This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2022-167439 filed on Oct. 19, 2022, the entire contents of which are incorporated herein by reference.
The present disclosure relates to an inkjet recording apparatus.
Conventionally, in an inkjet recording apparatus such as an inkjet printer, in order to reduce or prevent clogging of nozzles due to drying of ink, flushing (idle ejection) is performed in which the ink is periodically ejected through the nozzles. For example, a conveyance belt that conveys a recording medium has openings provided therein, and ink is ejected through nozzles of a recording head to pass through the openings of the conveyance belt.
In the inkjet recording apparatus described above, ink droplets that have passed through the openings of the conveyance belt as a result of the flushing normally arrive on an ink receiver that receives the ink and are collected to be discharged as a waste liquid from the ink receiver. Here, if the ink receiver can be disposed in a neighborhood of an ink ejection surface of the recording head, substantially all the ink droplets can be collected by the ink receiver. However, since the conveyance belt is disposed between the recording head and the ink receiver, the ink receiver can hardly be disposed in the neighborhood of the ink ejection surface. As a result, the ink droplets turn into a mist before reaching the ink receiver, causing contamination inside the apparatus.
An inkjet recording apparatus according to an aspect of the present disclosure includes a recording head, a conveyance belt, a control portion, an ink collector, and a suction portion. The recording head includes a plurality of nozzles for ejecting ink. The conveyance belt has a plurality of openings for the ink ejected from the recording head to pass through and conveys a recording medium. The control portion controls driving of the recording head and the conveyance belt so as to execute flushing in which, at a timing different from a timing contributing to image recording, the ink is ejected through the nozzles of the recording head to pass through any of the plurality of openings. The ink collector is disposed to be opposed to the recording head via the conveyance belt and collects the ink that has passed through the openings during execution of the flushing. The suction portion sucks air in the ink collector. The ink collector includes a plurality of ink receivers that receives the ink that has passed through the openings and a suction path leading from each of the ink receivers to the suction portion. The suction path includes a plurality of first flow paths each connected to each of the plurality of ink receivers and a merging chamber in which the plurality of first flow paths merges together and that is linked to the suction portion. As each of the first flow paths, the plurality of first flow paths is provided in parallel between each of the ink receivers and the merging chamber.
With reference to the appended drawings, the following describes an embodiment of the present disclosure.
A paper feed device 3 is disposed on a downstream side of the paper feed cassette 2 in a sheet conveyance direction, i.e., at an upper right part of the paper feed cassette 2 in
The printer 100 includes therein a first sheet conveyance path 4a. With respect to the paper feed cassette 2, the first sheet conveyance path 4a is positioned on the upper right side, which corresponds to a paper feed direction of the paper feed cassette 2. Via the first sheet conveyance path 4a, the sheet P fed out from the paper feed cassette 2 is conveyed vertically upward along a side surface of the printer main body 1.
A registration roller pair 13 is provided at a downstream end of the first sheet conveyance path 4a in the sheet conveyance direction. Moreover, a first conveyance unit 5 and a recording portion 9 are disposed in immediate proximity to a downstream part of the registration roller pair 13 in the sheet conveyance direction. The sheet P fed out from the paper feed cassette 2 passes through the first sheet conveyance path 4a to reach the registration roller pair 13. While correcting oblique feeding of the sheet P, the registration roller pair 13 feeds out the sheet P toward the first conveyance unit 5 (particularly, an after-mentioned first conveyance belt 8) in synchronization with an ink ejection operation executed by the recording portion 9.
The sheet P fed out to the first conveyance unit 5 by the registration roller pair 13 is conveyed to an opposed position to the recording portion 9 (particularly, after-mentioned recording heads 17a to 17c) by the first conveyance belt 8. Ink is ejected from the recording portion 9 to the sheet P so that an image is recorded thereon. At this time, ejection of the ink in the recording portion 9 is controlled by a control device 110 in the printer 100.
A second conveyance unit 12 is disposed on a downstream side of the first conveyance unit 5 in the sheet conveyance direction (a left side in
A decurler portion 14 is provided on a downstream side of the second conveyance unit 12 in the sheet conveyance direction and in a neighborhood of a left side surface of the printer main body 1. The sheet P on which the ink has been dried by the second conveyance unit 12 is sent to the decurler portion 14 where a curl generated in the sheet P is corrected.
A second sheet conveyance path 4b is provided on a downstream side of the decurler portion 14 in the sheet conveyance direction (an upper side in
An inversion conveyance path 16 for performing duplex recording is provided in an upper part of the printer main body 1 and above the recording portion 9 and the second conveyance unit 12. When duplex recording is performed, the sheet P that has passed through the second conveyance unit 12 and the decurler portion 14 after completion of recording on one side (a first side) thereof passes through the second sheet conveyance path 4b to be sent to the inversion conveyance path 16.
The conveyance direction for conveying the sheet P sent to the inversion conveyance path 16 is switched for subsequent recording on the other side (a second side) of the sheet P. Then, the sheet P passes through the upper part of the printer main body 1 to be sent rightward and is further sent, with the second side up, again to the first conveyance unit 5 via the registration roller pair 13. In the first conveyance unit 5, the sheet P is conveyed to the opposed position to the recording portion 9, and the ink is ejected from the recording portion 9 thereto so that an image is recorded on the second side. The sheet P after being subjected to the duplex recording sequentially passes through the second conveyance unit 12, the decurler portion 14, and the second sheet conveyance path 4b to be discharged onto the sheet discharge tray 15a.
Furthermore, a maintenance unit 19 and a cap unit 20 are disposed below the second conveyance unit 12. When executing purging, the maintenance unit 19 horizontally moves to below the recording portion 9 to wipe off the ink extruded through ink ejection ports of each of recording heads and to collect the ink thus wiped off. The purging refers to an operation of forcibly extruding the ink through the ink ejection ports of each of the recording heads so as to discharge thickened ink, foreign matter, and air bubbles in the ink ejection ports. When capping ink ejection surfaces of the recording heads, the cap unit 20 horizontally moves to below the recording portion 9 and further moves upward so as to be attached to lower surfaces of the recording heads.
The line heads 11Y to 11K each include the plurality of (herein, three) recording heads 17a to 17c. The recording heads 17a to 17c are arrayed in a staggered manner along a sheet width direction (an arrow B-B′ direction) orthogonal to the sheet conveyance direction (the arrow A direction). The recording heads 17a to 17c each have a plurality of ink ejection ports 18 (nozzles). The ink ejection ports 18 are arranged at equal intervals in a recording head width direction, namely, the sheet width direction (the arrow B-B′ direction). From the line heads 11Y to 11K, ink of respective colors of yellow (Y), magenta (M), cyan (C), and black (K) is ejected through the ink ejection ports 18 of the recording heads 17a to 17c toward the sheet P being conveyed on the first conveyance belt 8.
The recording heads 17a to 17c constituting each of the line heads 11Y to 11K are supplied with the ink of four different colors (yellow, magenta, cyan, and black) stored in ink tanks (not shown) so as to correspond to respective colors of the line heads 11Y to 11K.
Based on a control signal from the control device 110 (see
In the printer 100, in order to clean the ink ejection surfaces of the recording heads 17a to 17c, at a start of printing after long-term non-operation and between printing operations, in preparation for a subsequent printing operation, a recovery operation of the recording heads 17a to 17c is executed in which the ink is extruded (purged) through the ink ejection ports 18 of all the recording heads 17a to 17c, and the ink ejected to the ink ejection surfaces is wiped off by a wiper (not shown). The ink wiped off from the ink ejection surfaces is collected by after-mentioned ink collectors 31Y to 31K (see
The registration sensor 21 detects the sheet P being conveyed by the paper feed device 3 from the paper feed cassette 2 to the registration roller pair 13. The registration sensor 21 is positioned on an upstream side relative to the registration roller pair 13 in a feeding direction of the sheet P. Based on a result of the detection by the registration sensor 21, the control device 110 (for example, a sheet feeding control portion 110c) controls a timing for starting rotation of the registration roller pair 13. For example, based on a result of the detection by the registration sensor 21, the control device 110 controls a timing for feeding, to the first conveyance belt 8, the sheet P that has been subjected to skew (oblique feed) correction by the registration roller pair 13.
The first sheet sensor 22 detects a position of the sheet P in the width direction thereof, which is being sent from the registration roller pair 13 to the first conveyance belt 8. Based on a result of the detection by the first sheet sensor 22, the control device 110 (for example, the main control portion 110a) can perform control in which the ink is ejected through, among the ink ejection ports 18 of the recording heads 17a to 17c of each of the line heads 11Y to 11K, a set of ink ejection ports 18 corresponding to a width of the sheet P so that an image is recorded on the sheet P.
The second sheet sensor 23 detects passing of the sheet P fed to the first conveyance belt 8 by the registration roller pair 13. That is, the second sheet sensor 23 detects a position of the sheet P in the conveyance direction, which is being conveyed on the first conveyance belt 8. The second sheet sensor 23 is positioned on an upstream side of the recording portion 9 and on a downstream side of the first sheet sensor 22 in the sheet conveyance direction. Based on a result of the detection by the second sheet sensor 23, the control device 110 (for example, the main control portion 110a) can control a timing for ejecting the ink to the sheet P being conveyed to reach the position opposed to the line heads 11Y to 11K (the recording heads 17a to 17c) by the first conveyance belt 8.
The belt sensors 24 and 25 are each a reference detection sensor that detects a reference specifying area (not shown) provided on the first conveyance belt 8. The reference specifying area is a reference area for identifying every full revolution of the first conveyance belt 8. Since a positional relationship between the reference specifying area and openings 80 (see
A configuration may be adopted in which, at an end of the first conveyance belt 8 in a belt width direction thereof, marks are formed beforehand at positions corresponding to the opening groups 82, and the belt sensors 24 and 25 detect the above-described marks, thus detecting the respective positions of the opening groups 82 (the openings 80) corresponding to the above-described marks.
The belt sensor 24 is positioned on a downstream side of the recording portion 9 in the sheet conveyance direction (the travelling direction of the first conveyance belt 8). In the sheet conveyance direction, the belt sensor 25 is positioned on an upstream side relative to the driven roller 6b over which the first conveyance belt 8 is stretched. While positioned between the driven roller 6b and the tension roller 7b in this embodiment, the belt sensor 25 may be positioned between the tension roller 7a and the tension roller 7b. The driven roller 6b is positioned on an upstream side with respect to the recording portion 9 in the travelling direction of the first conveyance belt 8. The belt sensor 24 also has a function equivalent to that of the second sheet sensor 23. Based on a result of the detection by the belt sensor 24 or 25, the control device 110 (for example, the sheet feeding control portion 110c) can control the registration roller pair 13 to feed the sheet P to the first conveyance belt 8 at a prescribed timing.
Furthermore, a position of the sheet P is detected by the plurality of sensors (the first sheet sensor 22, the second sheet sensor 23), and the reference specifying area on the first conveyance belt 8 is detected by the plurality of sensors (the belt sensors 24 and 25), and thus it also becomes possible to correct an error of the position thus detected or to detect an abnormality.
The first sheet sensor 22, the second sheet sensor 23, and the belt sensors 24 and 25, which are described above, may be each formed of a transmissive or reflective optical sensor, a CIS (contact image sensor), or the like.
In addition, the printer 100 may have a configuration including a meandering detection sensor that detects meandering of the first conveyance belt 8, in which based on a result of the detection thereby, the meandering of the first conveyance belt 8 is corrected.
Furthermore, the printer 100 further includes an operation panel 27, a storage portion 28, and a communication portion 29.
The operation panel 27 is an operation portion for accepting inputs of various settings. For example, by operating the operation panel 27, a user can input information on a size of the sheet P placed in the paper feed cassette 2, namely, a size of the sheet P to be conveyed by the first conveyance belt 8. Furthermore, by operating the operation panel 27, a user can also input the number of the sheets P to be printed or provide an instruction to start a printing job. Furthermore, the operation panel 27 also has a function as a notification device that provides a notification about an operation status (image recording or after-mentioned flushing) of the printer 100.
The storage portion 28 is a memory storing an operation program for the control device 110 and also storing various types of information and is configured by including a ROM (read-only memory), a RAM (random-access memory), a non-volatile memory, and so on. Information (for example, the information on the size of the sheet P or the number of the sheets P) set via the operation panel 27 is stored in the storage portion 28.
The communication portion 29 is a communication interface for transmitting and receiving information between itself and an external device (for example, a personal computer (PC)). For example, when a user operates a PC to transmit a printing command together with image data to the printer 100, the image data and the printing command, which are described above, are inputted to the printer 100 via the communication portion 29. In the printer 100, based on the above-described image data, the main control portion 110a can control the recording heads 17a to 17c to eject the ink so that an image is recorded on the sheet P.
Furthermore, the printer 100 of this embodiment includes the control device 110. The control device 110 is configured by including, for example, a CPU (central processing unit) and a memory. Specifically, the control device 110 includes the main control portion 110a, a flushing control portion 110b, the sheet feeding control portion 110c, and a maintenance control portion 110d. Needless to say, the control portions constituting the control device 110, which are formed of a single CPU, may also be formed of separate CPUs.
The main control portion 110a controls operations of the various portions of the printer 100. For example, driving of the rollers in the printer 100, ejection of the ink from the recording heads 17a to 17c during image formation (other than during flushing), and so on are controlled by the main control portion 110a.
Based on detection of the respective positions of the openings 80 by the belt sensor 24 or 25, the flushing control portion 110b controls the recording heads 17a to 17c to execute flushing.
The sheet feeding control portion 110c is a recording medium feeding control portion that controls the registration roller pair 13 as a recording medium feeding portion. For example, based on detection of the respective positions of the openings 80 by the belt sensor 24 or 25, the sheet feeding control portion 110c controls the registration roller pair 13. The sheet feeding control portion 110c can also control the registration roller pair 13 independently of detection of the respective positions of the openings 80 by the belt sensor 24 or 25 (regardless of the detection of the respective positions).
The maintenance control portion 110d controls the recording heads 17a to 17c to execute the above-described purging in which the ink is forcibly extruded through the ink ejection ports 18. When controlling the recording heads 17a to 17c to execute the purging, the maintenance control portion 110d also controls driving of the above-described maintenance unit 19 (for example, so that the maintenance unit 19 moves to below the recording portion 9 and retreats therefrom).
Furthermore, as shown in
The second conveyance unit 12 includes a second conveyance belt 12a and a dryer 12b. The second conveyance belt 12a is stretched over two rollers that are a driving roller 12c and a driven roller 12d. The sheet P that has been conveyed by the first conveyance unit 5 and to which the ink has been ejected by the recording portion 9 so that an image is recorded thereon is conveyed by the second conveyance belt 12a, while being dried by the dryer 12b during the conveyance, to the above-described decurler portion 14.
Next, a detailed description is given of a configuration of the ink collectors 31Y to 31K.
The ink collector 31Y is disposed between a pair of side surface frames 100a so as to be opposed to the recording heads 17a to 17c constituting the line head 11Y (see
A suction fan 40 that is a suction portion is installed in each of two locations on one of the side surface frames 100a, and one end of a suction duct 37 is connected thereto. The suction duct 37 has a plurality of suction ports 41 provided at the other end thereof. The suction ports 41 are disposed to be opposed to an inner circumferential surface of the first conveyance belt 8 (see
The suction path 35 is made of, for example, a resinous material and includes first flow paths 35a and a merging chamber 35b. The suction path 35 may further include a second flow path 35c. The first flow paths 35a communicate with the ink receivers 32a to 32c. In the merging chamber 35b, three first flow paths 35a communicating with the ink receivers 32a to 32c merge into a single flow path. The merging chamber 35b is linked to the suction fan 40. To be more specific, an upper end of the second flow path 35c communicates with the merging chamber 35b, and a lower end thereof is open in the suction duct 37. By the above-described configuration, the ink receivers 32a to 32c are connected to the suction fan 40 via the suction path 35 and the suction duct 37.
Ink droplets contained in an airflow passing through the suction path 35 impinge on inner wall surfaces of the first flow paths 35a and the merging chamber 35b to be accumulated below. The ink thus accumulated in a lower part of the waste ink tank 33 is discharged outside by the ink collection path 36.
The ink collection path 36 includes an inclined part 36a and an ink discharging tube 36b. The inclined part 36a is formed below and adjacently to the first flow paths 35a and the merging chamber 35b, and the ink discharging tube 36b is connected to a lowermost point (a bottom) of the inclined part 36a. Ink droplets adhering to the inner wall surfaces of the first flow paths 35a and the merging chamber 35b flow downward along the inner wall surfaces and then flow along the inclined part 36a to be gathered in one location (the lowermost point). Further, the ink droplets pass through the ink discharging tube 36b to be collected in a waste ink collection bottle (not shown).
While herein there is provided the ink collection path 36 for collecting the ink accumulated in the waste ink tank 33, instead of the ink collection path 36, an ink absorber such as a melamine sponge may be disposed in the waste ink tank 33. In such a case, the ink absorbed by the ink absorber is directly stored in the waste ink tank 33 so as to be discarded or collected when the waste ink tank 33 is replaced.
Next, a description is given of details of the first conveyance belt 8 of the first conveyance unit 5.
This embodiment employs a negative pressure suction method in which the sheet P is conveyed while being absorbed to the first conveyance belt 8 by negative pressure suction using the suction fan 40. To this end, over an entire region of the first conveyance belt 8, the numerous suction holes 8a are formed to pass therethrough an airflow (suction air) for absorbing the sheet P to the first conveyance belt 8 by the negative pressure suction.
The first conveyance belt 8 has the plurality of openings 80 for passing therethrough the ink ejected through the nozzles (the ink ejection ports 18) of the recording heads 17a to 17c during flushing. In this embodiment, there are formed the opening groups 82 each composed of two rows of a plurality of openings 80 disposed along the belt width direction. In each of the opening groups 82, the openings 80 in one row are disposed so as to partly overlap the openings 80 in the other row in the belt width direction (the arrow B-B′ direction).
While in this embodiment, as shown in
The plurality of opening groups 82, each of which is shown in
When the recording heads 17a to 17c execute flushing, the ink ejected through the ink ejection ports 18 of the recording heads 17a to 17c passes through the openings 80 of any of the opening groups 82. Accordingly, the flushing is executed over the entire head width by the recording heads 17a to 17c, and thus it becomes possible to reduce clogging due to drying of the ink in all the ink ejection ports 18.
Next, a description is given of a configuration of the first flow paths 35a in the waste ink tank 33 constituting each of the ink collectors 31Y to 31K, which characterizes the printer 100 of this embodiment.
As shown in
With the two first flow paths 35a provided in parallel, a surface area of inner wall surfaces of the first flow paths 35a is increased compared with a case where there is formed a single first flow path 35a equal in airflow volume therethrough (equal in sectional area) to the two first flow paths 35a. This increases opportunities for misted ink contained in airflows to contact the inner wall surfaces of the first flow paths 35a, facilitating ink droplets being gathered in the ink collection path 36, and thus it is possible, by using a simple configuration, to efficiently separate the misted ink contained in the airflows from the airflows. Accordingly, it becomes unlikely that the misted ink reaches the suction fan 40, and thus it is possible to suppress a failure of the suction fan 40. Furthermore, it is also possible to suppress contamination inside the printer 100 caused by the misted ink.
Moreover, disposing a filter for trapping the ink in the second flow path 35c or the suction duct 37 makes it unlikely that the ink adheres to the filter. This also eliminates the possibility that a force for holding the sheet P by absorption and a force for sucking ink droplets during flushing are decreased due to clogging of the filter.
Furthermore, since the bent part 50 is formed in each of the first flow paths 35a, it becomes likely that airflows flowing through the first flow paths 35a impinge on the inner wall surface of the bent part 50, and thus an ink separation effect can be improved.
Here, when each of the first flow paths 35a includes the bent part 50, airflow paths are folded to increase a pressure loss. In this case, in order to reliably collect the ink ejected during flushing, it is required that, by use of a high-power fan as the suction fan 40, a suction force (a volume of suction air) be increased in consideration of the pressure loss, resulting in a cost increase.
In this embodiment, since the two first flow paths 35a are provided in parallel, an airflow directed from the ink receiver 32a toward the merging chamber 35b is dispersed into two paths. With this configuration, while a given volume of suction air is maintained in the ink receiver 32a, a volume of suction air passing through the bent part 50 can be decreased to ½, and thus the pressure loss can be reduced.
In a case where n first flow paths 35a (n is an integer of 2 or more) are provided in rows, the volume of suction air passing through the bent part 50 is decreased to 1/n. That is, the larger the number of the first flow paths 35a, the more the pressure loss is decreased. From this viewpoint, three or more first flow paths 35a may be provided in parallel, in which case, however, a required space for disposing the first flow paths 35a is also increased. For this reason, in this embodiment, the two first flow paths 35a are provided in parallel. Furthermore, while in this embodiment, each of the first flow paths 35a includes the single bent part 50, each of the first flow paths 35a may include two or more bent parts 50.
Since each of the first flow paths 35a is folded into layers stacked in the up-down direction, it is possible to extend the each of the first flow paths 35a without requiring an increased space in a height direction. Furthermore, each of the first flow paths 35a is folded plural times (herein, twice) to have a folded part, and thus it becomes likely that misted ink contained in airflows passing through the first flow paths 35a contacts the folded part. Accordingly, it is possible, by using a simple and space-saving configuration, to efficiently separate misted ink contained in airflows from the airflows.
The bent part 50 is not limited in shape to the shapes shown in
Furthermore, while in each of the examples shown in
The present disclosure is not limited to the foregoing embodiment and can be variously modified without departing from the spirit of the present disclosure. For example, while the foregoing embodiment describes the case where the sheet P is conveyed while being absorbed to the first conveyance belt 8 by the negative pressure suction using the suction fan 40 and the suction duct 37, a configuration may be adopted in which the first conveyance belt 8 is charged so that the sheet P is conveyed while being absorbed to the first conveyance belt 8 by electrostatic absorption (an electrostatic absorption method). In that case, the suction fan 40 is used only to suck the ink in the ink collectors 31Y to 31K.
Furthermore, while the foregoing embodiment describes the configuration using the first conveyance belt 8 in which the opening groups 82 each composed of the plurality of openings 80 are disposed irregularly at respective positions corresponding to a sheet size in the sheet conveyance direction, there can also be used the first conveyance belt 8 in which the opening groups 82 are arranged at constant intervals in the sheet conveyance direction (the arrow A direction)
Furthermore, while the foregoing embodiment describes the example using, as an inkjet recording apparatus, a color printer that uses ink of four different colors to record a color image, an ink discharge path of the embodiment of the present disclosure can be used also in a case of using a monochrome printer that uses black ink to record a monochrome image.
The present disclosure is usable in an inkjet recording apparatus such as an inkjet printer.
Number | Date | Country | Kind |
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2022-167439 | Oct 2022 | JP | national |
Number | Date | Country | |
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20240131846 A1 | Apr 2024 | US |