1. Field of the Invention
The present invention relates to an inkjet recording apparatus causing a recording head to discharge ink to a recording material to execute recording, and relates to a method for cleaning a carriage in the inkjet recording apparatus.
2. Description of the Related Art
To obtain clear and high-quality recording results from an inkjet recording apparatus, it is important to decrease the distance between a recording material and a recording head. However, if the distance between the recording material and the recording head is decreased, for example, when a paper jam is caused and the recording material contacts the recording head, the recording head may be damaged. To respond to the problem, some inkjet recording apparatuses include head protection members for protecting ends of the recording head. The head protection members are arranged near both sides of the recording head in the main-scanning direction of the carriage including the recording head.
However, in recent years, inkjet recording apparatuses have been faced with a problem, with a decrease in the size of each ink droplet discharged to the recording material and with an increase in the density of discharge ports. More specifically, when ink is discharged, instead of reaching the recording material, a generated ink mist floats inside the recording apparatus and soils the inside of the recording apparatus. In addition, the ink mist soils the head protection members, which soil the recording material.
Japanese Patent Application Laid-Open No. 2006-192698 discusses a technique for cleaning the head protection members of a carriage. According to the technique, a wiper unit cleans a face surface of the recording head. However, the configuration discussed in Japanese Patent Application Laid-Open No. 2006-192698 involves the following problems. Generally, a wiper member for cleaning a face surface of a recording head is arranged outside the recording material conveyance area in a main-scanning direction (the width direction of the apparatus body). Thus, when the carriage is moved from inside the recording material conveyance area to a position where the carriage faces the wiper member, a positional relationship among the face surface of the recording head, the head protection members, and the wiper member changes as follows.
When the carriage is moved in the main-scanning direction, first, one of the head protection members that is closer to the wiper member faces the wiper member. When the carriage is moved further, the face surface of the recording head faces the wiper member. When the carriage is moved yet further, the head protection member that is further from the wiper member faces the wiper member. Thus, to clean the head protection member that is further from the wiper member, the carriage needs to be moved further than the recording head face surface cleaning position in the width direction of the apparatus body. As a result, the size of the recording apparatus body is increased in the width direction.
In addition, according to the configuration discussed in Japanese Patent Application Laid-Open No. 2006-192698, since the wiper member cleans the face surface of the recording head and the head protection members, durability including the performance for cleaning the head protection members needs to be assured.
The present invention is directed to a method for cleaning a carriage, in which ink attached to head protection members of the carriage can be wiped, without causing an increase in size of an apparatus body in the width direction and without damaging a face surface of a recording head.
According to an aspect of the present invention, an inkjet recording apparatus includes a recording head configured to discharge ink to execute recording on a sheet, a conveyance unit configured to convey the sheet, a carriage configured to mount the recording head thereon and to move in a main-scanning direction which is crossing to a sheet conveyance direction, a height change mechanism configured to move the carriage in a height direction, and a control unit configured to control the conveyance unit, the carriage, and the height change mechanism, wherein the control unit moves the carriage in the main-scanning direction to the outside of a sheet conveyance area of the conveyance unit, conveys a cleaning sheet, to which a fold is previously given, to a recording position, causes the height change mechanism to move the carriage to a first height position, moves the carriage to the inside of the sheet conveyance area, causes the height change mechanism to move the carriage to a second height position which is lower than the first height position, and causes the conveyance unit to convey the cleaning sheet.
Further features and aspects of the present invention will become apparent from the following detailed description of exemplary embodiments with reference to the attached drawings.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments, features, and aspects of the invention and, together with the description, serve to explain the principles of the invention.
Various exemplary embodiments, features, and aspects of the invention will be described in detail below with reference to the drawings.
Hereinafter, a first exemplary embodiment of the present invention will be described in detail with reference to the drawings.
First, a schematic configuration of the feeding unit 2 will be described. As illustrated in
Next, a schematic configuration of the conveyance unit 3 will be described with reference to
Next, a schematic configuration of the carriage unit 4 will be described with reference to
Next, a schematic configuration of the cleaning unit 5 will be described with reference to
Next, the carriage height change mechanism 6 will be described with reference to
As illustrated in
Next, a configuration of a control system will be described with reference to
The control system includes a main control substrate 41, an operation unit substrate 42, a carriage substrate 28, and a power supply unit 43. The operation unit substrate 42 is arranged on the exterior of the apparatus body (not illustrated) and includes a switch and a light-emitting diode (LED) connected to a display unit and an operation button. In addition, as described above, the carriage substrate 28 is attached to the carriage 23 and controls an ink droplet discharge operation of the recording head 22, based on a command from the main control substrate 41. In addition, as described above, the carriage sensor 29 is mounted on the carriage substrate 28.
The main control substrate 41 includes an application specific integrated circuit (ASIC) 44, a read-only memory (ROM) 45, a random access memory (RAM) 46, a carriage-height change motor driver 47, a conveyance motor driver 48, a carriage motor driver 49, and a host interface (I/F) 50. The ASIC 44 executes various types of control operations based on programs stored in the ROM 45. The RAM 46 temporarily stores various types of data. The motor drivers 47 to 49 control driving of a carriage-height change motor, a conveyance motor, and a carriage motor, respectively. In addition, the motor drivers 47 to 49 are configured to drive the carriage height change mechanism 6, the conveyance roller 15 and the discharge roller 19, and the carriage 23, respectively, based on the driving of the motors. In addition, the motor drivers 47 to 49 are configured to control a recording operation based on received data, such as a recording command from a host computer (not illustrated) connected to the host I/F 50. The ASIC 44 is supplied with signals from the carriage sensor 29 and the carriage shaft cam sensor 35. Based on the signals from the sensors, the ASIC 44 causes the motor drivers 47 to 49 to control driving of the respective motors, to control a recording operation, various maintenance operations, and an operation of displaying information on a display unit, for example.
Thus, by arranging the head protection portions 54 near the face surface 53 of the recording head 22, breakdown of the recording head 22 due to peeling of an end of FPC 52 is prevented. However, since the head protection portions 54 are arranged near the face surface 53, ink mist may be attached to the head protection portions 54.
Next, a method for cleaning the head protection portions 54 according to the first exemplary embodiment of the present invention will be described with reference to
The curved portions 55b and 55c are elastically curved upwards and are formed to be depressed if slightly pressed from above. The cleaning sheet 55 is conveyed while the curved portions 55b and 55c slightly contact the head protection portions 54. In this way, ink attached to the head protection portions 54 is transferred onto the curved portions 55b and 55c, and, as a result, the head protection portions 54 are cleaned.
Since the elastic force of the curved portions 55b and 55c is small, the head protection portions 54 and the face surface 53 are not damaged while the ink is transferred. In addition, as described above, the nozzle surfaces 51 are arranged higher than the head protection portions 54. Thus, when the cleaning sheet 55 cleans the head protection portions 54, the cleaning sheet 55 does not contact the nozzle surfaces 51.
Thus, based on the method for cleaning the head protection portions 54 according to the first exemplary embodiment, the cleaning sheet 55 to which the fold 55a is previously given is conveyed, and the curved portions 55b and 55c formed downstream and upstream of the fold 55a are conveyed to contact the head protection portions 54, to clean the head protection portions 54.
Next, an operation of cleaning the head protection portions 54 according to the first exemplary embodiment of the present invention will be described with reference to
First, in step S01, the carriage 23 is retracted to the cleaning position, which is located outside the sheet conveyance area in the main-scanning direction. In step S01, the carriage 23 is at a recording height position at which the recording head 22 executes recording on a recording sheet. Next, in step S02, the cleaning sheet 55 to which the fold 55a is previously given is conveyed by the conveyance roller pair 17, and the leading edge of the cleaning sheet 55 in the conveyance direction is conveyed to the discharge roller pair 21. Consequently, the cleaning sheet 55 is accurately conveyed to the recording position where the recording head 22 executes recording on a sheet. Next, in step S03, the carriage height change mechanism 6 lifts the face surface 53 and the head protection portions 54 to a height (a first height position) where the face surface 53 and the head protection portions 54 do not contact the cleaning sheet 55. The first height position is higher than the recording height position.
Next, in step S04, the carriage 23 is moved in the main-scanning direction to the inside of the sheet conveyance area. In step S04, the carriage 23 is moved so that the face surface 53 does not face a width-direction end of the cleaning sheet 55, based on detection results from the carriage sensor 29. Next, in step S05, the carriage height change mechanism 6 lowers the carriage 23 to a height (a second height position) where the head protection portions 54 contact the curved portions 55b and 55c of the cleaning sheet 55. The second height position is lower than the first height position. The second height position may be the same as the recording height position.
Next, in step S06, the conveyance roller pair 17 and the discharge roller pair 21 convey the cleaning sheet 55 including the curved portions 55b and 55c downstream and upstream of the fold 55a. In step S06, the cleaning sheet 55 is conveyed while the curved portions 55b and 55c slightly contact the head protection portions 54. In this way, the cleaning sheet 55 wipes the ink attached to the head protection portions 54. In step S06, for better cleaning effects, the conveyance motor may be rotated in the normal and reverse directions to move the cleaning sheet 55 reciprocally back and force. When the cleaning sheet 55 is discharged to the outside of the apparatus by the discharge roller pair 21, the operation of cleaning the head protection portions 54 is completed.
If the cleaning sheet 55 to which the fold 55a is previously given is fed from the feeding unit 2 after the carriage 23 is moved to the inside of the sheet conveyance area, the leading edge of the cleaning sheet 55 may contact the carriage unit 4. As a result, for example, a paper jam may be caused. Even if the carriage 23 is at the second height position, for example, a paper jam may be caused. Thus, in the first exemplary embodiment, after the carriage 23 is retracted to the cleaning position, the cleaning sheet 55 is fed from the feeding unit 2.
As described above, the method for cleaning the carriage 23 according to the first exemplary embodiment includes retracting the carriage 23 to the cleaning position, conveying the cleaning sheet 55 to which the fold 55a is previously given to the recording position, lifting the carriage 23 to the height (the first height position) where the face surface 53 and the head protection portions 54 do not contact the curved cleaning sheet 55, moving the carriage 23 to the inside of the sheet conveyance area, lowering the carriage 23 to the height (the second height position) where the head protection portions 54 contact the curved portions 55b and 55c of the cleaning sheet 55, and conveying the cleaning sheet 55 while the curved portions 55b and 55c of the cleaning sheet 55 slightly contact the head protection portions 54. In this way, the cleaning sheet 55 cleans the head protection portions 54 soiled with ink.
According to the present exemplary embodiment, the wiper member 32 does not clean the head protection portions 54. Thus, to clean the head protection portion 54 arranged further from the wiper member 32, the size of the apparatus body does not need to be increased in the width direction. In addition, specifications regarding the durability of the wiper member 32 do not need to be improved.
Next, a second exemplary embodiment of the present invention will be described. In the first exemplary embodiment, the cleaning sheet 55 to which the fold 55a is previously given is fed. Namely, the curved portions 55b and 55c are originally formed. However, in the second exemplary embodiment, after a cleaning sheet without a fold is fed, a curved portion is formed by the apparatus body.
As illustrated in
In
Next, an operation of cleaning the head protection portions 54 according to the second exemplary embodiment of the present invention will be described with reference to
Next, in step S14, the discharge roller 19 is stopped, and the conveyance roller 15 is rotated in a normal direction to form the curved portion 56a in the cleaning sheet 56. The curved portion 56a is formed to slightly contact the head protection portions 54. Next, in step S15, the conveyance roller pair 17 and the discharge roller pair 21 convey the curved cleaning sheet 56. In step S15, the cleaning sheet 56 is conveyed while the curved portion 56a slightly contacts the head protection portions 54. In this way, the cleaning sheet 56 wipes ink attached to the head protection portions 54. When the cleaning sheet 56 is discharged to the outside of the apparatus by the discharge roller pair 21, the operation of cleaning the head protection portions 54 is completed.
To form the curved portion 56a in the cleaning sheet 56, the discharge roller 19 may be rotated in the reverse direction while the conveyance roller 15 is stopped. Alternatively, the conveyance roller 15 and the discharge roller 19 may be rotated in the normal and reverse directions, respectively.
As described above, based on the method for cleaning the carriage 23 according to the second exemplary embodiment, the conveyance roller 15 and the discharge roller 19 are driven separately, and at least one of the rotation direction and the conveyance speed of the conveyance roller 15 and the discharge roller 19 is controlled. In this way, the curved portion 56a is formed in the cleaning sheet 56. By conveying the cleaning sheet 56 while the curved portion 56a slightly contacts the head protection portions 54, the cleaning sheet 56 wipes ink attached to the head protection portions 54. According to the second exemplary embodiment, the size of the apparatus body does not need to be increased in the width direction. In addition, specifications regarding the durability of the wiper member 32 do not need to be improved. In addition, according to the present exemplary embodiment, since a fold does not need to be previously given to the cleaning sheet 56, a normal recording sheet can be used as the cleaning sheet 56.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all modifications, equivalent structures, and functions.
This application claims priority from Japanese Patent Application No. 2011-230663 filed Oct. 20, 2011, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2011-230663 | Oct 2011 | JP | national |