This patent application is based on and claims priority pursuant to 35 U.S.C. §119 to Japanese Patent Application No. 2012-000373, filed on Jan. 5, 2012, in the Japan Patent Office, the entire disclosure of which is hereby incorporated by reference herein.
1. Technical Field
This disclosure relates to an image forming apparatus, and more specifically to an image forming apparatus including a moving assembly of a recording head having droplet ejection nozzles and a maintenance device.
2. Description of the Related Art
Image forming apparatuses are used as printers, facsimile machines, copiers, plotters, or multi-functional devices having two or more of the foregoing capabilities. Such image forming apparatuses may use a droplet ejection device having a recording head (droplet ejection head) to eject droplets of ink or other liquid.
Such a droplet-ejection type of image forming apparatus typically, while conveying a recording medium (e.g., a recording sheet of paper), ejects liquid droplets from a recording head and attaches or penetrates the droplets on the recording medium for image formation. The recording medium (target) is not limited to the above-described recording sheet of paper but is made of string, fiber, leather, metal, resin, glass, timber, ceramic, or any other material on which liquid is attachable or penetrable.
The droplet ejection device performs maintenance and recovery operation (hereinafter, maintenance operation) to prevent faulty ejection of liquid from nozzles of the recording head. The maintenance operation is a process of preventing an increase in the viscosity of ink or other liquid due to natural drying and removing viscosity-increased and firmly adhered liquid by sucking operation to maintain and recover performance of the recording head, and a maintenance and recovery device (hereinafter, maintenance device) is used to perform the maintenance operation.
The maintenance device includes a cap member to seal a nozzle face of the recording head to maintain a humid state, a wiper member to wipe the nozzle face, and a suction pump connected to the cap member. The maintenance device performs cleaning operation to create a negative pressure by the suction pump with the nozzle face sealed with the cap member to forcefully discharge bubbles or viscosity-increased liquid from nozzles of the recording head.
During not only the maintenance operation but also a standby period of the recording head, the cap member seals the nozzle face of the recording head to maintain a humid state of the nozzles, thus minimizing drying of liquid and an increase in the viscosity of liquid.
As a configuration of the maintenance device, for example, JP-2007-223227-A proposes to provide cap and other members detachably attachable relative to nozzle faces of recording heads. For example, in a case in which liquid droplets are ejected from the recording heads in a vertical direction, the cap members are elevated up and down relative to the nozzle faces of the recording heads facing down. For such a configuration, an elevation start position of a cam of an elevation driving unit is set by determining a rotation start position, i.e., a home position of a cam shaft so that a rising stroke for appropriate contact between a nozzle face of a recording head and the cap and other members can be obtained when the cam is raised from the elevation start position.
In addition, as a configuration of defining an opposing position at which, when raised, a cap member opposes a nozzle face of a recording head, for example, JP-4233984-B (JP-2005-144912-A) proposes to engage an engagement claw of a cap member with an engagement portion of a nozzle face of a recording head to define the opposing position.
If cap and other members oppose a nozzle face of a recording head at a position differing from a predetermined opposing position and are raised in response to a rotation of a cam shaft to detect a home position of the cam shaft, a portion of the cap and other members might contact the nozzle face of the recording head. In particular, if a carriage mounting the recording head is moved when the cap and other members are not placed at a predetermined position, for example, an engagement claw of the cap member might contact the nozzle face of the recording head, thus damaging nozzles or menisci of nozzles.
In an aspect of this disclosure, there is provided an image forming apparatus including a plurality of recording heads, a maintenance device, a carriage, a plurality of cap members, a plurality of cams, a cam shaft, a feeler member, a home position detection device, and a cap position determination device. The plurality of recording heads has a plurality of nozzle rows to eject liquid droplets and a plurality of nozzle faces provided with the plurality of nozzle rows. The maintenance device maintains and recovers an ejection performance of the plurality of recording heads. The carriage mounts the plurality of recording heads and is movable for scanning in a first direction. At least one of the plurality of nozzle rows of the plurality of recording heads is offset from at least another of the plurality of nozzle rows in a second direction perpendicular to the first direction. The plurality of cap members caps the plurality of nozzle faces. At least one of the plurality of cap members is a suction cap reciprocally movable in the second direction to cap each of the plurality of nozzle faces to suck liquid from the plurality of nozzle rows. The plurality of cams raises and lowers the plurality of cap members. The cam shaft is mounted with the plurality of cams to rotate the plurality of cams. The feeler member of a semicircular shape is mounted on the cam shaft to rotate with the cam shaft. The home position detection device detects the feeler member to detect a home position of the cam shaft. The cap position determination device determines whether the plurality of cap members is at a raised position or a lowered position. The feeler member has a first portion to detect the home position of the cam shaft with the home position detection device and a second portion to determine with the cap position determination device whether the plurality of cap members is at the raised position or the lowered position. When the cap position determination device determines that the suction cap is at the raised position, the suction cap is lowered to the lowered position before the carriage mounting the plurality of recording heads moves for scanning in the first direction. When the cap position determination device determines that the suction cap is at the lowered position, the carriage is permitted to move to a print start position.
The aforementioned and other aspects, features, and advantages of the present disclosure would be better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
In describing embodiments illustrated in the drawings, specific terminology is employed for the sake of clarity. However, the disclosure of this patent specification is not intended to be limited to the specific terminology so selected and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner and achieve similar results.
For example, in this disclosure, the term “sheet” used herein is not limited to a sheet of paper and includes anything such as OHP (overhead projector) sheet, cloth sheet, glass sheet, or substrate on which ink or other liquid droplets can be attached.
The term “ink” is not limited to “ink” in a narrow sense, unless specified, but is used as a generic term for any types of liquid useable as targets of image formation. For example, the term “ink” includes recording liquid, fixing solution, DNA sample, resist, pattern material, resin, and so on.
Although the exemplary embodiments are described with technical limitations with reference to the attached drawings, such description is not intended to limit the scope of the invention and all of the components or elements described in the exemplary embodiments of this disclosure are not necessarily indispensable to the present invention.
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, exemplary embodiments of the present disclosure are described below.
The image forming apparatus 1000 illustrated in
In the printing unit 1000A illustrated in
The carriage 33 mounts recording heads 34a, 34b, 34c, and 34d (hereinafter, collectively referred to as “recording heads 34” unless distinguished) in which nozzle rows are arranged as illustrated in
In such a case, at least one recording head (e.g., the recording heads 34a and 34b in
For the arrangement of nozzle rows illustrated in
It is to be noted that the nozzle rows may be allocated to the respective recording heads 34 in a different manner. For example, the nozzle rows may be arranged in the recording heads 34 according to a color arrangement differing from the above-described color arrangement. In a case in which, as illustrated in
As illustrated in
The maintenance device 81 has cap members to retain moisture of nozzles, and at least one of the cap members sucks ink from nozzle rows. For example, in
The maintenance device 81 also has a cap holder 201A, a cap holder 201B, a wiper blade 83, a blade holder 203, a dummy ejection receptacle 84, and a wiper cleaner 85. The cap holder 201A includes a holding mechanism to hold the suction cap member 82a, and the cap holder 201B includes a holding mechanism to hold the moisture-retention cap member 82b. The wiper blade 83 is a blade member formed of an elastic body to clean (wipe) the nozzle faces of the recording heads 34 and is held by the blade holder 203. The dummy ejection receptacle 84 receives droplets ejected by dummy ejection (preliminary ejection) in which droplets not contributing to printing are ejected. The wiper cleaner 85 illustrated in
As illustrated in
In
For the maintenance device 81, when the motor 221 rotates in a forward direction (forward rotation), the motor gear 222, the pump gear 223, the intermediate gear 224, and the intermediate gears 235 and 236 rotate. Then, the pump shaft 211a of the tubing pump 211 rotates to activate the tubing pump 211, thus sucking the inside of the suction cap member 82a (this operation is referred to as “cap inside suction” or “head suction”). Since the rotation is blocked by the one-way clutch 237, the intermediate gear 228 or subsequent transmission members are not rotated (activated).
When the motor 221 rotates in a reverse direction (reverse rotation), the one-way clutch 237 is jointed and the rotation of the motor 221 is transmitted to the cam gear 230 via the motor gear 222, the pump gear 223, the intermediate gear 224, the intermediate gears 235, 236, 228, 229, thus rotating the cam shaft 213. At this time, the tubing pump 211 is not activated by reverse rotation of the pump shaft 211a.
Rotation of the cam shaft 213 raises and lowers the cap cams 214A and 214B and the wiper cam 215 at certain timings.
For example, when cleaning is performed on the recording heads 34a, 34b, 34c, and 34d (See
When the cap holders 201A and 201B are raised, the suction cap member 82a and the wiper blade 83 oppose the nozzle faces of the recording heads 34 at predetermined positions. The predetermined positions are defined by a positioning assembly illustrated in
Ahead of a description of the positioning assembly, an elevating assembly of the cap holder 201A is described with reference to
At the part of the cap holder 201A forming a portion of the positioning assembly, a cap holder assembly 112A serving as a cap holding assembly is provided with the cap holder 201A, springs SP1 and SP1′, and a slider SD. The cap holder 201A holds the suction cap member 82a so that the suction cap member 82a can elevate up and down. The springs SP1 and SP1′ are disposed between a bottom face of the cap holder 201A and a bottom portion of the suction cap member 82a to urge the suction cap member 82a upward. The slider SD holds the cap holder 201A so that the cap holder 201A is movable along a direction in which the cap holder 201A is elevated up or down.
The suction cap member 82a has guide pins 82a1 at its opposed ends, and the guide pins 82a1 are inserted to guide grooves of the cap holder 201A so as to be movable upward and downward along the guide grooves. The suction cap member 82a also has a guide shaft 82a2 at its bottom face, and the guide shaft 82a2 is inserted through the cap holder 201A so as to be movable upward and downward. Thus, the suction cap member 82a is mounted so as to be able to move upward and downward relative to the cap holder 201A. The spring SP1 disposed between the suction cap member 82a and the cap holder 201A urges the suction cap member 82a upward, i.e., in a direction to push a nozzle face of a recording head in capping operation.
The slider SD has guide pins SD1 and SD2 at front and rear ends. The guide pins SD1 and SD2 slidably engage guide grooves F1 of a frame F. Thus, the slider SD, the cap holder 201A, and the suction cap member 82a can entirely move upward and downward in
The slider SD has a cam pin SD3 at a lower face, and the cam pin SD3 engages a cam groove 214A1 of a cap cam 214A. When the rotation of the motor 221 is transmitted to the cam shaft 213 as described above, the cap cam 214A rotates with rotation of the cam shaft 213, thus causing the slider SD, the cap holder 201A, and the suction cap member 82a to move upward and downward in
For such a configuration, engagement hooks 201A1 are used as members of the positioning assembly defining the positions at which the suction cap member 82a opposes a nozzle face of a recording head 34. In
As illustrated in
In this exemplary embodiment, nozzle rows of at least one recording head 34 (e.g., the recording head 34a in
As illustrated in
For the sliding operation in the sub-scanning direction and the cap elevating operation, rotational motion is converted to linear motion by eccentric cams 110a and 110b and arms 111a and 111b. Thus, when maintenance operation is performed on the recording heads 34, the carriage 33 is moved in the main scanning direction to a position at which a target one of recording heads 34 can be capped with the suction cap member 82a. In addition, the frame 212 of the maintenance device 81 is moved in the sub-scanning direction to a position at which the suction cap member 82a can cap the target one of the recording heads 34.
Next, features of this exemplary embodiment are further described below taking the example of the inkjet recording apparatus used as the image forming apparatus having the above-described configuration.
One feature of this exemplary embodiment is that, in a feeler member serving as a portion of a cam-shaft home-position detection device to detect a home-position of the cam shaft 213 of the maintenance device 81, a cam-shaft home-position detection portion is continuously provided with a cap-position detection portion to detect a position of a cap member 82. Such a configuration allows an elevation state of the cap member 82 to be detected by a member used for detecting the home position of the cam shaft 213. In other words, such a configuration allows detection of an elevation position of the cap member 82 during one rotation of the cam shaft 213.
In this exemplary embodiment, a cap-position detecting sensor serving as a cap-position determination device to detect an elevation position of the cap member 82 is not provided as an independent sensor. The cam-shaft home-position detecting sensor 242 to detect the home position of the cam shaft 213 also serves as the cap-position detecting sensor. It is to be noted that the term “cam-shaft home-position detecting sensor 242” used herein includes both the cam-shaft home-position detecting sensor and the cap-position detecting sensor.
As illustrated in
For such a cam profile, in
In
In this exemplary embodiment, movement of the recording head 34, i.e., the carriage 33 and elevating operation of the maintenance device 81 are set in response to detection signals from the cam-shaft home-position detecting sensor 242.
The procedure of
In
By contrast, when the controller determines that the cap member 82 is at a raised position (No at S2 and YES at S4), at 55 the maintenance device 81 is lowered to lower the cap member 82 from the raised position to the lowered position before the recording head 34 is moved for scanning by the carriage 33. When the cap member 82 is lowered by the lowering operation of the maintenance device 81, the cap member 82 is placed at the lowered position at which the cap member 82 does not conflict the nozzle faces of the recording heads 34 on the carriage 33.
At S6, the controller determines whether or not the lowering of the cap member 82 is finished based on a change in output signal caused in response to an opposing state of the feeler member 241′ and the cam-shaft home-position detecting sensor 242. When the controller determines that the lowering of the cap member 82 is finished (YES at S6), the process goes to S3 and at S3 the controller permits the carriage 33 to move for scanning to the original position. When the position of the cap member 82 is not determined at S2 and S4, at S7 the controller outputs an error signal to alert a user of an error.
This procedure presupposes that a sensor is provided to detect an original position (sliding original position) of the frame 212 of the maintenance device 81 in a sliding direction at which, e.g., the cap member 82a opposes the recording head 34a in
Such a configuration can prevent conflict of the cap member 82a with the recording heads 34b, 34c, and 34d (indicated by a star-like solid mark G1 in
Such a configuration can also prevent conflict of the cap member 82a with the recording heads 34b, 34c, and 34d (indicated by a star-like solid mark G2 in
According to the above-described procedure, the movement of the carriage 33 to return to the original position is performed as a precondition that the cap member 82a is lowered. Such a configuration prevents careless rotation of the cam shaft 213 when the home position of the cam shaft 213 cannot be detected, thus preventing conflict of the cap member 82a with the nozzle faces of the recording heads 34.
The image forming apparatus having the above-described configuration in this exemplary embodiment can detect both the home position of the cam shaft 213 and the position of the cap member 82 during one rotation of the cam shaft 213 by the feeler member 241′ of the maintenance device 81. For the detection of an elevation position of the cap member, a configuration of a comparative example is illustrated in
In
For the comparative example of
Such a configuration requires the cam-shaft home-position detection device and the cap position detection device separately, thus increasing the number of components and a setting space.
In addition, since detection of a home position of the cam shaft C is determined by a signal line output from a position differing from detection of an elevation position of the cap member A, for example, the cam shaft C might be rotated in a state in which the elevation position of the cap member A is not detected. In such a case, the cap member A might conflict a nozzle face of a recording head when a carriage returns to a scanning start position (original position) after a sheet jam is removed.
By contrast, in this exemplary embodiment, the circumferential length of the feeler member 241′ has a portion (L1A in
Such a configuration also allows detection signals to be output from a single signal line instead of multiple signal lines. As a result, such a configuration prevents a failure in which detection signals cannot be obtained from one of multiple signal lines, thus preventing a cap member 82 from conflicting nozzle faces of recording heads 34 when the carriage 33 starts to move to the original position with the cap member 82 not lowered.
Numerous additional modifications and variations are possible in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims, the present disclosure may he practiced otherwise than as specifically described herein. With some embodiments having thus been described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the scope of the present disclosure and appended claims, and all such modifications are intended to be included within the scope of the present disclosure and appended claims.
Number | Date | Country | Kind |
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2012-000373 | Jan 2012 | JP | national |