JP4345341B2 - Inkjet printer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ink jet printer that records an image on a recording medium by ejecting ink onto the recording medium with a head.
[0002]
[Prior art]
2. Description of the Related Art In recent years, many image recording apparatuses using an ink jet method have been used as image recording means capable of recording an image simply and inexpensively. An ink jet printer using an ink jet method ejects ink as fine droplets from a discharge port of a head toward a recording medium such as paper while moving the head on the recording medium, and permeates or fixes the ink to the recording medium. By doing so, an image is recorded on the recording medium.
[0003]
In recent years, an ink jet printer using an ultraviolet curable ink is known as an ink jet printer capable of forming an image even on a recording medium having a low ink absorbability such as a resin film (for example, Patent Document 1). reference). In this ink jet printer, the ink that has landed on the recording medium is irradiated with ultraviolet rays by an ultraviolet irradiation mechanism, whereby the ink is cured and fixed on the recording medium.
[0004]
However, in such an ink jet printer, when the recording operation is continuously performed, the mist-like ink ejected from the ejection port of the head adheres to and accumulates near the ejection port, and the ejection port is clogged. May occur. If the recording operation is continued in such a state, even if the head performs an ejection operation, ejection failure may occur, resulting in a problem in image recording.
[0005]
Therefore, in order to perform normal image recording, it is necessary to perform head maintenance at a predetermined timing. Accordingly, an ink jet printer equipped with a maintenance unit for performing head maintenance has been developed (for example, Patent Document 2). The maintenance operation by the maintenance unit includes a forced suction operation, a wiping operation, an empty discharge operation, and the like. Forced suction operation means that the surface on which the discharge port of the head is formed is covered with a cap member, and the suction port and the air bubbles remaining in the vicinity of the discharge port by sucking with the suction pump through this cap member. This is to remove dust and the like together with ink. The wiping operation is wiping off ink adhering to the surface on which the discharge ports are formed with a wiper blade. The idle ejection operation is an operation in which the head ejects ink idly and receives the ink. Since ink also adheres to such a maintenance unit, it is necessary to remove the ink attached to the maintenance unit, and the maintenance unit is manually cleaned.
[0006]
[Patent Document 1]
JP 2001-310454 A
[Patent Document 2]
Japanese Patent No. 2730930
[0007]
[Problems to be solved by the invention]
However, when the ink adhering to the maintenance unit is cured, it is difficult to remove the ink from the maintenance unit. When the ink jet printer is performing a maintenance operation by the maintenance unit, if the ultraviolet irradiation mechanism is turned off, the ink attached to the maintenance unit will not be cured. However, when the ink jet printer performs an image recording operation, the ultraviolet irradiation mechanism must be turned on, and ultraviolet rays emitted from the ultraviolet irradiation mechanism are incident on the maintenance unit due to reflection, diffraction, and the like. Therefore, it is desirable to shield the maintenance unit by some method. However, if the maintenance unit is shielded from light, it is difficult to check how much ink has adhered to the maintenance unit.
[0008]
SUMMARY OF THE INVENTION An object of the present invention is to provide an ink jet printer that can prevent ultraviolet rays from entering a maintenance unit even during an image recording operation and can confirm the state of the maintenance unit.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the claims 1 The invention described in (1) includes a head that has a discharge port and discharges ink that is cured by being irradiated with ultraviolet light from the discharge port toward a recording medium, and an ultraviolet irradiation mechanism that irradiates the recording medium with ultraviolet light. An ink jet printer that cures ink by irradiating ultraviolet rays by the ultraviolet irradiation mechanism with ink discharged from the discharge port and landed on the recording medium; a maintenance unit that performs maintenance of the head; and And a shielding unit having an ultraviolet shielding property and a visible light transmission property.
[0010]
Claim 1 In the invention described in (1), since the shielding unit has an ultraviolet shielding property and the maintenance unit is covered by the shielding unit, even if the ultraviolet rays emitted from the ultraviolet irradiation mechanism are reflected and diffracted during the image recording operation. The incident on the maintenance unit can be prevented. Therefore, it is possible to prevent the ink adhering to the maintenance unit from being cured, and the cleaning operation of the maintenance unit is facilitated.
Moreover, since the shielding unit has visible light permeability, the state of the maintenance unit covered by the shielding unit can be visually confirmed. Therefore, it is possible to easily grasp how much ink has adhered to the maintenance unit, and the cleaning timing of the maintenance unit is not missed. Furthermore, in order to grasp the state of the maintenance unit, it is not necessary to take out the maintenance unit from the shielding unit or to remove the shielding unit.
[0011]
Claim 2 The invention described in claim 1 In the ink jet printer according to claim 1, the shielding unit covers the outside of the maintenance unit and has an opening formed between the closed position where the opening is closed and the open position where the opening is opened. And a lid member provided so as to be freely movable, wherein the lid member has ultraviolet light shielding properties and visible light transmittance properties.
Claim 3 The invention described in claim 1 In the ink jet printer according to claim 1, the shielding unit covers the outside of the maintenance unit and has an opening formed between the closed position where the opening is closed and the open position where the opening is opened. And the lid member is provided so as to be movable, and the box body has ultraviolet light shielding properties and visible light transmittance properties.
[0012]
Claim 4 The invention described in claim 2 or 3. The ink jet printer according to claim 3, wherein the maintenance unit is provided so as to be movable between a position protruding from the opening to the outside of the box and a position within the box.
[0013]
Claim 2, 3, 4 In the invention described in (1), since the lid member opens and closes the opening of the box, maintenance can be performed on the head if the maintenance unit protrudes from the box through the opening during the maintenance operation. During the image recording operation, if the maintenance unit is covered with a box and the lid member closes the opening, the ultraviolet rays emitted from the ultraviolet irradiation mechanism will be incident on the maintenance unit even if reflected or diffracted. Can be prevented. Furthermore, since the lid member and the box have visible light permeability, the state of the maintenance unit can be visually confirmed.
[0014]
Claim 5 The invention described in claim 2 to 4 The inkjet printer according to any one of the above, further comprising an opening / closing mechanism that moves the lid member from the closed position to the open position.
[0015]
Claim 5 In the invention described in, the opening is opened and closed by the lid member automatically instead of manually.
[0016]
Claim 6 The invention described in claim 2 to 5 In the inkjet printer according to any one of the above, at least one of the lid member and the box is formed of an acrylic resin.
[0017]
Claim 6 In the invention described in (1), the acrylic resin has an ultraviolet shielding property and a visible light transmission property. Therefore, during the image recording operation, the maintenance unit is covered with the box, and it is possible to prevent the ultraviolet rays emitted from the ultraviolet irradiation mechanism from entering the maintenance unit even when reflected or diffracted. Furthermore, the state of the maintenance unit can be visually confirmed. Furthermore, since acrylic resin is relatively inexpensive, the cost of an ink jet printer does not increase even if a box and a lid member are provided.
[0018]
Claim 7 The invention described in claim 1 to 6 In the inkjet printer according to any one of the above, the maintenance unit discharges from the discharge port in a state of facing the discharge port after suction, and a suction cap that covers the discharge port when sucking ink from the discharge port. And a receiving portion for receiving the ink, and a blade for rubbing the head after suction.
[0019]
Claim 7 In the invention described in (2), since the maintenance unit is provided with the suction cap, the blade, and the receiving portion, the discharge state of the discharge port can be efficiently restored.
[0020]
Claim 8 The invention described in claim 1 to 7 In the inkjet printer according to any one of the above, the maintenance operation by the maintenance unit includes a suction operation for sucking ink from the head, a wiping operation for wiping ink adhering to the head, and an ejection port of the head. It includes at least one operation of receiving operation for receiving the ink ejected idle.
[0021]
Claim 8 In the invention described in (1), it is possible to prevent clogging of the nozzles of the head by performing maintenance operations such as a suction operation, a wiping process, and a receiving operation, and it is possible to always perform good image formation.
[0022]
Claim 9 The invention described in claim 1 to 8 In the ink jet printer according to any one of the above, the head is a liquid having a viscosity of 10 to 500 mPa · s at 30 ° C., heated to 30 to 150 ° C. by heating means, and 1 dot is 2 to 20 pl. The liquid droplets are discharged so as to form small droplets.
[0023]
Claim 9 In the invention described in the above, since a high-viscosity ink having a viscosity at 30 ° C. of 10 to 500 mPa · s is used, the ink does not flow on the recording medium even for a recording medium having no ink absorbability. Although high-quality image recording can be performed, the head maintenance operation can be efficiently performed even when such high-viscosity ink is used. Further, since the ink is heated to 30 to 150 ° C. and ejected from the head, the ink is ejected in a good state, so that image recording can be performed, and the ink is divided into small droplets of 2 to 20 pl per dot. Since the ink is discharged as described above, high-quality image recording is possible even with high-viscosity ink.
[0024]
Claim 10 The invention described in claim 1 to 9 The ink jet printer according to any one of the above, wherein the recording medium is made of a material that is non-absorbable with respect to the ink.
[0025]
In the case of recording an image on a recording medium that is non-absorbable with respect to ink, a high-viscosity ink is used to prevent the ink from flowing on the recording medium. 10 According to the invention described in the above, even in such a case, an appropriate and efficient maintenance operation for the head can be performed.
[0026]
Claim 11 The invention described in claim 1 to 10 The ink jet printer according to any one of the above, wherein the ink is a cationic polymerizable ink.
[0027]
Claim 11 In the invention described in (2), even when a cationically polymerizable UV curable ink is used, the ink is appropriately prevented from adhering to the maintenance unit, and sufficient maintenance operation can be performed even when continuous image recording is performed. High-quality images can be obtained.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the illustrated examples.
[0029]
FIG. 1 is a front view showing an inkjet printer 1 that records an image on a recording medium P by a serial recording method. The ink jet printer 1 includes a transport mechanism for transporting the web-shaped recording medium P. The transport mechanism includes a motor, a transport roller, and the like, and is configured to intermittently transport the recording medium P by the power of the motor. A platen 5 is disposed below the recording medium P conveyed by the conveyance mechanism. The platen 5 supports the recording medium P substantially flat from below.
[0030]
A carriage guide 2 is arranged above the platen 5 and the recording medium P. The carriage guide 2 extends in the main scanning direction A that is orthogonal to the conveyance direction in which the recording medium P is conveyed. In FIG. 1, the conveyance direction is a direction perpendicular to the drawing sheet.
[0031]
A carriage 3 is supported on the carriage guide 2 so as to be reciprocally movable in the main scanning direction A. The carriage 3 is moved along the carriage guide 2 by a power source such as a motor. Here, the central area in the movable range of the carriage 3 is the recording area Y, the area outside the recording area Y and on the one end side is the home area X, and the recording area Y is sandwiched between the home areas. A region opposite to X is a maintenance region Z. During the image recording operation, the carriage 3 reciprocates within the recording area Y, and when stopped, such as during standby or when the power is turned off, the carriage 3 is positioned within the home area X. During maintenance, the carriage 3 is within the maintenance area Z. To position. The platen 5 is disposed below the recording area Y.
[0032]
On the carriage 3, four heads 4, 4,... And two ultraviolet irradiation mechanisms 10, 10 are mounted. These four heads 4, 4,... Are arranged in a line along the main scanning direction A. A nozzle plate 42 is provided on the lower surface 41 of each head 4, and a plurality of ejection openings are formed in the nozzle plate 42. The head 4 is provided with a piezo element for each ejection port. The head 4 is provided so that ink is individually ejected from each ejection port by changing the pressure in the head 4 itself with a piezo element.
[0033]
The ink colors are yellow (Y), magenta (M), cyan (C), and black (K), and the ejected colors differ for each head 4. For any color ink, an ultraviolet curable ink that is cured by irradiation with ultraviolet rays is used.
[0034]
Each of the heads 4, 4,... Is provided with heating means such as a heater and a Peltier element. The ink inside the head 4 is heated to 30 ° C. to 150 ° C. by the heating means. The ink tank for storing ink may be provided with a heating means. In this case, the ink heated to 30 ° C. to 150 ° C. by the heating means is supplied from the ink tank to the heads 4, 4,. The heated ink is ejected from 4, 4,.
[0035]
Here, the ink and recording medium used in the embodiment of the present invention will be described. In particular, the ink is a “photoacid” in “Photocuring System (Chapter 4)” described in “Photocuring Technology—Selection of Resins / Initiators and Measurement / Evaluation of Curing Conditions—Technology Association Information”. -It is an ink suitable for a curing system using a base generator (Section 1), "light-induced alternating copolymerization (Section 2)", and the like. This ink is composed of a coloring material, a polymerizable monomer (or polymerizable oligomer), a photoinitiator, and the like, and is a monomer cross-link that accompanies the photoinitiator acting as a catalyst when irradiated with ultraviolet rays. It has the property of being cured by a polymerization reaction. However, as the ink used in the present embodiment, the photoinitiator may be excluded when an ink that conforms to the above-mentioned “light-induced alternating copolymerization (section 2)” is used.
[0036]
Ultraviolet curable inks are broadly classified into radically polymerizable inks containing radically polymerizable compounds and cationically polymerizable inks containing cationically polymerizable compounds as polymerizable compounds. Both inks are used in this embodiment. As the ink used in the present embodiment, a hybrid ink in which a radical polymerizable ink and a cationic polymerizable ink are combined may be used.
[0037]
However, a cationic polymerizable ink that has little or no inhibition of the polymerization reaction by oxygen is superior in functionality and versatility, and therefore, in the present embodiment, a cationic polymerizable ink is particularly used. The cationically polymerizable ink used in the present embodiment is specifically a mixture containing at least a cationically polymerizable compound such as an oxetane compound, an epoxy compound, and a vinyl ether compound, a photocationic initiator, and a coloring material. As described above, it has a property of being cured by irradiation with ultraviolet rays.
[0038]
The ink in the present embodiment is a liquid having a viscosity at 30 ° C. of 10 to 500 mPa · s. In order to obtain a high-quality image, it is desirable that the ink is 40 to 500 mPa · s. If the viscosity is less than 10 mPa · s, bleeding occurs on the recording medium and the recorded image deteriorates. If the viscosity is more than 500 mPa · s, the smoothness of the image quality is lost. This is because the image quality is stabilized when the viscosity is 40 to 500 mPa · s.
The ink is preferably a liquid of 3 to 30 mPa · s at 60 ° C., more preferably 3 to 20 mPa · s. This is because, if it is 3 mPa · s or less, problems such as inability to land accurately when high-speed discharge is performed, and if it is 30 mPa · s or more, the discharge performance deteriorates.
[0039]
The recording medium P may be formed of a material that is non-absorbable with respect to the ink ejected from the heads 4, 4,... It may be made of a material. In the present embodiment, an ink non-absorbing recording medium is used as the recording medium P from the viewpoint of recording a high-quality image on the recording medium P. Here, non-absorbing means that ink is not absorbed, but in the present invention, the amount of ink transferred in the Bristow method is 0.1 ml / mm. ² Substantially less than 0 ml / mm ² Such a recording medium is a non-absorbent recording medium, and the other recording medium is an absorptive recording medium.
[0040]
As the non-absorbent recording medium, for example, various non-absorbable plastics used for so-called soft packaging and films thereof can be used in addition to ordinary non-coated paper, coated paper, and the like. Examples of the various plastic films include PET film, OPS film, OPP film, ONy film, PE film, and TAC film. Examples of other plastics include polycarbonate, acrylic resin, ABS resin, polyacetal, PVA, and rubbers. The non-absorptive recording medium preferably has a surface energy in the range of 35 mN / m to 60 mN / m, and more preferably in the range of 40 mN / m to 60 mN / m. is there.
Examples of the absorbent recording medium include plain paper (copy paper) and high-quality paper.
[0041]
The ultraviolet irradiation mechanisms 10 and 10 are mounted on the carriage 3 on both sides of the main scanning direction A of the heads 4, 4. These ultraviolet irradiation mechanisms 10 and 10 irradiate ultraviolet rays downward. Here, the ultraviolet ray means light having a shorter wavelength than visible light (wavelength 380 nm to 780 nm) and longer wavelength than X-ray, and the upper end of the ultraviolet wavelength range is 380 to 400 nm, and the lower end of the wavelength range. Is 0.2-1 nm. The ultraviolet rays emitted from the ultraviolet irradiation mechanisms 10 and 10 may be single-wavelength light or light in a predetermined wavelength range, but the wavelength for photopolymerizing the ink ejected from the heads 4, 4. It is light that contains.
[0042]
On each side of the platen 5 in the main scanning direction A, a maintenance unit 6 for maintaining the heads 4, 4,... And a moisturizing unit 7 for holding the heads 4, 4,. The maintenance unit 6 is disposed below the maintenance area Z, and the moisturizing unit 7 is disposed below the home area X. Further, the maintenance area Z is provided with a shielding unit 80 that covers the outside of the maintenance unit 6 and shields ultraviolet rays from entering the maintenance unit 6.
[0043]
The moisturizing unit 7 is provided with the same number of moisturizing caps 71, 71,... As the head 4, and the moisturizing caps 71, 71,. Each moisturizing cap 71 has a size and a shape corresponding to the lower part of the head 4 so as to cover the lower part of the head 4, and performs the moisturizing of the ink related to the head 4. The moisturizing unit 7 itself is moved up and down by a vertical movement mechanism (not shown).
[0044]
The maintenance unit 6 includes a wiper blade 63 for wiping the nozzle plate 42 of the head 4, a receiving tray 62 for receiving and collecting ink ejected from the ejection port in a state of being opposed to the ejection port of the head 4, And suction caps 61, 61,..., Which are attached to the nozzle plate 42 so as to cover the lower surface 41. The wiper blade 63, the tray 62, and the suction caps 61, 61,... Are arranged in a line along the main scanning direction A. The wiper blade 63, the tray 62, the suction caps 61, 61,. ing.
[0045]
The wiper blade 63 is erected and is made of an elastically deformable member such as rubber or a brush material. The wiper blade 63 wipes ink adhering to the nozzle plate 42 from the nozzle plate 42 when the nose plate 42 is passing over the wiper blade 63 in contact with the wiper blade 63.
[0046]
The number of suction caps 61, 61,... Is the same as the number of heads 4, 4,. One tube 66 per one suction cap 61 communicates with the bottom surface of the suction cap 61. One suction pump 64 per pipe 66 is provided in the middle of the pipe 66. The suction pump 64 generates suction force from the suction cap 61 to the waste tank 65 through the pipe 66. When the nozzle plate 42 is attached to the suction cap 61, the discharge port of the nozzle plate 42 covers the suction cap 61. Ink is sucked from the ejection port.
[0047]
The maintenance unit 6 is driven up and down by an elevating mechanism (not shown). That is, the elevating mechanism includes a motor or the like, and the suction caps 61, 61,..., The tray 62, the wiper blade 63, the suction pump 64, the waste tank 65, and the pipes 66, 66,. It is designed to move.
[0048]
When the maintenance unit 6 is positioned at the uppermost point by the elevating mechanism, the upper end portion of the wiper blade 63 is positioned above the nozzle plate 42 and the suction caps 61, 61,. It is located at the same height. When the maintenance unit 6 is positioned at the lowest point by the lifting mechanism, the maintenance unit 6 is accommodated inside the shielding unit 80.
[0049]
The shielding unit 80 will be described in detail with reference to the perspective view of FIG. As shown in FIG. 2, the shielding unit 80 includes a box 81 formed in a box shape, and the outside of the maintenance unit 6 is covered by the box 81. The bottom of the box 81 is open, and an opening 81a is formed through the top surface of the box 81. The box body 81 is arranged so that the suction caps 61, 61,..., The tray 62, and the wiper blade 63 are all inside the opening 81a when viewed from above. Further, when the maintenance unit 6 is positioned at the uppermost point by the lifting mechanism, the suction caps 61, 61,..., The tray 62 and the wiper blade 63 are projected above the upper surface of the box 81 through the opening 81a. It has become. On the other hand, when the maintenance unit 6 is positioned at the lowest point by the lifting mechanism, the suction caps 61, 61,..., The tray 62 and the wiper blade 63 are positioned below the upper surface of the box 81. .
[0050]
A lid member 82 is provided on the upper surface of the box 81. The lid member 82 extends along the upper surface of the box body 81 from the closed position where it overlaps the opening 81a on the upper surface and closes the opening 81a to the open position where the opening 81a is released from the opening 81a. It is slidably provided.
[0051]
The shielding unit 80 is provided with an opening / closing device having a motor or the like (not shown). This opening / closing device opens and closes the lid member 82, and is configured to move the lid member 82 from the closed position to the open position.
[0052]
Both the box 81 and the lid member 82 are made of a material that shields ultraviolet rays and transmits visible light. Here, the wavelength of the ultraviolet rays shielded by the box 81 and the lid member 82 does not have to be the entire wavelength range of the ultraviolet rays, and may be the wavelength of the ultraviolet rays emitted from the ultraviolet irradiation mechanism 10. Moreover, the wavelength of the visible light which permeate | transmits the box 81 and the cover member 82 does not need to be the whole wavelength range of visible light, and it should just confirm visually that it is transparent.
[0053]
As a material having ultraviolet shielding properties and visible light transmission properties, there is a methacrylic resin (also referred to as polymethacrylic acid ester: acrylic resin). In addition to the methacrylic resin, polyacrylic acid or polyacrylic acid ester may be used for the box 81 and the lid member 82.
[0054]
Examples of the methacrylic resin include methyl methacrylate homopolymer (polymethyl methacrylate: PMMA). Other examples include copolymers in which methyl methacrylate is the main component and less than 50% of copolymerizable monomer components such as various acrylic esters and styrene are copolymerized with methyl methacrylate. There are methyl methacrylate / styrene copolymers and methyl methacrylate / acrylic ester copolymers. A methacrylic resin may be blended with a small amount of another resin. Examples of the resin to be blended include acrylic rubber, polybutadiene, polyisoprene, butyl acrylate copolymer, styrene / butadiene copolymer, and other rubbers. The components of the box 81 and the lid member 82 may be the same or different. Moreover, either one of the box 81 and the lid member 82 may be formed of a methacrylic resin, or both may be formed of a methacrylic resin.
[0055]
The shielding unit 80 and the maintenance unit 6 are integrally moved along a direction D parallel to the main scanning direction A by a moving mechanism (not shown).
[0056]
The ink jet printer 1 is provided with a control device for controlling the whole. That is, the control device operates the carriage 3, the heads 4, 4,..., The ultraviolet irradiation mechanisms 10, 10, the pumps 64, 64,..., The vertical movement mechanism, the lifting mechanism, the opening / closing mechanism, and the moving mechanism at predetermined timing. To stop. The control device controls the operation timing / stop timing of the carriage 3, the heads 4, 4,..., The ultraviolet irradiation mechanisms 10, 10, the pumps 64, 64,. As a result, the ink jet printer 1 operates.
[0057]
Next, the operation of the inkjet printer 1 will be described.
First, in the initial state, the carriage 3 is located above the moisture retention unit 7, the moisture retention unit 7 is in a raised position, and the lower surfaces 41 of the heads 4, 4,. Thereby, the nozzle plate 42 is protected and the ink is moisturized. Further, in the initial state, the maintenance unit 6 is located at the lowest point, and the lid member 82 is located at the closed position. Thereby, the suction caps 61, 61,..., The tray 62 and the wiper blade 63 are housed inside the box body 81, and the opening 81 a is blocked by the lid member 82.
[0058]
When the power of the inkjet printer 1 is turned on, the vertical movement mechanism separates the moisturizing unit 7 from the carriage 3, and thereby the moisturizing caps 71, 71,.
[0059]
Then, the maintenance operation by the maintenance unit 6 of the inkjet printer 1 starts, and the carriage 3 moves along the carriage guide 2 from the home area X through the recording area Y toward the maintenance area Z.
[0060]
Before the carriage 3 reaches the maintenance area Z, the opening / closing device moves the lid member 82 from the closed position to the open position. When the carriage 3 reaches the maintenance area Z and the heads 4, 4,... Are positioned at positions facing the suction cap 61, the carriage 3 stops. Next, when the elevating mechanism raises the maintenance unit 6 to the uppermost point, the nozzle plates 42, 42,. After that, when the suction pumps 64, 64,... Are operated, negative pressure acts on the inside of the suction caps 61, 61,..., And the ink in the heads 4, 4,. The sucked ink is sent to the waste tank 65 through the pipe 66 and stored.
[0061]
When the elevating mechanism lowers the maintenance unit 6 from the uppermost point after completion of the suction, the suction caps 61, 61,... Are separated from the lower surface 41 of the head 4, respectively. At this time, the lifting mechanism stops the maintenance unit 6 between the highest point and the lowest point without moving the maintenance unit 6 to the lowest point. In this state, the upper end of the wiper blade 63 protrudes upward from the opening 81 a of the box 81 and is further positioned above the nozzle plate 42.
[0062]
Thereafter, the moving mechanism moves the maintenance unit 6 and the shielding unit 80 in the direction D so as to be separated from the recording area Y. When the maintenance unit 6 is moving in the direction D, the wiper blade 63 rubs the lower surface 41 of the head 4 and the nozzle plate 42 while being elastically deformed (wiping operation). As a result, ink, dust and the like adhering to the lower surface 41 of the head 4 and the nozzle plate 42 are wiped off.
[0063]
When all the heads 4, 4,... Are rubbed by the wiper blade 63 in the order from the head 4 closest to the home area X to the head 4 farthest from the home area X, the moving mechanism records the maintenance unit 6 and the shielding unit 80. It moves so that it may approach the area | region Y. When the tray 62 is passing below the head 4, the head 4 performs idle ejection of ink from the ejection port toward the tray 62 (empty ejection receiving operation). When the idle ejection of all the heads 4, 4,... From the head 4 farthest from the home area X to the head 4 closest to the home area X is completed, the carriage 3 moves from the maintenance area Z to the recording area Y or the home area X. Move towards. When the elevating mechanism moves the maintenance unit 6 to the lowest point, the suction caps 61, 61,..., The tray 62 and the wiper blade 63 are housed inside the box body 81. Next, the opening / closing mechanism moves the lid member 82 from the open position to the closed position, and the opening 81 a is closed by the lid member 82. As a result, the maintenance operation ends.
[0064]
When the maintenance operation of the ink jet printer 1 is completed and the carriage 3 moves to the home region X, the vertical movement mechanism raises the moisturizing unit 7 so that the heads 4, 4,. The ink jet printer 1 enters a standby state. On the other hand, when the maintenance operation is completed and the carriage 3 has moved into the recording area Y, the inkjet printer 1 performs an image recording operation.
[0065]
The image recording operation of the inkjet printer 1 will be described. While the transport mechanism intermittently moves the recording medium P in the transport direction, the carriage 3 reciprocates in the main scanning direction A within the recording area Y, and the carriage 3 moves. The heads 4, 4,... Perform the ejection operation at a timing according to the image information. During the image recording operation, the heating means heats the ink to 30 ° C. to 150 ° C., and one dot of ink is ejected from the heads 4, 4,. Further, during the image recording operation, the ultraviolet irradiation mechanisms 10 and 10 emit ultraviolet rays. When the ultraviolet irradiation mechanism 10 passes over the ink landed on the recording medium P from the head 4, the ultraviolet irradiation mechanism 10 The emitted ultraviolet light is irradiated to the ink. As a result, the ink is cured.
[0066]
During the image recording operation, the opening / closing mechanism keeps the lid member 82 in the closed position, and the lid member 82 is always in the closed position. Even if the ultraviolet irradiation mechanisms 10 and 10 emit ultraviolet rays during the image recording operation, the lid member 82 and the box body 81 have ultraviolet shielding properties, so that no ultraviolet rays are incident on the maintenance unit 6. However, even if the maintenance unit 6 is housed in the box 81, the lid member 82 and the box 81 have visible light permeability, so that the state of the maintenance unit 6 can be visually confirmed.
[0067]
When the image recording operation is completed, the carriage 3 moves toward the home area X or the maintenance area Z. When the carriage 3 moves toward the maintenance area Z, the inkjet printer 1 performs the maintenance operation as described above by the maintenance unit 6. On the other hand, when the carriage 3 moves to the home area X, the heads 4, 4,... Are respectively covered with the moisture retaining cap 71, and the ink jet printer 1 enters a standby state. Here, when the inkjet printer 1 is in a standby state, the ultraviolet irradiation mechanisms 10 and 10 are turned off, and also when the inkjet printer 1 is performing a maintenance operation, the ultraviolet irradiation mechanisms 10 and 10 are turned off. ing.
Note that the inkjet printer 1 in the standby state may shift to an image recording operation, or may shift to a maintenance operation.
[0068]
As described above, in the present embodiment, the box body 81 and the lid member 82 of the shielding unit 80 are formed of methacrylic resin, and thus the box body 81 and the lid member 82 have visible light transmittance and ultraviolet ray shielding properties. During the image recording operation, the maintenance unit 6 is housed in the box 81, and the opening 81a is closed by the lid member 82. Therefore, even if the ultraviolet rays emitted from the ultraviolet irradiation mechanisms 10 and 10 are reflected and diffracted, the maintenance unit 6 6 can be prevented. Therefore, the ink adhering to the maintenance unit 6 can be prevented from curing, and the maintenance work of the maintenance unit 6 becomes easy.
Further, since the box body 81 and the lid member 82 have visible light permeability, the state of the maintenance unit 6 housed inside the box body 81 can be visually confirmed. Therefore, how much ink has adhered to the maintenance unit 6 can be easily grasped, and the maintenance timing of the maintenance unit 6 is not missed. Furthermore, it is not necessary to take out the maintenance unit 6 from the box body 81 or to remove the box body 81 and the lid member 82 only for grasping the state of the maintenance unit 6.
[0069]
[Experimental example]
In this experimental example, the presence or absence of the ultraviolet shielding property of the acrylic plate against ultraviolet rays was verified, and in the above embodiment, it was confirmed whether or not the box body 81 and the lid member 82 have ultraviolet shielding properties.
FIG. 3 is a drawing for explaining the outline of the experimental method in this experimental example.
In this experiment, as shown in FIG. 3, the acrylic plate 302 and the case where an acrylic plate 302 is interposed between the ultraviolet light source 300 and the illuminance meter 301 in a state where the distance between the ultraviolet light source 300 and the illuminance meter 301 is kept at 100 mm The illuminance of the light emitted from the ultraviolet light source was measured with an illuminometer in the case where it was not interposed. However, the measurement wavelength region is 200 to 800 nm. Moreover, the acrylic board 302 is formed from the same material as the said box 81 and the cover member 82, and it has confirmed visually that the acrylic board 302 was transparent.
[0070]
In this experiment, an acrylic plate having a thickness of 3.0 mm was used as the acrylic plate 302. As the ultraviolet light source 300, an ultraviolet light source that emits light having a wavelength of 254 nm (manufactured by Nippon Electric Co., Ltd.), an ultraviolet light source that emits light having a wavelength of 310 nm (manufactured by Hibeck), and an ultraviolet light source that emits light having a wavelength of 365 nm (manufactured by Hibeck). Three kinds of ultraviolet light sources were used. USR40 (USHIO INC.) Was used as the illuminance meter 301.
[0071]
4 is a drawing showing experimental results when using an ultraviolet light source having a wavelength of 254 nm, FIG. 5 is a drawing showing experimental results when using an ultraviolet light source having a wavelength of 310 nm, and FIG. 6 is an ultraviolet light source having a wavelength of 365 nm. It is drawing which shows the experimental result at the time of using.
[0072]
As shown in FIG. 4, when an ultraviolet light source having a wavelength of 254 nm was used, when an acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminance meter 301, light having an illuminance of about 550 μW was detected near the wavelength of 254 nm. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminance meter 301, almost no light was detected in the ultraviolet region (wavelength of about 200 to 400 nm) and the visible region (about 400 to 800 nm).
[0073]
As shown in FIG. 5, when an ultraviolet light source having a wavelength of 310 nm was used, when an acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminance meter 301, light having an illuminance of about 19 μW was detected near the wavelength of 310 nm. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminance meter 301, almost no light was detected in the ultraviolet region, but in the visible region, faint light was emitted in the vicinity of each wavelength of 405 nm, 430 nm, and 550 nm. was detected.
[0074]
As shown in FIG. 6, when an ultraviolet light source having a wavelength of 365 nm was used, light having an illuminance of about 40 μW was detected near the wavelength of 365 nm when the acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminance meter 301. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminance meter 301, almost no light was detected in the ultraviolet region and the visible region.
[0075]
From the experimental results shown in FIGS. 4 to 6, when the acrylic plate 302 is interposed between the ultraviolet light source 300 and the illuminance meter 301, the illuminance meter 301 does not detect light in the ultraviolet region, and the acrylic plate 302 It was fully suggested that it has light-shielding properties. Therefore, in the inkjet printer 1 shown in the above embodiment, the ultraviolet rays can be sufficiently shielded by the box body 81 and the lid member 82 of the shielding unit 80, and the ink adhering to the maintenance unit 6 is reliably prevented from being cured. can do.
[0076]
The present invention is not limited to the above embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.
[0077]
【The invention's effect】
As explained above, the claims 1 Since the maintenance unit is covered with the shielding unit having the ultraviolet shielding property, it is possible to prevent the ultraviolet rays emitted from the ultraviolet irradiation mechanism from entering the maintenance unit during the image recording operation. it can. Therefore, it is possible to prevent the ink attached to the maintenance unit from being cured. Moreover, since the shielding unit has visible light permeability, the state of the maintenance unit covered by the shielding unit can be visually confirmed.
[0078]
Claim 2, 3 Since the lid member opens and closes the opening of the box, the maintenance unit can perform maintenance on the head through the opening during the maintenance operation. During the image recording operation, if the lid member closes the opening, it is possible to prevent the ultraviolet rays emitted from the ultraviolet irradiation mechanism from entering the maintenance unit. Furthermore, since the lid member and the box have visible light permeability, the state of the maintenance unit can be visually confirmed.
[0079]
Claim 4 According to the invention described in (3), the maintenance can be performed on the head if the maintenance unit protrudes from the box through the opening during the maintenance operation. During the image recording operation, if the maintenance unit is covered with a box and the lid member closes the opening, the ultraviolet rays emitted from the ultraviolet irradiation mechanism will be incident on the maintenance unit even if reflected or diffracted. Can be prevented. Furthermore, since the lid member and the box have visible light permeability, the state of the maintenance unit can be visually confirmed.
[0080]
Claim 5 According to the invention described in, the opening of the box is automatically opened and closed by the lid member.
[0081]
Claim 6 According to the invention described in claim 1, since the acrylic resin has an ultraviolet shielding property and a visible light transmission property, 2, 3 The same effects as those of the invention described in (1) are exhibited.
[0082]
Claim 7 According to the invention described in (2), the discharge state of the discharge port can be efficiently restored.
[0083]
Claim 8 According to the invention described in the above, it is possible to prevent clogging of the nozzles of the head by performing maintenance operations such as a suction operation, a wiping process, and a receiving operation, and it is possible to always perform good image formation.
[0084]
Claim 9 According to the invention described in (1), since the ink is ejected in a good state, image recording can be performed, and high-quality image recording can be performed even with high viscosity ink.
[0085]
Claim 10 According to the invention described in (1), even when high-viscosity ink is used, an appropriate and efficient maintenance operation for the head can be performed.
[0086]
Claim 11 According to the invention described in the above, even when a cationic polymerizable ultraviolet curable ink is used, the ink is appropriately prevented from adhering to the maintenance unit, and sufficient maintenance operation is performed even when continuous image recording is performed. And high-quality images can be obtained.
[Brief description of the drawings]
FIG. 1 is a front view schematically showing an ink jet printer to which the present invention is applied.
FIG. 2 is a perspective view showing a shielding unit and a maintenance unit provided in the inkjet printer.
FIG. 3 is a drawing for explaining an outline of an experimental method for confirming the ultraviolet shielding properties of the box and lid member of the shielding unit.
FIG. 4 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 254 nm is used.
FIG. 5 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 310 nm is used.
FIG. 6 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 365 nm is used.
[Explanation of symbols]
1 Inkjet printer
4 heads
6 Maintenance unit
10 UV irradiation mechanism
61 Suction cap
62 saucer (receiving part)
63 Wiper blade (blade)
80 Shielding unit
81 box
81a opening
82 Lid member

Claims (11)

A head having an ejection opening and ejecting ink that is cured by being irradiated with ultraviolet rays from the ejection opening toward the recording medium, and an ultraviolet irradiation mechanism that irradiates the recording medium with ultraviolet rays, and from the ejection opening In an ink jet printer that cures ink by irradiating ultraviolet rays by the ultraviolet irradiation mechanism on the ink ejected and landed on the recording medium,
A maintenance unit for performing maintenance of the head;
An inkjet printer comprising: a shielding unit that covers an outside of the maintenance unit and has ultraviolet shielding properties and visible light transmission properties. The shielding unit is provided movably between a box body that covers the outside of the maintenance unit and has an opening, and a closed position that closes the opening to an open position that opens the opening. comprising a cover member, the ink jet printer according to claim 1, wherein the lid member is characterized by having an ultraviolet light-shielding property and visible light transmittance. The shielding unit is provided movably between a box body that covers the outside of the maintenance unit and has an opening, and a closed position that closes the opening to an open position that opens the opening. comprising a cover member, the ink jet printer according to claim 1, wherein the box body is characterized by having an ultraviolet light-shielding property and visible light transmittance. The inkjet printer according to claim 2 or 3 , wherein the maintenance unit is provided so as to be movable between a position protruding from the opening to the outside of the box and a position accommodated in the box. . The inkjet printer according to claim 2 , further comprising an opening / closing mechanism that moves the lid member from the closed position to the open position. 6. The ink jet printer according to claim 2, wherein at least one of the lid member and the box is formed of an acrylic resin. The maintenance unit is
A suction cap that covers the discharge port when sucking ink from the discharge port;
A receiving portion for receiving ink ejected from the ejection port in a state of being opposed to the ejection port after suction;
The ink jet printer according to any one of claims 1 6, characterized by comprising, a blade rubbing the head after aspiration. The maintenance operation by the maintenance unit includes a suction operation for sucking ink from the head, a wiping operation for wiping the ink adhering to the head, and a receiving operation for receiving the ink ejected from the ejection port of the head. The inkjet printer according to claim 1 , wherein the inkjet printer includes at least one operation. The head heats the ink, which is a liquid having a viscosity of 10 to 500 mPa · s at 30 ° C., to 30 to 150 ° C. by a heating unit and discharges the ink so that one dot becomes a small droplet of 2 to 20 pl. The ink jet printer according to any one of claims 1 to 8 , wherein the ink jet printer is characterized in that: The ink jet printer according to any one of claims 1 to 9 , wherein the recording medium is made of a material that is non-absorbable with respect to the ink. The ink jet printer according to claim 1, any one of 10 ink ejected from the discharge port characterized in that it is a cationically polymerizable ink.

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