42 at the timing of the completion of the wiping of the second wiper 42 is large. On the other hand, where the flushing is performed in S2, the controller 1p judges that the amount of the foreign matters held on the second wiper 42 at the timing of the completion of the wiping of the second wiper 42 is small. In the present embodiment, the release position of the second wiper 42 released from the face 8a at the timing of the completion of the wiping of the second wiper 42 is located nearer to the upstream side in the portion Y in the relative-movement direction where the purging is performed in S2 than where the flushing is performed in S2.
Since the contact position at which the second wiper 42 contacts the face 8a at the start of S4 is on the portion X, and the release position at which the second wiper 42 is released from the face 8a at the end of S4 is on the portion Y, the second wiper 42 wipes the entire second area 8a2 and a portion of the first area 8a1. Here, the controller 1p controls the second wiper 42 to make a pressure of the second wiper 42 onto the face 8a smaller in a situation where the second wiper 42 contacts the first area 8a1 than in a situation where the second wiper 42 contacts the second area 8a2. The pressure per a unit area is calculated by an expression “Q/S” (the sign “Q” represents a force applied to a portion of the face 8a which is contacted by the second wiper 42, the sign “S” represents an area of the portion of the face 8a which is contacted by the second wiper 42, and calculated by an expression “l*d”, the sign “l” represents a length of the portion of the face 8a which is contacted by the second wiper 42 in the widthwise direction of the conveyance belt 8 (i.e., the width, of the conveyance belt 8 in the present embodiment), and the sign “d” represents a length of the portion of the face 8a which is contacted by the second wiper 42 in the circumferential direction of the conveyance belt 8 (i.e., a length of a deformed portion of the distal end of the second wiper 42)). In the present embodiment, the angle of the second wiper 42 with respect to the face 8a is adjusted by the control of the motor 42M. For example, as shown in
After S4, the controller 1p in S5 controls the components of the printer 1 to perform the wiping of the first wiper 41. In this wiping, the controller 1p controls the conveyance motor 121 to circulate the conveyance belt 8 and then to stop the conveyance belt 8 at a timing when the entire first area 8a1 reaches the wiping area of the first wiper 41 (that is, when the state shown in
After S5, the controller 1p finishes the control for the maintenance operation.
It is noted that the controller 1p drives the motors 44M, 45M to rotate the wiper cleaners 44, 45 by a predetermined angle smaller than 360 degrees each time when one or a plurality of times of the wiper cleanings for the wiper cleaners 44, 45 is or are finished. As a result, portions of the wiper cleaners 44, 45 which are contacted by the distal ends of the respective wipers 41, 42 during the wiper cleaning are changed, making it possible to effectively remove the foreign matters attached on the distal ends of the respective wipers 41, 42.
As described above, in the printer 1 and the conveyance belt 8 as the present embodiment, the grinding marks 8b1 (see
It is noted that, where the entire face 8a of the conveyance belt 8 is set as the first area 8a1 (i.e., the area in which the grinding marks 8b1 extending in the widthwise direction of the conveyance belt 8 are formed), a work for the grinding step may be complicated, which may cause a higher manufacturing cost. However, in the present embodiment, a part of the face 8a of the conveyance belt 8 is set as the first area 8a1, making it possible to perform the good wiping while suppressing the complication of the grinding step.
Further, in the present embodiment, as shown in
As shown in
The grinding marks 8b2 extending in the circumferential direction of the conveyance belt 8 are formed in the second area 8a2 that is the area of the face 8a of the conveyance belt 8 except the first area 8a1. The printer 1 includes the second wiper 42 that is moved relative to the face 8a in the circumferential direction of the conveyance belt 8. As a result, the face 8a of the conveyance belt 8 can be cleaned by performing the wiping of the second area 8a2 by the second wiper 42 in addition to the wiping of the first area 8a1 by the first wiper 41.
As shown in
The controller 1p controls the second wiper 42 such that, at the completion of the wiping in S4 by the second wiper 42, the second wiper 42 is released from the face 8a at the portion Y in
The controller 1p determines the release position at which the second wiper 42 is released from the face 8a at the timing when the wiping of the second wiper 42 in S4 is completed, on the basis of the amount of the foreign matters held on the second wiper 42 at the timing when the wiping of the second wiper 42 is completed. From the viewpoint of preventing that the foreign matters held on the second wiper 42 at the completion of the wiping of the second wiper 42 are moved to the outside of the first area 8a1, the above-described foreign matters are preferably left on the center O of the first area 8a1 in the circumferential direction of the conveyance belt 8 at the completion of the wiping of the second wiper 42. The foreign matters held on the second wiper 42 are located on a downstream side of the second wiper 42 in the relative-movement direction. Thus, for example, the larger the amount of the foreign matters held on the second wiper 42 at the completion of the wiping of the second wiper 42, the nearer to the upstream side in the relative-movement direction the release position is set on the first area 8a1 (on an upstream side of the center O of the first area 8a1 in the relative-movement direction). As a result, it is possible to reliably prevent that the foreign matters held on the second wiper 42 at the completion of the wiping of the second wiper 42 are moved to the outside of the first area 8a1.
The controller 1p controls the second wiper 42 and the conveyance belt 8 such that the wiper 42 is brought into contact with the face 8a on a downstream side of the center O of the first area 8a1 in the relative-movement direction (at the portion X in
The controller 1p controls the second wiper 42 to make the pressure of the second wiper 42 onto the face 8a smaller in the situation where the second wiper 42 contacts the first area 8a1 than in the situation where the second wiper 42 contacts the second area 8a2. As a result, the foreign matters on the second area 8a2 can be reliably removed in the wiping in S4 by the second wiper 42, and the amount of the foreign matters entering into the grinding marks 8b1 in the first area 8a1 can be reduced.
The first area 8a1 and the second area 8a2 have the different surface roughnesses from each other, and the sensor 49 senses the first area 8a1 on the basis of the surface roughnesses. That is, where the first area 8a1 and the second area 8a2 have the different surface roughnesses from each other, the first area 8a1 and the second area 8a2 have different reflectivities from each other. The sensor 49 senses the first area 8a1 on the basis of a difference of the reflectivities due to the difference of the surface roughnesses of the first area 8a1 and the second area 8a2. This simple structure makes it possible to sense the first area 8a1 and perform accurate wiping.
While the embodiment of the present invention has been described above, it is to be understood that the invention is not limited to the details of the illustrated embodiment, but may be embodied with various changes and modifications, which may occur to those skilled in the art, without departing from the spirit and scope of the invention.
The conveyance member is not limited to the conveyance belt and may be a rotational drum, for example. The conveyance member does not need to be seamless as long as the conveyance member has the annular shape. The material forming the conveyance member is not limited in particular.
The direction in which the grinding marks formed in the first area extend is not limited to the direction perpendicular to the circumferential direction of the conveyance member as long as the direction in which the grinding marks formed in the first area extend coincides with the direction in which the first wiper is moved relative to the surface of the conveyance member. The direction in which the grinding marks formed in the second area extend is not limited in particular. Further, the grinding marks may not be formed in the second area. The first area and the second area may have the same surface roughness (in this case, the first area may be sensed on the basis of a hole formed in the conveyance member or a reflector plate mounted on the face of the conveyance member, for example). The sensor for sensing the first area is not limited to the optical sensor and may be a magnetic sensor, for example. The first area may have any length in the circumferential direction and in the widthwise direction of the conveyance member and may have any shape instead of the rectangular shape. It is noted that, the relationship between the lengths of the first area and the first wiper in the circumferential direction may be a relationship explained below. In the above-described embodiment, the length of the first wiper in the circumferential direction is larger than the length of the first area in the circumferential direction, but the present invention is not limited to this relationship. For example, the length of the first wiper in the circumferential direction may be smaller than the length of the first area in the circumferential direction. That is, the first wiper is configured so as to wipe at least a part of the first area (i.e., a part or an entire area of the first area), making it possible for the first wiper to remove the foreign matters collected by the second wiper into an area in the first area to be wiped by the first wiper. Further, in the above-described embodiment, the first area is formed so as to expand from the one end to the other end of the conveyance belt in its widthwise direction (i.e., in the main scanning direction) but may be formed so as to expand from a vicinity of the one end of the conveyance belt to a vicinity of the other end thereof in the widthwise direction of the conveyance belt.
Each of the first and the second wipers is not limited to have the plate shape as long as each wiper can wipe the face of the conveyance member by moving relative to the face while contacting the face, and each wiper may have any shape (e.g., a circular cylinder roller may be employed). The material forming the first and second wipers is not limited in particular. The direction in which the first wiper is moved relative to the face of the conveyance member may be any direction as long as the direction is an intersecting direction intersecting the circumferential direction of the conveyance member, and may not be the direction perpendicular to the circumferential direction of the conveyance member. The first wiper may have any length in a direction perpendicular to the intersecting direction and parallel to the first area (for example, the first wiper may be shorter than the first area). Further, the second wiper may be omitted.
After the preliminary ejection, only the wiping of the first wiper may be performed without the wiping of the second wiper. Further, in the above-described embodiment, the wiping is performed after the preliminary ejection (see
In the wiping of each wiper, the wiper and the face of the conveyance member only need to move relatively to each other. That is, the face of the conveyance member may be moved in a state in which the wiper is at rest, and the wiper may be moved in a state in which the face of the conveyance member is at rest, and both of the wiper and the face of the conveyance member may be moved.
The contact position at which the second wiper contacts the face of the conveyance member at the start of the wiping of the second wiper and the release position at which the second wiper is released from the face of the conveyance member at the end of the wiping of the second wiper are not limited in particular (for example, each of the positions may be any position in the first area and may be any position in the second area). Further, the release position may not be determined on the basis of the amount of the foreign matters held on the second wiper at the completion of the wiping of the second wiper. Further, the wiping of the first area may be performed by the second wiper (for example, the conveyance member may be circulated by more than one circulation after the second wiper is brought into contact with the face of the conveyance member). Further, the pressure of the second wiper on the face of the conveyance member can be adjusted by a height of the second wiper in addition to the angle of the second wiper with respect to the face of the conveyance member. For example, the height of the second wiper may be changed or adjusted such that the amount of the deformation of the distal end of the second wiper is smaller (the above-described pressure is smaller) in a situation where the second wiper contacts the first area than in a situation where the second wiper contacts the second area. Further, such an adjustment of the pressure may not be performed.
The wiper cleaner may be a rotatable brush instead of the sponge, for example. Further, the wiper cleaner and the wiper cleaning using this may be omitted.
The present invention is applicable to any of a line printer and a serial printer. Further, the present invention is applicable to not only the printer but also another liquid ejection apparatus such as a facsimile machine and a copying machine. The present invention is also applicable to a recording apparatus configured to record an image by ejecting liquid other than the ink and is also applicable to a recording apparatus of a thermal type, a laser type, or the like.
The recording medium is not limited to the sheet P and may be various recording media.
Number | Date | Country | Kind |
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2010-292506 | Dec 2010 | JP | national |
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20120162313 A1 | Jun 2012 | US |