JP3865135B2 - Image forming apparatus - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an image forming apparatus including a line-type droplet discharge head.
[0002]
[Patent Document 1]
Japanese Patent Laid-Open No. 06-057192
[Patent Document 2]
JP 07-246711 A
[0003]
[Prior art]
Various recording systems have been developed as image recording apparatuses (image forming apparatuses) such as printers, facsimiles, and copying machines. Among them, an inkjet recording apparatus including an inkjet head is non-contact with a recording medium. It is widely used because high-density recording is possible, colorization is easy, and the apparatus can be miniaturized.
[0004]
Inkjet heads include piezoelectric actuators such as PZT, thermal actuators that use phase changes due to liquid film boiling using electrothermal transducers such as heating resistors, shape memory alloy actuators that use metal phase changes due to temperature changes, static actuators, A device including an electrostatic actuator using electric power or the like as energy generating means for ejecting ink is known.
[0005]
As such an ink jet recording apparatus, the demand for high speed recording has been increasing in recent years. Therefore, the width of the ink jet recording head for ejecting ink is increased, and the amount that can be recorded by one ink jet head scanning or recording medium conveyance A method for increasing the recording speed by increasing the number of inks has been studied and widely used in industrial fields such as textile printing and printing machines. For office use, products with a relatively narrow recording width such as card / label printers have been commercialized.
[0006]
Furthermore, as the price of electrophotographic color laser printers that can be printed on plain paper has been reduced and color printing machines have become popular, inkjet recording devices with a wider range such as A4 and A3 are also available. There is an increasing need for a recording apparatus equipped with a very long line-type ink jet head capable of recording a medium by one or several head scans or recording medium conveyance.
[0007]
By the way, plain paper is often used for office use, and there are many opportunities to record line drawings typified by characters, etc., so it is required to form a dark optical density in the black image area, and paper fibers In order to suppress the so-called feathering in which the ink bleeds along the ink, an ink having a relatively slow penetration speed into plain paper is often used.
[0008]
However, if the color ink is ejected without the black ink being dried, bleeding occurs at the boundary between the black ink and the color ink, and the quality of the recorded image is remarkably deteriorated. In particular, in a so-called full-line type ink jet recording apparatus that has a recording width equal to or larger than the recording medium width and completes recording with one paper conveyance, it is necessary to increase the ink discharge amount from the viewpoint of preventing white stripes.
[0009]
Furthermore, in order to suppress the landing deviation between colors due to cockling and the contact between the head and the recording medium, it is desirable to strike the color ink with less penetration of the black ink into the paper. It becomes more prominent.
[0010]
In this case, a method using a fixing means such as a heater has been proposed in order to accelerate the drying of the ink. However, the advantage of the ink jet recording apparatus is lost due to the increase in size and complexity of the apparatus, resulting in product costs and running costs. Will also rise.
[0011]
Therefore, as described in, for example, [Patent Document 1], an ink containing a substance having a cationic group (including positive ions) and an ink containing a substance having an anionic group are reacted on a recording paper. A method for insolubilizing the coloring material therein has been proposed. In addition, as an actual machine, an ink jet recording apparatus employing an ink set in which the black ink and the color ink have different ionic polarities and pH, or a fixing ink having different ionic polarities and pH for insolubilizing the separate black ink is ejected back and forth. An ink jet recording apparatus has been commercialized to suppress bleeding between black and color.
[0012]
In addition, in an ink jet recording apparatus, a mechanism for maintaining and recovering the performance of the recording head that ejects ink droplets is indispensable. The main function of the performance maintaining and recovering mechanism is to increase the viscosity of ink near the nozzle holes due to natural evaporation of ink. A cap function that covers with a cap member with high airtightness to prevent sticking, and discharge failure due to bubbles generated in the nozzle holes can be recovered by discharging ink, or ink can be sucked from the ink cartridge through the cap function. It consists of a discharge recovery function that fills the inside of the recording head.
[0013]
For example, as disclosed in [Patent Document 2], a wiping member for removing ink or foreign matter adhering to the nozzle surface, a capping member for suppressing drying of the nozzle port or adhesion of foreign matter, Each ink jet head of each color is equipped with a maintenance recovery device that integrates an ink receiving member for collecting ink that has been pre-discharged or forcibly discharged to remove thickened ink, bubbles, and foreign matter. In some cases, the recovery device is arranged between the ink jet heads of the respective colors, so that in the maintenance / recovery mode, the colors are simultaneously executed at the same time to shorten the time required for the maintenance / recovery operation.
[0014]
[Problems to be solved by the invention]
By the way, as a common problem of the ink jet recording method, there is a problem that a so-called ink mist having a very small volume that is not originally required for image formation occurs during recording. That is, when ink is ejected from the nozzles of the inkjet head, ink mist with a very small volume is also ejected from the nozzles at the same time as the main droplets that form an image. These ink mists adhere to the nozzle surface of the ink jet head and bend the ink ejection direction to make the landing position unstable, or drift in the recording apparatus to cause contamination.
[0015]
This ink mist is more likely to occur as the volume of ejected ink droplets becomes smaller, and in order to improve image quality, very small ink droplets such as several picoliters are ejected, so the occurrence of ink mist cannot be ignored. Yes.
[0016]
In particular, in an inkjet head using an electrostatic actuator or a thermal actuator as described above, it is difficult to eject a plurality of volumes of ink droplets from one nozzle. Since one pixel is formed and the number of ink mists increases in proportion to the number of ejections, the problem of ink mist becomes more obvious.
[0017]
As described above, in an ink jet recording apparatus using a reactive ink set, when ink mist adheres to the nozzle surface or in the vicinity of the nozzle and is insolubilized, white streaks, color misregistration, etc. are generated due to the ink droplet jetting bend. It becomes easy to do. Since the insolubilized ink is difficult to remove by the maintenance and recovery operations such as wiping, preliminary ejection, and forced discharge as described above, the time required for the maintenance and recovery operation becomes very long. Even at a high speed, the total printing speed decreases, and high-speed recording, which is an advantage of the line-type ink jet recording apparatus, cannot be obtained.
[0018]
In addition, the life of the filter for reusing the ink forcibly discharged from the wiping blade or nozzle for wiping is remarkably shortened, and in the worst case, the inkjet head itself may not be used. Furthermore, maintenance and recovery operations such as wiping and capping, and adjustment of the distance between the paper between the inkjet head and the recording medium may adhere to mechanical parts such as motors and gears, causing malfunctions. Frequent maintenance and parts replacement Etc. will be forced.
[0019]
SUMMARY An advantage of some aspects of the invention is that it provides an image forming apparatus capable of stable high-speed recording and shortening a standby time required for a reliability recovery operation.
[0021]
[Means for Solving the Problems]
To solve the above problem, An image forming apparatus according to the present invention discharges a plurality of liquids having at least one combination of a first liquid and a second liquid that insoluble or solidifies a contained material in the liquid when mixed, and each liquid. In an image forming apparatus including a line-type droplet discharge head having a nozzle for discharging, when recording without discharging the first liquid and discharging the second liquid, the droplet discharge head for discharging the second liquid And a recording means for partitioning the recording medium.
[0022]
Also, An image forming apparatus according to the present invention discharges a plurality of liquids having at least one combination of a first liquid and a second liquid that insoluble or solidifies a contained material in the liquid when mixed, and each liquid. In an image forming apparatus including a line-type droplet discharge head having a nozzle for discharging a first liquid, a droplet discharge head that discharges the first liquid when recording without discharging the second liquid In addition, the droplet discharge head that discharges the second liquid is separated from the recording medium, and the partition unit that partitions the droplet discharge head that discharges the second liquid and the recording medium is provided.
[0023]
Here, in the image forming apparatus provided with the partition unit, the partition unit is provided with a through hole through which the droplet discharge head can pass and a lid member capable of opening and closing the through hole independently. It is preferable. Further, the partition means includes a wiping member for cleaning the nozzle surface, a capping member for capping the nozzle surface, a receiving member for recovering the liquid that is pre-discharged or forcedly discharged, or the wiping member, the capping member, and It is preferable that at least two of the receiving members include a maintenance / recovery device provided integrally.
[0024]
In the image forming apparatus including the lid member, the lid member collects a wiping member for cleaning the nozzle surface, a capping member for capping the nozzle surface, and liquid that is preliminarily discharged or forcibly discharged. It is preferable that the receiving member is a maintenance member that is integrally provided with at least two of the wiping member, the capping member, and the receiving member.
[0025]
Further, the combination of the first liquid and the second liquid is a black ink and a fixing processing liquid, or the combination of the first liquid and the second liquid is a black ink and a color ink. be able to.
[0026]
In the present specification, “liquid” means an image recording medium, and not only ink used for general image recording, but also, for example, textile printing, electric / electronic circuit formation, electron emission element formation, color It means to include liquids used in filter manufacturing, photoresist patterning, DNA chip manufacturing, processing, and processes. “Recording medium” means “liquid” in the above sense and “recording”. "Means that the liquid is attached to the" recording medium "in the above sense using" liquid "in the above sense.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. First, FIG. 1 shows a schematic side view of an ink jet recording apparatus which is an image forming apparatus to which the present invention is applied. This ink jet recording apparatus has a plurality of line type liquid droplet ejection heads 11Bk, 11S, 11C, 11M, and 11Y (hereinafter also collectively referred to as “head 11”) arranged side by side in the conveyance direction of the recording medium 1. ing. Each of these heads 11Bk, 11S, 11C, 11M, and 11Y includes a plurality of nozzle rows 12bk, 12s, 12c, 12m, and a plurality of nozzles or a plurality of nozzles in the line direction (direction perpendicular to the recording medium conveyance direction). 12y (hereinafter also collectively referred to as "nozzle 12").
[0028]
Here, the heads 11Bk, 11C, 11M, and 11Y are heads that eject black (Bk) ink, cyan (C) ink, magenta (M) ink, and yellow (Y) ink, respectively, and ink tanks 21Bk, 21C, Ink is supplied from 21M and 21Y, respectively. The head S is a head that discharges a fixing processing liquid (fixing in), and the processing liquid is supplied from the processing liquid tank 21S. The ink tanks 21Bk, 21S, 21C, 21M, and 21Y are also collectively referred to as “ink tank 21” hereinafter.
[0029]
Below these heads 11, a transport belt 31, which is an endless belt, which is a paper transport means for transporting the recording medium 1, is spanned between two rollers 32, 33. A platen 34 for maintaining the flatness of the belt 31 is disposed on the inner surface of the transport belt 31 on the head 11 side. In addition, a cleaning unit 35 is provided for removing ink, paper dust, and the like adhering to the surface of the transport belt 31. As the transport belt 31, it is preferable to use an electrostatic transport belt that is charged by a charging means (not shown) and attracts the recording medium 1 with an electrostatic force.
[0030]
A pair of registration rollers 36 driven by a conveyance motor (not shown) and a pair of guide plates 37 are arranged on the entrance side of the conveyance belt 31, and the registration registration of the leading edge of the paper 1 is performed by the registration rollers 36. The recording medium 1 is fed onto the conveyance belt 31. Then, the recording medium 1 is conveyed by the conveying belt 31 in the direction indicated by the arrow, and ink is ejected from the required head H to record an image.
[0031]
In this ink jet recording apparatus, the black ink is ejected from the head 11Bk to the front end portion of the head 11 and the fixing ink is not ejected from the head 11S, as will be described later. A partition member 41 is provided as a partition means for partitioning. The partition member 41 is disposed between the recording medium 1 transported by the transport belt 31 and the upper portion 40 of the ink jet recording apparatus.
[0032]
The partition member 41 includes maintenance / recovery devices 51Bk, 51S, 51C, 51M, and 51Y (hereinafter also collectively referred to as “maintenance / recovery device 51”). As shown in detail in FIG. 2, the maintenance / recovery device 51 has an ink receiving chamber 53 for preliminarily ejecting or forcibly discharging thickened ink, foreign matters clogged in the nozzles, and bubbles remaining in the head. An ink receiving member 52, a capping member 54 for contacting the nozzle surface 12a of the head 11 and preventing the nozzle 12 from drying and adhering foreign matter, and a wiping blade 55 for wiping the nozzle surface 12a of the head 11 Are integrally formed, and a discharge port 56 for discharging ink from the ink receiving chamber 53 is formed in the ink receiving member 52.
[0033]
These maintenance / recovery devices 51 are moved relative to the head 11 so that the wiping member 55 contacts the nozzle surface 12a of the head 11 and remains attached to the nozzle surface 12a as shown in FIG. Wiping is performed to remove the ink and the like. Further, when capping, the nozzle surface 12a of the head 11 is capped by the capping member 54 by operating relatively in the direction of the arrow shown in FIG.
[0034]
Next, an ink circulation system of one type of ink will be described with reference to FIG.
The head 11 has an ink supply unit 13, an ink discharge unit 14, a plurality of nozzles 12, and a common liquid chamber 15 that communicates with each nozzle 12.
[0035]
In the image formation by the head 11, the pressure generating means is driven based on a drive signal from a control circuit (not shown) to pressurize the ink in the flow path and eject ink droplets from a nozzle onto a recording medium such as recording paper. Is done.
[0036]
The head 11 is a so-called full-line type ink jet head, and has nozzles arranged over the recording width. For example, when recording in the A4 size short direction, the nozzle arrangement density is 600 dpi or more and the recording width is 8 The head structure has 4800 or more nozzles over an inch width.
[0037]
The head 11 is a thermal head in which a heater as an electrothermal converter that heats ink and discharges it as droplets through a nozzle due to a film boiling phenomenon is formed through a protective layer in the ink flow path. Piezo-type head that discharges droplets by deforming the plate with an electromechanical transducer such as a piezoelectric element, electrostatic head that discharges droplets by deforming the diaphragm with electrostatic force, metal phase change due to temperature change Various heads such as a head using a shape memory alloy for the actuator portion can be used.
[0038]
The ink tank 21 that stores ink to be supplied to the head 11, the sub tank 22 that temporarily stores ink supplied from the ink tank 21, and the cap member 54 that caps the nozzle formation surface of the head 11 are included. The ink receiving member 52, a supply pump 23 for pumping ink from the ink tank 21 to the sub tank 22, and a recovery pump 24 for recovering ink to the ink tank 21 are provided.
[0039]
Here, in order to supply ink to the head 11, the sub tank 22 and the ink supply unit 13 of the head 11 are connected via a supply path 121 made of a tube or a pipe, and the supply path 121 can be controlled to be opened and closed. A valve (valve) 122 is interposed. In addition, in order to discharge ink from the head 11 and circulate, the ink discharge portion 14 of the head 11 and the ink tank 21 are connected via a discharge path 123 formed of a tube or a pipe. The discharge passage 123 is provided with a discharge valve (valve) 124 that can be controlled to open and close.
[0040]
Further, a supply pump 23 is provided between the ink tank 21 and the sub tank 22 to pressure-feed ink from the ink tank 21 to the sub tank 22 side.
[0041]
On the other hand, as described above, the ink receiving member 52 is provided to collect ink ejected from the nozzles 12 of the head 11 in the recovery operation. The ink receiving member 52 and the ink tank 21 are connected via a recovery path 125, and the recovery path 125 is provided with a recovery valve 126 and a filter 127 that can be controlled to open and close, and the recovered ink is pumped to the ink tank 21. A recovery pump 24 is provided for this purpose.
[0042]
In addition, the ink tank 21 is provided with an atmosphere opening port 128 and an atmosphere opening valve 129 for communicating the inside of the ink tank main body with the atmosphere, and is provided with an ink remaining amount sensor for detecting the liquid level, although not shown. ing.
[0043]
In this ink circulation system, pre-discharge or forced discharge for the purpose of eliminating inks that cause ink discharge defects such as thickened ink in the non-discharge nozzles of the head 11 and clogging of dust and bubbles retained in the common liquid chamber 15. When the ink is discharged, the nozzle surface 12a of the head 11 is first capped with a capping member 54 as shown in FIG.
[0044]
Then, in forced ink discharge, the supply pump 23 is operated with the supply valve 122 and the discharge valve 124 open, and the influence of the pump pulsation is reduced, through the sub ink tank 21 → the supply valve 122 → the ink supply unit 13. Ink is fed into the head 11. As the ink pressure in the common liquid chamber 15 of the head 11 increases, a part of the ink is forcibly discharged from the nozzle 12 to the ink receiving member 52, and a part of the ink tank 21 passes through the ink discharge unit 14 → discharge valve 124. Returned to
[0045]
The ink discharged to the ink receiving member 52 is sucked by the recovery pump 24, filters dust and the like with a filter 127 disposed in the middle, and then returns to the ink tank 21 through the recovery valve 126.
[0046]
In this inkjet recording apparatus, the fixing ink (fixing treatment liquid) discharged from the head 11S contains a component having an ionic polarity opposite to that of the black ink discharged from the head 11Bk. The color material components are agglomerated and insolubilized to suppress the interdiffusion of the black ink and the color ink on the recording medium 1.
[0047]
The color material contained in the ink is most preferably a pigment ink that has good water resistance, light resistance, and color development for both black and color inks. However, plain paper such as office is mainly used, and line drawing is also used. When used in an environment where the printing ratio is high, it is possible to use a dye ink suitable for a character image only as a black ink by using a dye ink having a high permeation rate into plain paper as a color ink. Dye ink may be used for both black ink and color ink.
[0048]
A feature of the present invention is that, as described above, when the ink set has an ink set that insolubilizes the color material in the ink when mixed, the ink that is insolubilized when mixed with the ink mist generated during recording is discharged and recorded. The configuration is such that the spatial distance in which the ink mist can move is increased or disabled between the inkjet head that is not used inside and the recording medium.
[0049]
As such a configuration, (1) a configuration in which the head 11 that is not used for recording is separated from the recording surface, and (2) a configuration in which an obstacle to ink mist movement is disposed between the recording medium and the head can be employed.
[0050]
Therefore, a first embodiment in which these configurations (1) and (2) are combined will be described with reference to FIGS. 6 is an explanatory plan view of a main part for explaining the relationship between the head, the maintenance / recovery device, and the partition member in the discharge mode, FIG. 7 is a side explanatory view, and FIG. 8 is a side view of the head, the maintenance / recovery device, and the partition member in the isolation mode. FIG. 9 is an explanatory side view of the main part for explaining the relationship.
[0051]
First, the head 11 is disposed so as to be vertically movable along a guide rail 18 attached to a frame (fixing means) 17. A through hole 42 through which the head 11 can pass is formed in the partition member 41. Further, guide rails 43 and 43 are provided on the upper surface of the partition member 41 so that the maintenance and recovery device 51 can be guided in the guide rails 43 and 43 and moved in the recording medium conveyance direction.
[0052]
The ejection mode is a mode in which droplets are ejected toward the recording medium 1. In this ejection mode, the head 11 moves downward from the through hole 42 of the partition member 41 as shown in FIGS. 6 and 7. Thus, the nozzle surface 11 a of the head 11 is positioned below the partition member 41, and the head 11 and the recording medium 1 are held at a constant inter-paper distance D. The maintenance / recovery device 51 is in a standby state next to the head 11. Thereby, droplets can be ejected from the head 11 onto the recording medium 1.
[0053]
The isolation mode is a mode in which droplets are not ejected from the head 11 during recording (the head 11 is not used for recording). In this isolation mode, as shown in FIGS. 8 and 9, the head 11 and the recording medium In order to increase the distance to 1, the head 11 is raised along the guide rail 18 and moved upward from the partition member 41. At the same time, the maintenance / recovery device 51 is moved below the head 11 along the guide rail 43 in order to close the through hole 42 that is completely opened by the movement of the head 11.
[0054]
As a result, the ink mist generated on the recording surface of the recording medium 1 is blocked by the partition member 41 and the maintenance / recovery device 51, and is thus less likely to adhere to the head 11. Although a lid member for closing the through hole 42 may be provided separately, the maintenance / recovery device 51 also serves as a lid member to close the maintenance / recovery device 51, thereby reducing the number of parts and reducing the product cost. .
[0055]
Further, if necessary, the maintenance / recovery device 51 is moved horizontally to perform wiping, the head 11 is moved up and down to capping the nozzle surface 12a, and maintenance and recovery operations such as preliminary ejection and forced discharge are performed while capping. The functional units (the capping member 54, the wiping member 55, etc.) of the maintenance / recovery device 51 are located above the partition member 41, and can be isolated from the recording medium 1 during recording in both the discharge mode and the isolation mode. Therefore, it is possible to suppress the ink mist from adhering.
[0056]
Here, the partition member 41 as the partition means includes the maintenance and recovery device 51 in which the wiping member 55, the capping member 54, and the receiving member 53 are integrally provided. However, the wiping member 55, the capping member 54, and the receiving member are provided. A maintenance / recovery device including at least two members 53 or a single wiping member 55, capping member 54, and receiving member 53 may be provided. As a result, a head that is not used for recording can be maintained and recovered during recording, and the switching time for different recording modes can be shortened, resulting in higher speed.
[0057]
Further, as described above, when a lid member that opens and closes the through hole of the partition member is provided, the lid member includes a wiping member for cleaning the nozzle surface, a capping member for capping the nozzle surface, preliminary discharge or forced discharge. The number of parts can be reduced by using either a receiving member for collecting the liquid to be collected or a maintenance / recovery device in which at least two of the wiping member, the capping member, and the receiving member are integrally provided.
[0058]
Next, the state of each head and the maintenance / recovery device for each recording mode will be described with reference to FIGS.
First, when the recording medium 1 is in a recording mode in which color recording is performed on plain paper, since the fixing ink (processing liquid) of the head 11S is used, as shown in FIGS. 10 and 11, all the heads 11Bk, 11S, 11C, 11M, and 11Y are set to the discharge mode position. The maintenance / recovery operation may be performed simultaneously for all the heads 11Bk, 11S, 11C, 11M, and 11Y, or may be performed independently for each color.
[0059]
In the recording mode in which an ink receiving layer such as coated paper is formed in advance and the fixing ink head 11S does not need to be used, the head 11S is isolated as shown in FIGS. The heads 11Bk, 11C, 11M, and 11Y are set to the ejection mode position by moving to the mode position.
[0060]
Further, in a recording mode that does not use color ink such as text documents, as shown in FIGS. 14 and 15, the fixing ink head 11S, the color ink heads 11C, 11M, and 11Y, and the maintenance / recovery devices 51S and 51C. , 51M, 51Y are moved to the isolation mode position.
[0061]
In the recording mode (first recording mode) in which the black ink is ejected and the fixing ink is not ejected, that is, the first liquid is ejected and the second liquid is not ejected. By setting the head 11S of the fixing processing liquid) to the isolation mode and increasing the distance between the head 11S and the recording medium 1, it is possible to reduce the adhesion and sticking of the attached ink mist, thereby maintaining and recovering. The maintenance frequency of equipment parts and consumables can be reduced and the service life can be extended.
[0062]
Further, by allowing each color head to execute the isolation mode independently and disposing the partition member 41 and the maintenance / recovery device 51 above the recording medium 1, a maintenance / recovery operation during recording becomes possible, and different recording modes are provided. Even when the is issued continuously, the interruption time of printing by the maintenance and recovery operation can be shortened.
[0063]
For example, when a command for executing a recording mode (second recording mode) using the fixing ink continuously is issued while printing is performed for a long time in the first recording mode that does not use the fixing ink. Assuming that the maintenance recovery operation of all the heads 11 can be executed only at the same time, the recording operation is temporarily interrupted in order to execute the recovery operation of the head used in the first recording mode and the head not used. It is necessary to perform the maintenance / recovery operation of all the heads 11Bk, 11S, 11C, 11M, and 11Y.
[0064]
On the other hand, when the isolation mode and the maintenance / recovery operation can be executed independently, the maintenance / recovery operation of the unused head can be executed during the execution of the first recording mode. The switching time from the recording mode to the second recording mode can be shortened. Further, since the maintenance / recovery operation can be performed in a divided manner, the maximum power can be suppressed, so that the power supply capacity can be reduced, and the apparatus can be reduced in size and cost.
[0065]
More preferably, if the operation of maintaining and recovering the head in the isolation mode that is not used for recording is performed at regular intervals, the recording mode is immediately shifted to the next recording mode regardless of which recording mode print command is issued. be able to.
[0066]
In the first embodiment, the color ink heads 11C, 11M, and 11Y can move independently for each color. However, the color ink heads are basically used at the same time. 11C, 11M, and 11Y and their maintenance / recovery device heads 51C, 51M, and 51Y can be integrated or fixed to a common support member, and the isolation mode can be executed with a common drive means or a common drive signal. In fact, each color is rarely used alone, and by using it in common, the number of parts and the amount of data for driving can be reduced, reducing the product cost and shortening the processing time in the maintenance recovery mode. it can.
[0067]
Therefore, different examples of the second embodiment will be described with reference to FIGS. 16 is an explanatory plan view of the main part of the first example of the embodiment, FIG. 17 is an explanatory side view of the main part, FIG. 18 is an explanatory plan of the main part of the second example of the embodiment, and FIG. It is principal part side surface explanatory drawing.
[0068]
First, the first example shown in FIGS. 16 and 17 includes a color head unit 11U and a maintenance / recovery device unit 51U corresponding to the color head unit 11U. The color head unit 11 </ b> U is configured such that the heads 11 </ b> C, 11 </ b> M, and 11 </ b> Y for each color are fixed and held on a common support member 61, and the support member 61 moves up and down along the guide rail 18. The maintenance / recovery device unit 51U includes the common ink receiving member 62 provided with the ink receiving chamber 53, the capping member 54, and the wiping member 55, which are independent of each other, corresponding to the heads 11C, 11M, and 11Y.
[0069]
18 and 19 includes a color head 11A and a maintenance / recovery device 51A corresponding to the color head 11A. The color head 11 </ b> A is a single head having a plurality of nozzle rows that discharge each color ink (either one nozzle forming member or a head integrated with each color nozzle forming member may be used). The color head 11 </ b> A is moved up and down along the guide rail 18.
[0070]
The partition member 41 is formed with a through hole 42 ′ wider than the through hole 42 corresponding to the wide color head 11 </ b> A (wide in the recording medium conveyance direction).
[0071]
Further, the maintenance / recovery device 51A is provided with the ink receiving chamber 53 and the capping member 54, which are independent of each other, corresponding to each nozzle row of the color head 11A, and one wiping member 55 on the common ink receiving member 63. It is.
[0072]
According to the second example, it is effective when a color ink set having a high permeation speed is used, the distance between colors can be reduced, the influence of cockling can be reduced, and the apparatus can be miniaturized.
[0073]
Next, a third embodiment of the present invention will be described with reference to FIGS. 20 is an explanatory plan view of the main part of the embodiment, FIG. 21 is an explanatory side view of the main part, FIG. 22 is an explanatory plan view of the main part for explaining the maintenance and recovery operation of the embodiment, and FIG. FIG.
In this embodiment, the heads 11 </ b> Bk, 11 </ b> S, 11 </ b> C, 11 </ b> M, and 11 </ b> Y are provided so as to be movable up and down along the guide rails 18 attached to the head support 65. The partition member 41 is provided with maintenance / recovery devices 51Bk, 51S, 51C, 51M, and 51Y corresponding to the heads 11Bk, 11S, 11C, 11M, and 11Y integrally or fixedly.
[0074]
In this embodiment, in the recording mode in which the fixing ink is not used, the head 11S is raised to increase the distance from the recording medium 1, as shown in FIG.
[0075]
In the maintenance and recovery operation, as shown in FIGS. 22 and 23, the head support 65 is moved in the left-right direction (recording medium transport direction) with all the heads 11Bk, 11S, 11C, 11M, and 11Y raised. The heads 11Bk, 11S, 11C, 11M, and 11Y are moved to positions corresponding to the maintenance / recovery devices 51Bk, 51S, 51C, 51M, and 51Y, and then the required heads 11Bk, 11S, 11C, 11M, and 11Y are lowered. Execute maintenance recovery operation.
[0076]
Note that the left and right movements of the heads 11 are simultaneously performed by being provided on the head support 65, but each head 11 can also be provided so as to be movable left and right independently.
[0077]
Next, a fourth embodiment of the present invention will be described with reference to FIGS. Note that FIG. 24 is a plan view of relevant parts of the embodiment, and FIG. 25 is a side view of relevant parts.
In this embodiment, the polarity of the components contained in the black ink and the color ink is made different so that the head for discharging the fixing ink is not mounted. When only black ink is used, the color ink color head 11A and the maintenance / recovery device 51A are moved to the isolation mode position, and black ink mist reactive to the color ink adheres to the nozzle surface of the color head 11A. Do not.
[0078]
As described above, by using an ink set that insolubilizes at least all or part of the black ink by combining black ink and fixing ink, or black ink and a plurality of color inks, the optical density of the black image is high, An image forming apparatus suitable for office use with less blur between colors can be obtained.
[0079]
In each of the above-described embodiments, an example in which four colors of inks Bk, C, M, and Y are used has been described. However, in order to improve the gradation of a line-type ink jet recording apparatus in which multiple scanning is difficult, light and shade are used. The present invention can be similarly applied to the case of using ink including ink.
[0080]
Further, although an ink jet recording apparatus is taken as an example, the image forming apparatus of the present invention can be applied to a facsimile machine, a copying machine, a printer / fax / copier multifunction machine, and the like. Further, the present invention can be applied to an apparatus for discharging and recording a liquid other than ink, for example, a resist or a DNA sample in the medical field. Further, the full line type image forming apparatus using the full line type head has been described, but the present invention can also be applied to a serial type image forming apparatus. However, the effect of the present invention is more remarkable in the full-line image forming apparatus.
[0081]
【The invention's effect】
As described above, according to the image forming apparatus according to the present invention, the first liquid out of the first liquid and the second liquid, in which the contained material in the liquid becomes insoluble or solidified when mixed, is discharged, In the recording mode in which the second liquid is not discharged, the distance between the droplet discharge head that discharges the second liquid and the recording medium is increased, or the distance between the droplet discharge head that discharges the second liquid and the recording medium is increased. Since it is partitioned, it is possible to suppress the mist generated from the droplet discharge head during recording from adhering to the vicinity of the nozzles of the droplet discharge head that is not used for recording, enabling stable high-speed recording, and reliability recovery operation. The waiting time required can also be shortened.
[Brief description of the drawings]
FIG. 1 is a schematic side view of an ink jet recording apparatus as an image forming apparatus according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram for explaining an example of the maintenance / recovery device of the same device
FIG. 3 is an explanatory diagram for explaining the operation during wiping of the maintenance and recovery device
FIG. 4 is an explanatory diagram for explaining the operation at the time of capping of the maintenance and recovery apparatus.
FIG. 5 is a schematic configuration diagram for explaining an ink circulation system of the recording apparatus.
FIG. 6 is an explanatory plan view of a main part for explaining the state of a head, a partition member, and a maintenance / recovery device in a discharge mode
FIG. 7 is also a side view of the main part
FIG. 8 is an explanatory plan view of a main part for explaining the state of the head, partition member, and maintenance / recovery device in the separation mode;
FIG. 9 is an explanatory side view of the main part.
FIG. 10 is an explanatory plan view for explaining an operation state of a recording mode in which fixing ink is used in the recording apparatus.
FIG. 11 is also a side explanatory view
FIG. 12 is an explanatory plan view for explaining an operation state of a recording mode in which the fixing ink is not used in the recording apparatus.
FIG. 13 is also a side explanatory view
FIG. 14 is an explanatory plan view for explaining an operation state of a recording mode in which only black ink is used in the recording apparatus.
FIG. 15 is also a side explanatory view
FIG. 16 is an explanatory plan view for explaining the first example of the second embodiment of the present invention;
FIG. 17 is a side view of the same.
FIG. 18 is an explanatory plan view for explaining a second example of the second embodiment of the present invention;
FIG. 19 is also a side explanatory view
FIG. 20 is an explanatory plan view for explaining the third embodiment of the present invention.
FIG. 21 is also a side explanatory view
FIG. 22 is an explanatory plan view for explaining the maintenance and recovery operation.
FIG. 23 is also a side explanatory view
FIG. 24 is an explanatory plan view for explaining the fourth embodiment of the present invention.
FIG. 25 is an explanatory side view of the same.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Recording medium 11, 11Bk, 11S, 11C, 11C, 11M, 11Y ... Line type droplet discharge head, 11U ... Head unit, 11A ... Color head, 41 ... Partition member, 42 ... Through-hole, 51, 51Bk, 51S, 51C, 51C, 51M, 51Y, 51A ... maintenance and recovery device, 51U ... maintenance and recovery device unit, 52 ... ink receiving member, 54 ... capping member, 55 ... wiping member.

Claims (7)

  Line-type liquid droplets having a plurality of liquids having at least one combination of a first liquid and a second liquid in which the contained material in the liquid is insolubilized or solidified when mixed, and nozzles for discharging each liquid In an image forming apparatus including an ejection head, when recording is performed without ejecting the first liquid and ejecting the second liquid, the recording medium is disposed between a droplet ejection head that ejects the second liquid and a recording medium. An image forming apparatus comprising partition means for partitioning.   Line-type liquid droplets having a plurality of liquids having at least one combination of a first liquid and a second liquid in which the contained material in the liquid is insolubilized or solidified when mixed, and nozzles for discharging each liquid In an image forming apparatus including an ejection head, when recording without ejecting the first liquid and ejecting the second liquid, the second liquid ejection head ejects the second liquid rather than the second liquid ejection head. An image forming apparatus comprising: a droplet discharge head that discharges a liquid; and a partition unit that separates the droplet discharge head that discharges the second liquid from the recording medium. . 3. The image forming apparatus according to claim 1 , wherein the partitioning unit is provided with a through hole through which the droplet discharge head can pass and a lid member capable of opening and closing the through hole independently. An image forming apparatus. 4. The image forming apparatus according to claim 1 , wherein the partition means includes a wiping member for cleaning the nozzle surface, a capping member for capping the nozzle surface, and a liquid that is pre-discharged or forcibly discharged. An image forming apparatus comprising: a receiving member for collecting, or a maintenance / recovery device in which at least two of the wiping member, the capping member, and the receiving member are integrally provided. The image forming apparatus according to claim 3, wherein the lid member is received for recovering the wiping member for cleaning the nozzle surface, capping member for capping the nozzle surface, the liquid to be preliminary ejection or forced ejection An image forming apparatus comprising: a member, or a maintenance / recovery device in which at least two of the wiping member, the capping member, and the receiving member are integrally provided. The image forming apparatus according to any one of claims 1 to 5, the image forming apparatus, wherein the combination of the first and second liquids are fixing processing liquid black ink.   7. The image forming apparatus according to claim 1, wherein the combination of the first liquid and the second liquid is black ink and color ink.

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