JP2004050503A - Inkjet imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inkjet imaging apparatus having a carriage equipped with an ink cartridge in which a failure in replacement of the cartridge is prevented and workability of replacing work is enhanced, and in which the cartridge can be stably installed without causing such a trouble as a fall of the ink cartridge in the replacing work. <P>SOLUTION: In an inkjet printer where imaging operation is carried out by moving a carriage 51 equipped with a plurality of ink cartridges 81-84 in a main scanning direction, any one ink cartridge 83 is turned upward to vary the attitude thereof when the residual quantity of ink thereof becomes substantially "0". When any one ink cartridge 83 is in the attitude of turned upward, scanning by means of the carriage 51 is prohibited, thus preventing the ink cartridge 83 from falling. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an inkjet image forming apparatus that includes a carriage on which an ink cartridge is mounted, and that forms an image on a recording medium using ink supplied from the ink cartridge. In particular, the present invention relates to measures for easily and accurately performing an ink cartridge replacement operation.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as an image forming operation in an ink jet printer, first, one of a plurality of sheets stored in a sheet tray is sent to a transport path, and the sheet is supplied to an image forming unit via the transport path. The image forming section discharges the paper to a paper discharge tray after forming a predetermined image by discharging ink droplets on the paper surface.
[0003]
Further, the image forming section is provided with a carriage on which an ink cartridge is mounted, and the carriage performs the image forming operation with the ink supplied from the ink cartridge to the ink head while performing the scanning operation. ing.
[0004]
In this type of ink jet printer, it is necessary to replace the ink cartridge when the remaining amount of ink in the ink cartridge becomes low or the ink cartridge becomes empty. For this reason, conventionally, this inkjet printer is provided with means for recognizing the remaining amount of ink in the ink cartridge.
[0005]
One of the means is an ink level sensor that optically detects the ink level in the ink cartridge. As another means, an unconsumed pixel count value is obtained by subtracting a consumed pixel count value from a total pixel count value obtained based on the total ink amount in a new ink cartridge, and the remaining ink amount is recognized based thereon. It is also raised.
[0006]
When the remaining amount of ink in the ink cartridge becomes low or the inside of the ink cartridge becomes empty, a display operation or a warning operation is performed to prompt the user to replace the ink cartridge. Will need to be replaced.
[0007]
By the way, in a color ink jet printer having a plurality of ink cartridges, it is necessary to make the user know which ink cartridge should be replaced and to prevent a replacement error.
[0008]
In view of this point, there is an ink jet printer disclosed in Japanese Patent Application Laid-Open No. 10-202912. In this publication, an ink cartridge replacement window in which only one ink cartridge is exposed is formed on a cabinet in which the cover of an ink jet printer is opened, so that the amount of ink remaining in the ink cartridge decreases or the ink cartridge becomes empty. In this case, it is disclosed that the carriage is scanned such that only the ink cartridge is exposed through this window. As a result, the user takes out only the ink cartridge exposed from the window from this window and replaces it, thereby preventing a replacement error.
[0009]
[Problems to be solved by the invention]
However, those disclosed in the above publications have the following problems.
In other words, if the opening area of the window is large enough to easily replace the ink cartridge, even the ink cartridge adjacent to the ink cartridge that needs to be replaced is exposed to the window. There is a possibility that the ink cartridge (ink cartridge that does not need to be replaced) will be replaced by mistake. For this reason, this window needs to have a minimum necessary opening area, and there is a limit in improving the workability of replacement work (easiness of taking out the ink cartridge from this window).
[0010]
In particular, in the case of a color inkjet printer, the Bk (black) ink cartridge is generally larger than the Y (yellow), M (magenta), and C (cyan) color ink cartridges. For this reason, when the opening area of the window is set to a size that allows the Bk ink cartridge to be replaced, a plurality of color ink cartridges are exposed to the window when any one of the color ink cartridges needs to be replaced. And the possibility of occurrence of a replacement error increases.
[0011]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an inkjet image forming apparatus having a carriage on which an ink cartridge is mounted, to prevent the cartridge from being replaced mistakenly and to improve the workability of the replacement. An object of the present invention is to provide a configuration capable of stably improving the mounting state without causing a problem such as a drop of an ink cartridge during the replacement work.
[0012]
[Means for Solving the Problems]
-Summary of the invention-
In order to achieve the above object, the present invention employs a configuration in which the mounting position of an ink cartridge on a carriage can be changed, and it is possible to determine whether or not the ink cartridge is to be replaced based on the change in the mounting position. Like that. Further, in a situation where the mounting posture of any of the ink cartridges is in a changing state, the scanning of the carriage is prohibited, so that the ink cartridges can be prevented from coming into contact with the main body cover or dropping.
[0013]
-Solution-
Specifically, there is provided an ink-jet image forming apparatus which includes a carriage on which an ink cartridge is exchangeably mounted, and which forms an image on a recording medium with ink supplied from the ink cartridge while the carriage moves in the main scanning direction. It is assumed. When the remaining amount of ink in the ink cartridge falls below a predetermined amount, the mounting posture of the ink cartridge on the carriage is different from the case where the remaining amount of ink is equal to or more than the predetermined amount. A posture changing means for changing the posture is provided. Further, a scanning prohibiting means is provided for prohibiting movement of the carriage in the main scanning direction when the mounting posture of the ink cartridge on the carriage is in a change state due to the operation of the posture changing means.
[0014]
Further, a solution in a case where the above-described technical idea is applied to a printer having a plurality of ink cartridges, such as a color inkjet printer, is as follows. In other words, an inkjet image is provided that includes a carriage in which a plurality of ink cartridges are individually exchangeably mounted, and the carriage moves in the main scanning direction while forming an image on a recording medium with ink supplied from each ink cartridge. A forming device is assumed. When the remaining amount of ink in any one of the ink cartridges falls below a predetermined amount, the mounting posture of the ink cartridge on the carriage is changed to another ink supply whose remaining amount of ink is equal to or more than the predetermined amount. A posture changing means for changing the posture of the ink cartridge to a posture different from the mounting posture on the carriage is provided. Further, when the mounting attitude of at least one of the ink cartridges on the carriage is in a change state due to the operation of the attitude changing means, a scanning inhibiting means for inhibiting movement of the carriage in the main scanning direction is provided. I have.
[0015]
Due to these specific items, when the remaining amount of ink in the ink cartridge is reduced or the inside of the ink cartridge is emptied, the mounting posture of the ink cartridge on the carriage is different from the previous posture. Therefore, the user can easily recognize that the ink cartridge should be replaced by looking at the mounting posture. In particular, in the case where a plurality of ink cartridges are provided, only the ink cartridge that needs to be replaced has a different attitude from other ink cartridges (ink cartridges that do not need to be replaced). The ink cartridge can be easily recognized, thereby preventing a replacement error. Then, when there is an ink cartridge whose mounting posture on the carriage is different from the previous posture, the movement of the carriage in the main scanning direction is prohibited. For example, when the ink cartridge with the remaining ink amount is mounted on the carriage and popped up (moved upward) from the previous posture, if the carriage has moved in the main scanning direction in this state, the ink cartridge May come into contact with the main body casing, and the ink cartridge may fall from the carriage, or the remaining ink may leak off. According to the present invention, by prohibiting the movement of the carriage in the main scanning direction, these problems can be avoided, and the workability of the ink cartridge replacement operation can be improved.
[0016]
Further, as the specific attitude changing operation of the ink cartridge when there are a plurality of ink cartridges in which the remaining amount of ink is less than the predetermined amount, the following are listed. That is, when there are a plurality of ink cartridges having the remaining ink amount less than the predetermined amount, the mounting posture of any one of the ink cartridges on the carriage is changed to the mounting posture of the other ink cartridge on the carriage. After the ink cartridge has been exchanged, the mounting posture of the other ink cartridge on the carriage is changed from the mounting posture of the other ink cartridge on the carriage. To change. The posture changing means is configured to repeat this operation for each ink cartridge until all the ink cartridges whose remaining ink amount is less than the predetermined amount are completed.
[0017]
According to this specific matter, the replacement operation of the ink cartridges is performed one by one. For example, when the postures of a plurality of ink cartridges change at the same time, and all the ink cartridges having changed postures are removed, and then a plurality of ink cartridges are simultaneously mounted on the carriage, a wrong mounting of the ink cartridges, That is, for example, there is a possibility that the magenta ink cartridge is mounted at the mounting position of the cyan ink cartridge, or the cyan ink cartridge is mounted at the mounting position of the yellow ink cartridge. According to this solution, even if there are a plurality of ink cartridges having the remaining ink amount less than the predetermined amount, only one ink cartridge changes its posture at all times. Is performed, the posture of the other ink cartridge is changed, so that the mounting of the ink cartridge does not occur erroneously, and the workability and reliability of the replacement work can be improved.
[0018]
Further, in a case where a capping operation on the carriage (capping operation for preventing drying around the ink nozzles) is performed after the ink cartridge replacement operation, the ink cartridge mounted on the carriage by the replacement operation may be replaced with an ink remaining. Even if the amount is less than the predetermined amount, the capping operation for the carriage is performed after the replacement operation.
[0019]
For example, when the ink remaining amount of a certain ink cartridge is lower than a predetermined amount and replacement is necessary, and when there is no stocking of a new ink cartridge to be replaced, the ink cartridge whose ink remaining amount is lower than the predetermined amount is used. May be mounted again. Even in such a case, by performing the capping operation on the carriage, it is possible to prevent the ink head provided on the carriage from drying, and to satisfactorily perform the ink droplet ejection operation at the next printing operation.
[0020]
Further, the “replacement request ink remaining amount value” for determining that the ink cartridge needs to be replaced can be arbitrarily set. In this case, if this “replacement request ink remaining amount value” is set to an appropriate value, a situation in which ink runs out during the image forming operation on one recording medium may occur. Can be avoided. If the ink runs out during the image forming operation on a single recording medium, the recording medium and the ink used for the image formation are wasted. This waste can be avoided. That is, even if the remaining amount of ink reaches the “replacement request ink remaining amount value” during the image forming operation, an image can be actually formed inside the ink cartridge on the entire surface of the recording medium during the image forming. Ink amount remains, and an image forming operation on the recording medium can be performed satisfactorily.
[0021]
In addition, on the display screen of the printer driver, an ink cartridge to be replaced is designated, and the designated ink cartridge can be forcibly removed. For this reason, an arbitrary ink cartridge can be forcibly removed regardless of the remaining ink amount. For example, if you are concerned about the print quality of a previously unused ink cartridge, such as when you have not used it for a long time and use it again after a long time after using it, Can be replaced with all remaining ink cartridges or only desired ones. For this reason, it becomes possible to mount a new ink cartridge as needed.
[0022]
Further, there is provided a release switch capable of forcibly removing the ink cartridge by performing a pressing operation. For this reason, it is possible to forcibly remove the ink cartridge only by operating the apparatus without connecting an external terminal such as a personal computer.
[0023]
In addition, a display unit capable of displaying an ink remaining amount state of the ink cartridge is provided. The display unit displays when the ink remaining amount is lower than a predetermined amount during normal operation and when the ink remaining amount is lower than the predetermined amount. The display state is made different between when the ink cartridge has not been replaced. Therefore, the user can determine the state of the ink cartridge at a glance by the display unit only by turning on the power of the apparatus (without connecting to the personal computer).
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In this embodiment, a case where the present invention is applied to a color inkjet printer will be described.
[0025]
FIG. 1 is a perspective view illustrating an appearance of the color inkjet printer 1 according to the present embodiment (a state in which a cover 11 is opened). FIG. 2 is a side view showing the internal configuration of the color inkjet printer 1.
[0026]
As shown in these drawings, the inkjet printer 1 according to the present embodiment includes a paper feed unit 2, a separation unit 3, a transport unit 4, a printing unit 5, and a discharge unit 6.
[0027]
The paper supply unit 2 includes a paper supply tray 21 extending in a substantially vertical direction and a pickup roller (not shown). At the start of printing, a recording sheet P as a recording medium in the paper supply tray 21 is taken out by the pickup roller and separated by a separation unit 3. It is designed to be transported toward. The paper feed tray 21 functions as a storage unit for the recording paper P when printing is not performed.
[0028]
The separation unit 3 is for supplying the recording paper P supplied from the paper supply unit 2 to the printing unit 5 one by one, and includes a paper supply roller 31 and a separator 32. In the separator 32, the frictional force between the pad portion (the contact portion with the recording paper P) and the recording paper P is set to be larger than the frictional force between the recording papers P. In the paper feed roller 31, the frictional force between the paper feed roller 31 and the recording paper P is determined by the frictional force between the pad of the separator 32 and the recording paper P and the frictional force between the recording papers P and P. Is also set to be large. Therefore, even if a plurality of recording sheets P, P,... Are taken out by the pickup roller and sent to the separation unit 3, the plurality of recording sheets P, P,. Only the uppermost sheet of recording paper P can be sent to the transport unit 4.
[0029]
The transport unit 4 transports the recording paper P supplied one by one from the separation unit 3 toward the printing unit 5, and includes a guide plate 41 and a transport roller pair 42. The transport roller pair 42 transports the recording paper P so that the ink droplets from the recording head 52 are sprayed to an appropriate position on the recording paper P when the recording paper P is sent between the recording head 52 and the platen 53. It is a member for adjusting.
[0030]
The printing unit 5 is for printing on the recording paper P supplied from the pair of conveying rollers 42 of the conveying unit 4, and includes a plurality of ink cartridges 81 to 84, a recording head 52, these ink cartridges 81 to 84, and a recording head. A carriage 51 having a head 52 mounted thereon, a guide shaft 54 for guiding the carriage 51 in the main scanning direction, and the platen 53 serving as a support for the recording paper P during printing are provided. The ink cartridges 81 to 84 are individually mounted on the carriage 51 for each of Bk (black), Y (yellow), M (magenta), and C (cyan) inks. It is exchangeable. In the present embodiment, the Bk ink cartridge 81 is larger than the Y, M, and C color ink cartridges 82 to 84 among the ink cartridges 81 to 84.
[0031]
The discharge unit 6 is a part for collecting the recording paper P on which printing has been performed, and includes an ink drying unit (not shown) for drying the ink on the recording paper P, a discharge roller 61, and a discharge tray 62.
[0032]
As shown in the appearance of the ink jet printer 1 in FIG. 1, an ink exchange LED 12 (which indicates when the remaining amount of at least one of the ink cartridges 81 to 84 is lower than a predetermined amount is provided on the front of the printer. Light Emitting Diode, and a release switch 13 that is pressed when manually removing the ink cartridges 81 to 84 are provided.
[0033]
In the above configuration, the inkjet printer 1 performs printing by the following operation. First, a print request based on image information is made to the inkjet printer 1 from an external terminal such as a computer (not shown). Upon receiving the print request, the inkjet printer 1 carries out the recording paper P on the paper supply tray 21 from the paper supply unit 2 by the pickup roller. Next, the conveyed recording paper P passes through the separation unit 3 by the paper feed roller 31 and is sent to the conveyance unit 4. In the transport unit 4, the recording paper P is sent between the recording head 52 and the platen 53 by the transport roller pair 42. In the printing unit 5, ink droplets are sprayed from the ink nozzles of the recording head 52 onto the recording paper P on the platen 53 in accordance with the image information. At this time, the recording paper P is temporarily stopped on the platen 53. While spraying the ink droplets, the carriage 51 is guided by the guide shaft 54 and scans one line in the main scanning direction (the direction D2 in FIG. 1). When this is completed, the recording paper P moves on the platen 53 by a fixed width in the sub-scanning direction (D1 direction in FIG. 1). In the printing unit 5, printing is performed on the entire surface of the recording paper P by continuously performing the above processing in accordance with the image information. The recording paper P on which printing has been performed in this manner is discharged to a discharge tray 62 by a discharge roller 61 via an ink drying unit.
Thereby, the recording paper P is provided to the user as a printed matter.
[0034]
The operation of each unit described above is controlled by the control unit. Hereinafter, the control unit will be described.
[0035]
FIG. 3 is a block diagram illustrating a configuration of a control unit of the inkjet printer.
The control unit includes a carriage driving circuit 71 controlled by the CPU 7, a sheet transport driving unit 72, a recording head driving unit 73, and a maintenance driving unit 74.
[0036]
The carriage driving circuit 71 controls driving of a carriage motor 71a which is a driving source for reciprocating the carriage 51 in the main scanning direction.
[0037]
The paper transport drive unit 72 controls the driving of the drive roller of the transport roller pair 42 for transporting the recording paper P in the sub-scanning direction.
[0038]
The recording head driving means 73 receives image data and controls the driving of the recording head 52. In other words, in conjunction with the scanning of the carriage 51 and the conveyance of the recording paper P, the plurality of piezoelectric elements provided in the black head and each color head are separately driven for each ink color, and the ink droplets from each ink nozzle are driven. The ejection control is performed, and a predetermined image is formed on the recording paper P.
[0039]
The maintenance driving unit 74 is for performing a maintenance operation of the recording head 52. When the ink cartridges 81 to 84 are replaced, a predetermined amount of ink is sucked from the ink nozzles to discharge bubbles from the ink nozzles. This operation executes a priming process or the like for preventing the clogging of the ink nozzles.
[0040]
Further, a ROM (not shown) is connected to the CPU 7. In this ROM, a control program for image recording control for recording a color image on the recording paper P by controlling the carriage driving circuit 71, the paper transport driving unit 72, and the recording head driving unit 73, and the maintenance driving unit 74 are controlled. A control program for maintenance control for executing a maintenance process such as a prime process is stored.
[0041]
Further, the CPU 7 is connected to a communication interface (not shown) which is connected to a host computer or the like via a connection cable and can receive image data transmitted from the host computer or the like.
[0042]
Further, the CPU 7 can receive an output signal from the carriage movement detecting means 75. The carriage movement detecting means 75 detects the position of the carriage 51, and the CPU 7 receives this detection signal and controls the carriage drive circuit 71.
[0043]
The control unit has a dot counter 77, and an output signal from the dot counter 77 is transmitted to the CPU 7. The dot counter 77 recognizes, based on image information, the number of dots (ink droplets) ejected on the recording paper P in accordance with the execution of the image forming operation. The count is performed for each of the ink cartridges 81 to 84 from the time when the ink cartridge is replaced with a new one, and the count is accumulated and stored. That is, by confirming the number of dots, the remaining amount of ink in each of the ink cartridges 81 to 84 can be estimated.
[0044]
Further, the control unit is provided with an ink empty detection memory 78 for storing the ink cartridges 81 to 84 that have been recognized by the dot counter 77 that the remaining ink amount has become substantially “0”.
[0045]
One of the features of the present embodiment is that the attitude of the ink cartridge whose ink remaining amount becomes substantially “0” on the carriage 51 is changed based on the number of dots counted by the dot counter 77. That is, there is provided a posture changing means 9 for causing the position to be changed. Hereinafter, the posture changing means 9 will be described.
[0046]
As shown in FIG. 4 (a cross-sectional view of the carriage 51 on which the ink cartridge 83 is mounted) and FIG. 5 (a perspective view of the carriage 51 on which the ink cartridges 81 to 84 are mounted), the attitude changing means 9 is mounted on the carriage 51. The printer includes a holding member 91 provided, a coil spring 92 as an urging member, and a release member 93 fixed to the printer main body side.
[0047]
The holding members 91 are arranged in a plurality (four in this embodiment) so as to face the mounting positions of the ink cartridges 81 to 84. Here, the holding member 91 arranged to face the M (magenta) ink cartridge 83 will be described as a representative. The holding member 91 includes a main body 91a extending upward from a rear end (right end in FIG. 4) of the carriage 51, and a claw 91b extending horizontally from the main body 91a toward the upper surface of the ink cartridge 83. And a locking portion 91c continuous with the main body portion 91a and extending above the claw portion 91b. That is, when no external force is applied to the holding member 91, the claw portion 91b presses the upper surface of the ink cartridge 83 as shown in FIGS. 4A and 5A. Is immovably held on the carriage 51.
[0048]
The coil spring 92 is mounted on the upper surface of the carriage 51. Specifically, a coil spring 92 is provided so as to surround the outer periphery of the ink introduction unit 55 for supplying ink from the ink cartridge 83 to the recording head 52. When the ink cartridge 83 is mounted on the carriage 51 as shown in FIG. 4A, the coil spring 92 is compressed, and an urging force for pushing the ink cartridge 83 upward acts on the lower surface of the ink cartridge 83. ing. That is, as shown in FIG. 4B, when the claw portion 91b of the holding member 91 is retracted from the upper surface of the ink cartridge 83, the ink cartridge 83 is moved upward by the urging force of the coil spring 92. It is configured.
[0049]
A locking piece 85 extending in the horizontal direction (left direction in FIG. 4) is protruded from a lower portion of the front surface of the ink cartridge 83, while a support pin 56 for pressing the locking piece 85 from above is provided on the carriage 51. (The locking pieces 85 and the support pins 56 are omitted in FIGS. 1 and 5). Therefore, when the ink cartridge 83 is moved upward by the urging force of the coil spring 92, the ink cartridge 83 is locked with the support pin 56, and the support pin 56 is used as a rotation center in FIG. It is configured to rotate counterclockwise in (b). Further, even in this rotating state, the support pin 56 presses the locking piece 85 from above, so that the ink cartridge 83 does not fall off the carriage 51.
[0050]
On the other hand, as shown in FIG. 1, the release member 93 is located opposite to the opening when the cover 11 is opened. The release member 93 is for releasing the holding state of the ink cartridge 83 by the holding member 91, and includes a main body 93a having an electromagnetic solenoid built therein and a release claw 93b extending horizontally from the main body 93a. ing. By switching between excitation and non-excitation of the electromagnetic solenoid, the release claw 93b can move horizontally with respect to the main body 93a (see the arrow in FIG. 4A). Specifically, when the electromagnetic solenoid is in the non-excited state, the release claw 93b does not contact the locking portion 91c of the holding member 91 as shown in FIG. Then, when the electromagnetic solenoid is in the excited state, as shown in FIG. 4B, the release claw 93b moves so as to be drawn into the main body 93a and is locked by the locking portion 91c of the holding member 91. The main body 91a of the holding member 91 is curved in a direction away from the ink cartridge 83. Due to the curvature of the main body portion 91a, the claw portion 91b of the holding member 91 retreats from the upper surface of the ink cartridge 83, and the ink cartridge 83 is rotated counterclockwise in FIG. Rotate in the direction. Thereby, the attitude of the ink cartridge 83 changes on the carriage 51.
[0051]
The ink jet printer 1 further includes a posture detecting means 10 capable of detecting a mounting posture of the ink cartridge 83 on the carriage 51. Hereinafter, the posture detecting means 10 will be described.
[0052]
As shown in FIG. 6, conductors 57 and 58 are embedded at two locations around the ink introduction section 55 on the upper surface of the carriage 51. On the other hand, a ring-shaped conductor 83a is embedded at a position on the lower surface of the ink cartridge 83 facing the ink introduction section 55. 6A, when the ink cartridge 83 is rotated upward, the conductor 83a on the lower surface of the ink cartridge 83 is separated from the conductors 57 and 58 on the upper surface of the carriage 51. The conductors 57 and 58 are insulated. On the other hand, when the ink cartridge 83 is mounted on the carriage 51 as shown in FIG. 6B, the conductor 83a on the lower surface of the ink cartridge 83 contacts the conductors 57 and 58 on the upper surface of the carriage 51. Then, these conductors 57 and 58 are in an energizable state. By recognizing the presence or absence of the energization, the mounting posture of the ink cartridge 83 on the carriage 51 can be detected. That is, it is possible to detect that the carriage 51 can be scanned (a state in which the image forming operation can be restarted) because the conductors 57 and 58 are energized after the replacement operation of the ink cartridge 83 is completed. It has become.
[0053]
Next, the characteristic portion of the platen 53 as the platen means will be described.
As described above, the platen 53 serves as a support for the recording paper P during printing. As shown in FIG. 7, concave portions 53a, 53a,... Extending in the transport direction of the recording paper P (a direction orthogonal to the paper surface of FIG. 7) are formed at a plurality of locations on the upper surface of the platen 53. Are formed at regular intervals in the main scanning direction except for a specific region (a region where the ink nozzles 52a and 52b face each other when an ink cartridge is replaced, which will be described later).
[0054]
On the other hand, in a portion facing the position of the carriage 51 when the ink cartridges 81 to 84 are exchanged, the ink nozzles 52a and 52b may be replaced with any one of the ink nozzles 81 to 84 even when the ink cartridges 81 to 84 are exchanged. The positions of the recesses 53a, 53a,... Are set so as to face the recesses 53a.
[0055]
Specifically, in FIG. 7, the position of the carriage 51 when the Bk (black) ink cartridge 81 is replaced, the position of the carriage 51 when the Y (yellow) ink cartridge 82 is replaced, and M (magenta), from the top. 3) shows the position of the carriage 51 when the ink cartridge 83 is replaced and the position of the carriage 51 when the C (cyan) ink cartridge 84 is replaced.
[0056]
When the ink cartridge is exchanged among the recesses 53a, 53a,..., The ink nozzles 52a, 52b are opposed to each other (the recesses denoted by α, β, γ in the drawing) are made of felt material or the like. Is provided. That is, when an ink droplet is dropped on this portion, the ink is absorbed by the ink absorber 53b.
[0057]
More specifically, ink absorbers 53b are provided in three concave portions α, β, γ adjacent to each other in FIG. Hereinafter, the concave portion α is referred to as a first concave portion, the concave portion β is referred to as a second concave portion, and the concave portion γ is referred to as a third concave portion. When the Bk (black) ink cartridge 81 is replaced, both the color nozzle 52a and the black nozzle 52b face the first concave portion α. When the Y (yellow) ink cartridge 82 is replaced, the color nozzle 52a faces the first recess α, and the black nozzle 52b faces the second recess β. When the M (magenta) ink cartridge 83 is replaced, both the color nozzle 52a and the black nozzle 52b face the second recess β. When the C (cyan) ink cartridge 84 is replaced, the color nozzle 52a faces the second recess β and the black nozzle 52b faces the third recess γ.
[0058]
As described above, the ink nozzles 52a and 52b face the recesses α, β, and γ provided with the ink absorber 53b even when any of the ink cartridges 81 to 84 is replaced. Therefore, even if the ink droplets drop from the ink nozzles 52a and 52b onto the platen 53 when the ink cartridges 81 to 84 are replaced, the ink is absorbed by the ink absorber 53b in the concave portion 53a. When an image is formed on the recording sheet P, when the recording sheet P is conveyed on the platen 53, the lower surface of the sheet does not contact the concave portion 53 a of the platen 53. For this reason, even if the ink droplets are dropped on the platen 53 when the ink cartridges 81 to 84 are replaced, in the subsequent image forming operation, the dropped ink will not adhere to the lower surface of the paper and stain the paper.
[0059]
Next, the operation when replacing the ink cartridge will be described. Here, a case where the remaining amount of ink in the M (magenta) ink cartridge 83 becomes substantially “0” and the replacement is performed will be described.
[0060]
During the image forming operation of the inkjet printer 1, the remaining amount of ink in each of the ink cartridges 81 to 84 is always detected based on the number of dots counted by the dot counter 77. When it is detected that the remaining amount of ink in the M ink cartridge 83 has become substantially “0”, the attitude of the M ink cartridge 83 on the carriage 51 is changed by the operation of the attitude changing means 9. Become. Hereinafter, a specific description will be given.
[0061]
If it is detected that the remaining amount of ink in the M ink cartridge 83 has become substantially “0” during the image forming operation or at the end of the image forming operation on one sheet of recording paper P, the inkjet printer 1 is first provided with the ink. The blinking of the ink replacement LED 12 and the display of “out of ink” (driver message display) on the screen of the personal computer connected to the inkjet printer 1 are performed. Thereby, the user knows that the ink cartridge 83 that needs to be replaced has occurred.
[0062]
Then, the user opens the cover 11 to replace the ink cartridge 83. The carriage driving circuit 71 scans the carriage 51 in conjunction with the opening of the cover 11, and the holding member 91 facing the ink cartridge 83 that needs to be replaced is operated to a position facing the release member 93 (FIG. 1). reference).
[0063]
Thereafter, the electromagnetic solenoid in the main body 93a of the release member 93 is excited, and the release claw 93b moves so as to be drawn into the main body 93a as shown in FIG. 4B. As a result, the main body 91a of the holding member 91 bends, the claw portion 91b of the holding member 91 retreats from the upper surface of the ink cartridge 83, and the urging force of the coil spring 92 causes the ink cartridge 83 to pivot the support pin 56 around the center. And rotates counterclockwise in FIG. 4B. Then, as shown in FIG. 8 and FIG. 5B, only the M ink cartridge 83 is in a state of being rotated to the near side, and has a mounting posture different from those of the other ink cartridges 81, 82 to 84.
[0064]
Therefore, the user can easily recognize the ink cartridge 83 to be replaced, and can perform an appropriate ink cartridge replacement operation without making a replacement error. Further, since the M ink cartridge 83 whose posture has been changed is rotated to the opening side (the front side of the user) obtained by opening the cover 11, the removal operation is easy.
[0065]
Further, in this rotating state, as shown in FIG. 4B, the support pins 56 press the locking pieces 85 from above, so that the ink cartridge 83 does not fall off the carriage 51. . Therefore, even if vibration is applied to the ink jet printer 1 in this state, the ink cartridge 83 does not fall off, and the mounting posture after the change is stably obtained.
[0066]
In general, the inside of the ink cartridge is in a negative pressure state, and when the ink cartridge 83 is mounted on the carriage 51, the negative pressure also acts on the ink nozzle 52a. Ink drops are prevented from dropping spontaneously from 52a. However, when the ink cartridge 83 is replaced, the negative pressure acting on the ink nozzle 52a is released with a change in the mounting posture, and there is a possibility that the ink droplet will fall naturally from the ink nozzle 52a. In the present embodiment, as described above, the recess 53a is formed in the platen 53, and the ink absorber 53b is provided in the specific recesses α, β, and γ. In the subsequent image forming operation, the dropped ink does not adhere to the lower surface of the paper and does not stain the paper.
[0067]
In the present embodiment, the opening obtained by opening the cover 11 is used as a space for the attitude of the ink cartridge 83 to change, so that it is not necessary to increase the size of the apparatus.
[0068]
-Control flow for ink cartridge replacement-
Next, a plurality of embodiments of a control flow at the time of ink cartridge replacement, which is an operation characteristic of the present invention, will be described.
[0069]
<First embodiment>
First, a first embodiment of the control flow at the time of ink cartridge replacement will be described with reference to FIGS. FIG. 9 is a flowchart showing the “ink remaining amount checking operation”. FIG. 10 is a flowchart showing the “cartridge automatic attachment / detachment flow”. In the first embodiment, a case will be described in which the cartridge replacement request is set when the remaining ink amount is substantially “0%” (that is, the cartridge is almost empty).
[0070]
First, the "ink remaining amount checking operation" will be described with reference to FIG. When the power of the inkjet printer 1 is turned on and the printer waits for a print command,
In step S1, the remaining amount of black ink is checked. When the remaining amount of the black ink is 0%, this is stored in the ink empty detection memory 78 of the CPU 7 (step S1A).
In step S2, the remaining amount of magenta ink is checked. If the remaining amount of magenta ink is 0%, this is stored in the ink empty detection memory 78 of the CPU 7 (step S2A).
In step S3, the remaining amount of yellow ink is checked. If the remaining amount of the yellow ink is 0%, this is stored in the ink empty detection memory 78 of the CPU 7 (step S3A).
In step S4, the remaining amount of cyan ink is checked. If the remaining amount of the cyan ink is 0%, this is stored in the ink empty detection memory 78 of the CPU 7 (step S4A).
In step S5, in the determination operation in steps S1 to S4, it is determined whether or not there is an ink cartridge having the remaining ink amount of 0%. If there is, the ink replacement LED 12 installed on the front of the printer blinks (step S6), and an ink cartridge with 0% remaining ink also exists on the printer driver of the external terminal (personal computer). Is displayed (step S6A). Thereafter, the flow proceeds to a cartridge automatic attachment / detachment flow described later.
If it is determined in step S5 that there is no ink cartridge with the remaining ink amount of 0%, it is determined that the inkjet printer 1 can perform printing, and the process proceeds to step S7.
In step S7, the inkjet printer 1 is in a printable state, and if print data is received (YES in step S7A), a printing operation is started (step S7B), and the operation ends after a predetermined printing operation. Then (step S7C), the process returns to step S1.
[0071]
Next, the "cartridge automatic attachment / detachment flow" will be described with reference to FIG.
First, in step S10, after checking the storage information in the ink empty detection memory 78, the carriage 51 scans and moves the ink cartridge with the remaining ink amount of 0% to the attachment / detachment position. That is, the carriage 51 is scanned to a position where the holding member 91 facing the ink cartridge that needs to be replaced faces the release member 93 (see FIG. 1).
In step S11, the release means solenoid (the electromagnetic solenoid) of the release member 93 facing the ink cartridge that has been moved to the attachment / detachment position is turned on, and the holding member 91 fixing the ink cartridge comes off the ink cartridge. The attitude of the ink cartridge changes.
In step S12, when the ink cartridge is released from the carriage 51 in step S11 (the mounting posture is changed), the cartridge presence sensor (the posture detecting means 10 constituted by the conductors 83a, 57, and 58) is activated. Turns off.
In step S13, after the cartridge presence sensor is turned off in step S12, the user opens the cover 11 to determine whether a front cover sensor (not shown) that detects opening and closing of the cover 11 is turned off. I do. Then, when the user opens the cover 11 and turns off the front cover sensor, the process proceeds to step S14.
In step S14, it is determined whether or not the ink cartridge has been replaced by the user. If the ink cartridge has been replaced, the cartridge presence sensor turns ON, and the process proceeds to step S15. On the other hand, when the replacement of the ink cartridge is not detected (the cartridge presence sensor remains OFF), the process waits for the replacement of the cartridge.
In step S15, after the ink cartridge has been replaced in step S14, it is determined whether or not the release switch 13 has been pressed. When the release switch 13 has been pressed, the inkjet printer 1 checks the ink empty detection memory 78 (step S15A). ).
In step S16, it is determined in the checking operation of the ink empty detection memory 78 in step S15A whether or not the remaining amount of ink of the ink cartridge of another color is also substantially “0”. If this determination is YES, Performs the same operation as the above-mentioned steps S10 to S16, and repeats this step operation until there is no ink cartridge whose remaining ink amount is substantially “0”.
In step S17, the ink empty detection memory 78 is checked, and when the remaining ink amount is substantially "0" and all the ink cartridges have been replaced with new ink cartridges, the capping operation of the inkjet printer 1 is performed. That is, after the carriage 51 is moved to the home position, capping is performed to prevent the recording head 52 provided on the carriage 51 from drying.
In step S18, after the capping operation is completed, the ink exchange LED 12 (blinking started in step S6) is turned off, and the message on the printer driver of the external terminal (the driver message displayed in step S6A) is also erased. I do.
In step S19, a message indicating that the cover 11 is open is displayed on the driver to urge the user to close the cover 11.
In step S20, when the cover 11 is detected to be closed in step S19 and the front cover sensor is turned on, the inkjet printer 1 starts the cleaning operation.
In step S21, after the cleaning is completed, the message on the driver (the driver message displayed in step S19) is erased, and the cartridge mounting / dismounting flow ends (step S22).
[0072]
As a result, the inkjet printer 1 can perform printing, and returns to step S7 (FIG. 9) to wait for reception of print data.
[0073]
In the present embodiment, as shown in steps S14 to S17, while the ink cartridge is released (in a posture in which the carriage is moved upward), the carriage 51 stays there and is scanned. There is no. For this reason, contact between the ink cartridge and the cover 11 or the printer casing, dropping of the ink cartridge into the device, and leakage of ink can be avoided. That is, the steps S14 to S17 constitute the scanning prohibiting means according to the present invention.
[0074]
Further, in the present embodiment, when there are a plurality of ink cartridges in which the remaining amount of ink is substantially 0%, the change of the attitude of the ink cartridge and the replacement thereof are performed for each ink cartridge. In other words, even if there are a plurality of ink cartridges in which the remaining amount of ink is approximately 0%, only one ink cartridge changes its attitude at all times. Since the posture of the other one ink cartridge is changed, the mounting of the ink cartridge does not occur, and the workability and the reliability of the replacement work can be improved.
[0075]
<Second embodiment>
Next, a second embodiment of the control flow at the time of ink cartridge replacement will be described with reference to FIGS. This embodiment relates to a control operation in a case where an ink cartridge having a remaining ink amount of approximately 0% cannot be replaced with a new one.
[0076]
The “ink remaining amount checking operation” in the control flow of the present embodiment is the same as that described in the first embodiment. Therefore, illustration and description are omitted here. Regarding the “cartridge automatic attachment / detachment flow”, the same operations (same steps) as those described in the first embodiment are assigned the same step numbers, and descriptions thereof are omitted.
[0077]
FIG. 11 is a flowchart showing the “cartridge automatic attachment / detachment flow” in the present embodiment. The difference from the “cartridge automatic attachment / detachment flow” (FIG. 10) in the first embodiment described above is that if it is confirmed in step S15 that the ink release switch has been turned on, then in step S15B, the replaced ink cartridge is removed. On the other hand, the remaining amount of ink is detected, and then the process proceeds to step S100.
In step S100, if the ink cartridge having the remaining ink amount of about 0% cannot be replaced in step S14 and the ink cartridge having the remaining ink amount of about 0% is reattached (determined by the remaining amount detection before step S100) This is stored in the ink empty detection memory 78 of the CPU 7 (step S100A), a capping operation is performed (step S100B), and the process proceeds to a secondary detection flow (FIG. 12) described later.
[0078]
As described above, a situation in which an ink cartridge having an ink remaining amount of about 0% is re-attached, for example, when the ink remaining amount of a certain ink cartridge becomes equal to or less than a predetermined amount and replacement is required, When there is no ink cartridge, there is a case where the ink cartridge once removed is attached again. The operations of the other steps in the “automatic cartridge attachment / detachment flow” shown in FIG. 11 are the same as the operations of the respective steps in the “cartridge automatic attachment / detachment flow” of the first embodiment.
[0079]
In the secondary detection flow shown in FIG. 12, first, in step S502, the ink exchange LED 12 is turned on, and then the process proceeds to step S101. That is, when it is confirmed in the ink remaining amount detection (steps S1 to S5) that there is an ink cartridge with the ink remaining amount of approximately 0%, the ink replacement LED 12 is blinked (step S6). When the ink cartridge having the amount of about 0% is attached again, the ink exchange LED 12 is turned on (step S502).
In step S101, when the user does not press the release switch 13 and turns off the power of the ink jet printer 1, the ink jet printer 1 has the ink empty detection memory 78 of the CPU 7 loaded with 0% remaining ink. (Reattachment of the ink cartridge described above) is stored.
In step S102, when the power of the ink jet printer 1 is turned on again, the ink exchange LED 12 is turned off and starts blinking (step S103), and steps S10 to S22 of the automatic cartridge attachment / detachment flow are performed. If the user presses the release switch 13 in step S101 (when the switch is turned ON), the ink jet printer 1 performs steps S10 to S22 of the cartridge attaching / detaching flow while the ink replacement LED 12 is on.
[0080]
As shown in the above steps S100 to S100B, even when the cartridge having the remaining ink amount of about “0” is remounted, the capping operation can be executed to prevent the recording head 52 from drying. . For this reason, the ejection operation of the ink droplet at the time of the next printing operation can be favorably obtained. Then, this step operation is repeated until the cartridge with the remaining ink amount of substantially “0” is removed.
[0081]
<Third embodiment>
Next, a third embodiment of the control flow at the time of ink cartridge replacement will be described with reference to FIGS. This embodiment is an embodiment in which the remaining ink value for determining that the ink cartridge needs to be replaced can be changed.
[0082]
The “cartridge automatic attachment / detachment flow” and the “secondary detection flow” in the control flow of the present embodiment are the same as those described in the second embodiment. Therefore, illustration and description are omitted here. Regarding the “ink remaining amount checking operation”, the same operations (same steps) as those described in the first embodiment are assigned the same step numbers, and descriptions thereof are omitted.
[0083]
FIG. 13 is a flowchart showing “ink remaining amount checking operation (print flow)” in the present embodiment. The difference between the “ink remaining amount checking operation” in the present embodiment and the “ink remaining amount checking operation” in the first embodiment is that in the first embodiment, the ink remaining amount in the ink cartridge is substantially “0”. When this happens, that fact is stored in the ink empty detection memory 78 of the CPU 7 (steps S1A to S4A). On the other hand, in the “remaining ink amount checking operation” in this embodiment, the “replacement request ink remaining amount value” for determining that the ink cartridge needs to be replaced can be set to an arbitrary value. For this reason, in the operation of determining the remaining amount of each ink, the replacement of the ink cartridge is determined based on whether or not the remaining amount of the ink in the ink cartridge falls below the “requested remaining amount of ink (set value in each step)”. It is determined whether or not it is necessary.
[0084]
FIG. 14 is a “printer driver setting flow” performed to set the “replacement request ink remaining amount value” for each ink cartridge. Hereinafter, the “printer driver setting flow” will be described.
In step S200, the status monitor of the printer driver is opened on the screen of the external terminal (personal computer). FIG. 15 shows a status window of the opened status monitor.
In step S201, a display screen of “requested ink remaining amount value” (default is 0%) is displayed on the opened status monitor. FIG. 16 shows a display screen of this “replacement request ink remaining value (ink replacement remaining amount setting)”, and the “replacement request ink remaining value” can be input for each ink cartridge.
In step S202, on this screen, the user inputs the "replacement request ink remaining amount value" for each ink cartridge, and registers it in the inkjet printer 1 (step S203).
[0085]
Thereby, the inkjet printer 1 can perform printing, and shifts to “ink remaining amount checking operation” (FIG. 13).
[0086]
As shown in steps S201 and S202, when the remaining amount of the ink cartridge for replacement of the ink cartridge (replacement request remaining ink value) is arbitrarily set and the ink runs out during printing (this This is a point in time when it is detected that there is no ink remaining in the setting. In other words, it is possible to eliminate waste of paper such as the fact that the set amount of ink is physically left. That is, if this “replacement request ink remaining amount value” is set to an appropriate value, a situation in which ink runs out during the image forming operation on one recording sheet P may occur. Can be avoided. If the ink runs out during the image forming operation on one recording sheet P, the recording sheet P and the ink used for the image formation are wasted. According to this, this waste can be avoided. That is, even if the remaining amount of ink reaches the “replacement request ink remaining value” during the image forming operation, it is possible to form an image on the entire surface of the recording sheet P during the image formation actually inside the ink cartridge. A certain amount of ink still remains, and the image forming operation on the recording paper P can be performed satisfactorily.
[0087]
<Fourth embodiment>
Next, a fourth embodiment of the control flow at the time of ink cartridge replacement will be described with reference to FIG. The present embodiment relates to a control operation that allows a printer driver to select an ink cartridge that needs to be replaced.
[0088]
FIG. 17 shows a “printer driver setting flow” and a “cartridge automatic attachment / detachment flow” in the present embodiment. Hereinafter, the “printer driver setting flow” and the “cartridge automatic attachment / detachment flow” will be described. Here, the same operations (same steps) as those described in the above-described embodiment are denoted by the same step numbers, and description thereof is omitted. In addition, the “ink remaining amount checking operation” and the “secondary detection flow” in the present embodiment are the same as those in the above-described embodiment, and thus illustration and description are omitted.
In step S301, an “ink removal setting screen” is displayed on the status monitor of the printer driver. FIG. 18 shows the display state of the "ink removal setting screen", in which the presence or absence of removal can be set for each ink cartridge.
In step S302, the user inputs ink removal settings on this screen, and transmits the removal information to the inkjet printer 1.
In step S303, the operation of removing the ink cartridge specified by the user in step S302 by the inkjet printer 1 is started. This removal operation is performed in steps S10 to S22 in the same manner as in the above-mentioned "cartridge automatic attachment / detachment flow".
[0089]
As shown in steps S301 to S303, the setting for removing the ink cartridge on the printer driver can be made on the screen, and the arbitrary ink cartridge can be forcibly removed regardless of the remaining ink amount. For this reason, for example, when once used, it has not been used for a long time, and when it is used again after a long time. By making it possible to replace all or only desired ones of the ink cartridges having the remaining ink amount, it is possible to mount a new ink cartridge.
[0090]
In the control flow of the present embodiment, if the release switch 13 is turned on without replacing the ink cartridge in step S14 (step S601), it is determined whether another ink cartridge has been removed (step S601). Step S602) If removed, the process returns to step S302. On the other hand, if the other ink cartridge has not been removed, the carriage 51 scans to the home position and waits (step S603), and starts blinking of the ink replacement LED 12 (step S604). At the same time, a driver message to that effect is displayed on the screen of the personal computer (step S605). Thereafter, it is determined in step S606 whether or not the ink cartridge has been replaced. If all the ink cartridges have been mounted (mounted on the carriage 51) (YES in step S607), the process returns to step S15. On the other hand, if any of the ink cartridges is not mounted, the printer stands by at the home position (step S608).
[0091]
<Fifth embodiment>
Next, a fifth embodiment of the control flow at the time of ink cartridge replacement will be described with reference to FIG. The present embodiment relates to a control operation for enabling selection of an ink cartridge requiring replacement by operating the inkjet printer 1.
[0092]
FIG. 19 shows an “ink cartridge selection flow” and a “cartridge automatic attachment / detachment flow” in this embodiment. Hereinafter, the “ink cartridge selection flow” and the “cartridge automatic attachment / detachment flow” will be described. Here, the same operations (same steps) as those described in the above-described embodiment are denoted by the same step numbers, and description thereof is omitted. Also in this embodiment, the “ink remaining amount checking operation” and the “secondary detection flow” are the same as those in the above-described embodiment, and thus illustration and description are omitted.
In step S401, the user opens the front cover 11. This turns off the front cover sensor.
In step S402, the carriage on which the ink cartridge is mounted scans so that the ink cartridge having the remaining amount of 0 becomes the ink cartridge attaching / detaching position.
In step S403, after confirming the ink cartridge whose mounting state is to be released (step S402A), when the user presses the release switch 13 provided on the front surface of the inkjet printer 1, the ink cartridge with zero remaining ink is released. The means solenoid is turned on, and the holding member 91 fixing the ink cartridge comes off.
[0093]
The subsequent operations in steps S12 to S22 and the operations in steps S601 to S608 are the same as those in the above-described flowcharts.
[0094]
As shown in steps S401 to S404 above, it is possible to forcibly remove the ink cartridge only by operating the inkjet printer 1 without connecting to the personal computer.
[0095]
If the determination in step S402A is NO, the user closes the front cover 11 (step S404), and then opens the front cover 11 (step S405), so that the next ink cartridge can be attached or detached. (Step S406), and the process returns to Step S402A.
[0096]
<Sixth embodiment>
Next, a sixth embodiment of the control flow at the time of ink cartridge replacement will be described. This embodiment relates to the display of the remaining amount of the ink cartridge. That is, as described above, when zero ink remaining amount is stored in the ink empty detection memory 78, the ink replacement LED 12 on the front of the inkjet printer 1 blinks (step S6). On the other hand, in step S14, when the ink cartridge having the remaining amount of ink of 0% is mounted again, the ink replacement LED 12 is turned on.
[0097]
For this reason, the user can determine the state of the ink cartridge at a glance by the ink exchange LED 12 simply by turning on the power of the inkjet printer 1 (without connecting to the personal computer).
[0098]
-Other embodiments-
In the above embodiment, the case where the present invention is applied to the color inkjet printer 1 has been described. The present invention is not limited to this, and can be applied to a monochrome type ink jet printer (one equipped with only one ink cartridge).
[0099]
In the above embodiment, the Bk ink cartridge 81 is larger than the color ink cartridges 82 to 84. The present invention is not limited to this, and can be applied to ink cartridges having the same capacity.
[0100]
Further, in the above-described embodiment, the holding member 91 holding the ink cartridge 83 that needs to be replaced is caused to face the release member 93 by scanning the carriage 51. The present invention is not limited to this, and a configuration in which the release member 93 moves in the main scanning direction to face the holding member 91 holding the ink cartridge 83 that needs to be replaced may be adopted.
[0101]
Further, the present invention is not limited to a serial-type inkjet printer that performs an image forming operation while the carriage 51 scans in the main scanning direction, and can be applied to a line-type inkjet printer that does not perform a scanning operation.
[0102]
【The invention's effect】
As described above, the present invention employs a configuration in which the posture of the ink cartridge on the carriage can be changed, and it is possible to determine whether the ink cartridge is to be replaced based on the change in the posture. For this reason, the user can easily recognize that the ink cartridge should be replaced by looking at the mounting posture of the ink cartridge. In particular, in a printer having a plurality of ink cartridges, only the ink cartridge that needs to be replaced has a different attitude from other ink cartridges, so that the user can easily recognize the ink cartridge to be replaced, and Mistakes can be prevented. Further, when there is an ink cartridge whose mounting posture on the carriage is different from the previous posture, the movement of the carriage in the main scanning direction is prohibited, so that the ink cartridge may be inadvertently dropped from the carriage. In addition, it is possible to prevent the remaining ink from leaking.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating an appearance of an inkjet printer according to an embodiment.
FIG. 2 is a side view illustrating an internal configuration of the inkjet printer.
FIG. 3 is a block diagram illustrating a configuration of a control unit of the inkjet printer.
FIG. 4 is a side view for explaining a change in attitude of the ink cartridge on the carriage.
FIG. 5 is a perspective view for explaining a change in the attitude of the ink cartridge on the carriage.
FIG. 6 is a diagram for explaining the configuration and operation of a posture detecting means.
FIG. 7 is a diagram illustrating a relationship between the position of a concave portion of a platen and the position of an ink nozzle when each ink cartridge is replaced.
FIG. 8 is a perspective view showing the appearance of the ink jet printer during an ink cartridge replacement operation.
FIG. 9 is a flowchart illustrating “ink remaining amount checking operation” in the first embodiment.
FIG. 10 is a flowchart illustrating a “cartridge automatic attachment / detachment flow” in the first embodiment.
FIG. 11 is a flowchart illustrating a “cartridge automatic attachment / detachment flow” according to the second embodiment.
FIG. 12 is a flowchart illustrating a “secondary detection flow” according to the second embodiment.
FIG. 13 is a flowchart illustrating “ink remaining amount checking operation” in the third embodiment.
FIG. 14 is a flowchart illustrating a “printer driver setting flow” according to the third embodiment.
FIG. 15 is a diagram illustrating a status window of a status monitor according to the third embodiment.
FIG. 16 is a diagram showing a display screen of “replacement request ink remaining amount” in the third embodiment.
FIG. 17 is a flowchart illustrating a “printer driver setting flow” and a “cartridge automatic attachment / detachment flow” in the fourth embodiment.
FIG. 18 is a diagram illustrating a display state of an “ink removal setting screen” according to the fourth embodiment.
FIG. 19 is a flowchart illustrating an “ink cartridge selection flow” and a “cartridge automatic attachment / detachment flow” in the fifth embodiment.
[Explanation of symbols]
1 color inkjet printer (inkjet image forming device)
13 Release switch (display)
51 carriage
81-84 ink cartridge
9 Attitude changing means
P Recording paper (recording medium)

Claims (8)

An ink jet image forming apparatus comprising: a carriage in which an ink cartridge is exchangeably mounted; and the carriage moves in the main scanning direction, and forms an image on a recording medium with ink supplied from the ink cartridge.
Posture changing means for changing the mounting posture of the ink cartridge on the carriage to a posture different from the case where the remaining ink amount is equal to or more than the predetermined amount when the remaining amount of ink in the ink cartridge falls below a predetermined amount. When,
When the mounting posture of the ink cartridge on the carriage is in a change state due to the operation of the posture changing unit, a scanning prohibiting unit that prohibits the carriage from moving in the main scanning direction is provided. Ink jet image forming apparatus. An inkjet image forming apparatus including a carriage on which a plurality of ink cartridges are individually exchangeably mounted, and which forms an image on a recording medium with ink supplied from each ink cartridge while the carriage moves in the main scanning direction. At
When the remaining amount of ink in any one of the ink cartridges falls below a predetermined amount, the mounting posture of the ink cartridge on the carriage is changed to the mounting position of another ink cartridge on which the remaining amount of ink is equal to or more than the predetermined amount. Posture changing means for changing the posture to a posture different from the posture,
Scanning inhibiting means for inhibiting movement of the carriage in the main scanning direction when the mounting attitude of at least one of the ink cartridges on the carriage is in a change state associated with the operation of the attitude changing means. An inkjet image forming apparatus characterized by the above-mentioned. The inkjet image forming apparatus according to claim 2,
When there are a plurality of ink cartridges in which the remaining amount of ink is less than the predetermined amount, the posture changing means changes the mounting posture of any one of the ink cartridges on the carriage to the carriage of another ink cartridge. After the replacement of the ink cartridge is completed, the mounting posture of the other ink cartridge on the carriage is changed to the mounting posture of the other ink cartridge on the carriage. Is configured to change to a different posture and repeat this operation for each ink cartridge until all ink cartridges whose remaining ink amount is less than a predetermined amount are completed. apparatus. The inkjet image forming apparatus according to claim 1, wherein
After replacing the ink cartridge, the carriage is configured to perform a capping operation on the carriage,
Even if the ink cartridge mounted on the carriage by the replacement operation has an ink remaining amount less than a predetermined amount, it is configured to perform the capping operation on the carriage after the replacement operation. An inkjet image forming apparatus characterized by the above-mentioned. The inkjet image forming apparatus according to claim 1, wherein
An ink jet image forming apparatus, wherein a "replacement request ink remaining amount value" for determining that the ink cartridge needs to be replaced can be arbitrarily set. The inkjet image forming apparatus according to claim 1, wherein
An ink jet image forming apparatus, wherein an ink cartridge to be replaced is designated on a display screen of a printer driver, and the designated ink cartridge is forcibly removed. The inkjet image forming apparatus according to claim 1, wherein
An ink jet image forming apparatus, comprising: a release switch capable of forcibly removing an ink cartridge by performing a pressing operation. The inkjet image forming apparatus according to claim 1, wherein
Equipped with a display unit that can display the remaining ink status of the ink cartridge,
The display unit is configured to have different display states when the remaining amount of ink falls below a predetermined amount during normal operation and when the ink cartridge whose remaining amount of ink is lower than the predetermined amount has not been replaced. An inkjet image forming apparatus, comprising:

Images