JP2004322312A - Ink-jet printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ink-jet printer which can print characters and drawings to medium front faces by using ink of a superior permeability without staining medium rear faces of a good ink permeability with the ink. <P>SOLUTION: A platen center part 20 is separated from a platen rear part 30 and moved to ahead of the platen rear part 30 by a moving means 60 with the use of a replacement means 90. A sub platen 80 is arranged between the platen center part 20 and the platen rear part 30 immediately below a travel course of an ink-jet head 10 where voids are generated. The medium 110 of the good ink permeability against which ink droplets jetted from nozzles 12 of the ink-jet head are hit is loaded on a medium loading face 82 of the sub platen 80 with grooves 70 or dents provided thereat. Characters and drawings are printed to the medium 110 front face. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ink jet printer that prints a character or a picture composed of an array of a plurality of ink dots on a surface of a medium such as a sheet.
[0002]
[Prior art]
The above-described ink jet printer mounts ink droplets ejected from nozzles of an ink jet head which moves in a horizontal direction above a platen on a platen and lands in a dot on a predetermined portion of a media surface which moves forward on the platen. . Then, on the surface of the medium, a character or picture composed of an array of a plurality of ink dots is printed.
[0003]
In this ink jet printer, when a thin sheet having good ink permeability or a sheet called a mesh tarpaulin (hereinafter collectively referred to as a mesh sheet) or the like is used as the medium, the medium is ejected from the nozzles of the ink jet head to the surface of the medium. In some cases, some of the ink droplets landed in a dot form penetrate the medium and adhere to the medium mounting surface of the platen with which the back surface of the medium is in contact. Then, the back surface of the medium mounted on the platen and moved forward on the platen may be stained with the ink.
Here, a sheet called a mesh tarpaulin has a large number of fine small holes randomly provided on the surface thereof. For this reason, when the object is held over light or the like, the scene behind the object can be seen through. This mesh tarpaulin is used for a sheet or the like on which letters and pictures for advertisement are printed and stuck on the window of a store so as not to obstruct the view.
For this reason, when printing characters and pictures on a medium such as a mesh sheet with good ink permeability, conventionally, a backing paper for preventing ink penetration is pasted on the back of the medium in a releasable manner. are doing. Then, characters and pictorial diagrams are printed on the surface of the medium to which the backing paper is attached. This prevents some of the ink droplets that have landed on the surface of the medium in the form of dots from penetrating the medium and attaching to the medium mounting surface of the platen. After printing characters and pictures on the surface of the media, the backing paper is peeled off from the back of the media.
Therefore, it takes a lot of trouble and time to print characters and pictures on a medium surface such as a mesh sheet having good ink permeability using an ink jet printer.
[0004]
In recent years, as a printer capable of solving such a problem, an ink jet printer in which a groove for storing ink is provided on a medium mounting surface of a platen located immediately below a running path of an ink jet head has been developed and used.
According to this printer, when some of the ink droplets ejected from the nozzles of the ink jet head and landed in the form of dots on the surface of the medium pass through the medium and reach the back side of the medium, the ink is ejected by the ink jet. It can be removed by flowing into the inside of the groove provided on the media mounting surface of the platen just below the traveling path of the head. Then, the ink can be prevented from adhering to the media mounting surface of the platen located at the upper end of the groove. Then, the back surface of the media mounted on the media mounting surface of the platen can be prevented from being stained with the ink.
Therefore, if this printer is used, when printing characters or pictorial drawings on a medium such as a mesh sheet with good ink permeability as described above, it is necessary to attach a backing paper for preventing ink penetration to the back of the medium. Can be eliminated. Then, characters and pictures can be easily and quickly printed on the medium such as the mesh sheet without trouble.
[0005]
[Problems to be solved by the invention]
However, in such an ink jet printer, the grooves provided on the media mounting surface hinder the media such as a sheet mounted on the platen from being smoothly moved forward on the platen. In some cases, a medium such as a sheet cannot be mounted flat on a platen mounting surface provided with the grooves without unevenness. Then, the ink droplet ejected from the nozzle of the inkjet head cannot be accurately landed on a desired portion of the media surface mounted on the media mounting surface provided with the groove, and is printed on the media surface. In some cases, distortion occurred in characters and pictures.
[0006]
In addition, in an ink jet printer using an ink having excellent permeability, in which a pigment or a pigment dye is dissolved in an organic solvent, a heater for heating the media mounted on the media mounting surface of the platen is provided by a platen directly below the media mounting surface. Built inside. An ink using an organic solvent has excellent water resistance and weather resistance, and thus is suitable for printing characters and pictures on posters for outdoor exhibitions and the like.
Inkjet printers that use this highly permeable ink use an organic solvent that uses an organic solvent that is ejected from the nozzles of the inkjet head and lands on the media surface in a dot-like manner. It is heated by a heater built inside the platen just below the surface. Then, the organic solvent contained in the ink of the ink droplet is quickly evaporated. Then, the ink drops are quickly dried and fixed on the surface of the medium. Then, the ink of the ink droplet is prevented from permeating widely into the media portion around the impact location. In addition, characters and pictures printed by the ink droplets landed on the medium surface in a dot shape are prevented from blurring and blurring.
[0007]
By the way, in the ink jet printer in which the groove is provided on the medium mounting surface of the platen as described above, if the heater as described above is provided inside the platen directly below the medium mounting surface, the heater is provided on the medium mounting surface. The groove hindered the heater from being built into the platen. In addition, the ink droplets landed in a dot shape on the surface of the medium mounted on the medium mounting surface cannot be quickly dried by the heater built in the platen. In addition, blurring and blurring of characters and pictures printed on the surface of the media could not be prevented.
For this reason, in a printer in which a groove is provided on the medium mounting surface of the platen as described above, it is not possible to use an ink having an organic solvent and excellent permeability. In addition, characters and pictures such as posters for outdoor exhibition having excellent water resistance and weather resistance could not be printed on a medium surface such as a mesh sheet having good ink permeability.
[0008]
The present invention can solve such a problem, and does not stain the back surface of the media with ink without attaching a backing paper to the back surface of the media such as a mesh sheet with good ink permeability, and can print characters or characters on the front surface of the media. Able to print pictorial drawings and use clear ink with good permeability of ink using organic solvent, etc. It is intended to provide an ink jet printer capable of printing a picture and a picture.
[0009]
[Means for Solving the Problems]
In order to achieve such an object, in the ink jet printer of the present invention, a central portion of a platen having a smooth media mounting surface immediately below a traveling path of an ink jet head is separably joined to a rear portion of a platen connected to a rear portion thereof. . Then, the platen center portion is separated from the platen rear portion with the platen front portion connected to the front thereof, and moved to the front of the platen rear portion, or the platen center portion moved to the front is connected to the front portion. A moving means is provided for moving and returning in the direction of the rear of the platen together with the front of the platen so as to be able to rejoin the rear of the platen.
In addition, a sub-platen that has a media mounting surface provided with a groove or a recess into which ink flows is provided and is replaceable with the central portion of the platen.
Further, by the moving means, the platen center is separated from the rear of the platen, and is moved forward of the rear of the platen. A media for landing ink droplets ejected from the nozzles of the inkjet head is mounted on the media mounting surface of the sub-platen where grooves or depressions are provided so as to be freely connected to and detached from the central portion of the platen and the rear portion of the platen. Conversely, the sub-platen is pulled out from between the central portion of the platen and the rear portion of the platen immediately below the travel path of the inkjet head, and the moving means moves and returns the central portion of the platen directly below the travel path of the inkjet head. Position that allows the center to be rejoined to the rear of the platen Means is provided.
[0010]
In an ink jet printer having such a configuration, characters and pictures are printed on the surface of a medium such as a mesh sheet having good ink permeability, and some of the ink droplets that have landed on the surface of the medium are partially replaced by ink. When there is a risk of infiltration to the back side, using the replacement means, the central part of the platen, which is detachably joined to the rear part of the platen, is separated from the rear part of the platen by the moving means. It can be moved forward in the rear. Then, the platen center is moved forward, and the sub-platen is freely connected to the platen center and the platen rear between the platen center and the platen rear just below the inkjet head travel path where the gap is generated. Can be placed. Then, a medium on which the ink droplet ejected from the nozzle of the inkjet head lands can be mounted on the medium mounting surface of the sub platen provided with the groove or the depression. Then, when a part of the ink droplets landing in the form of dots on the surface of the medium penetrated the medium and penetrated into the back side of the medium, the ink was provided on the medium mounting surface of the sub-platen. It can be removed by flowing into the inside of the groove or depression. Then, it is possible to prevent the ink from adhering to the media mounting surface of the sub platen at the upper end of the groove or the recess where the media is mounted.
Conversely, when printing a character or a picture on the surface of a medium where the permeability of the ink to which the coating agent is applied is usually lower than that of the medium, a part of the ink droplets landing on the surface of the medium is partially replaced by the ink. When there is no risk of infiltration into the back side, the sub-platen can be removed from between the central portion of the platen and the rear portion of the platen immediately below the traveling path of the inkjet head by using the replacement means. Then, the central portion of the platen can be moved and returned to a position immediately below the traveling path of the inkjet head by the moving means together with the front portion of the platen. Then, the central portion of the platen can be rejoined to the rear portion of the platen. The media can be mounted flat on the smooth media mounting surface without grooves or depressions at the center of the platen located directly below the inkjet head, or can be smooth media without grooves or depressions at the center of the platen. The media can be moved smoothly on the mounting surface without being caught forward. Then, the ink droplets ejected from the nozzles of the ink jet head can be accurately landed on desired portions of the surface of the media mounted flat on the smooth media mounting surface at the center of the platen. Then, characters and pictures without distortion can be printed on the surface of the medium.
[0011]
The ink jet printer according to the present invention may include a heater for heating the medium mounted on the medium mounting surface in the center of the platen, and a preheater for preheating the medium mounted on the medium mounting surface in the rear of the platen. .
According to the ink jet printer having such a configuration, the media passing on the media mounting surface at the rear portion of the platen before being sent onto the platen center portion or the sub platen located immediately below the traveling path of the ink jet head is subjected to the preheater described above. Can be preheated. Also, when the pre-heated media is sent from above the platen to the media mounting surface in the center of the platen, or from above the sub-platen to the media mounting surface in the center of the platen, The media can be heated by the heater. Then, the preheater for preheating the media and the heater for heating the media allow the inkjet head to be mounted on the media mounting surface at the center of the platen or the media mounting surface of the sub-platen located immediately below the travel path of the inkjet head. Ink droplets ejected from the nozzles and landed thereon can be dried quickly and reliably.
As a result, according to the ink jet printer equipped with such a pre-heater and a heater, an ink having excellent permeability using an organic solvent or the like is used, and a medium surface such as a mesh sheet having good ink permeability is used. When printing a character or a picture, as described above, the sub-platen can be interposed between the central portion of the platen and the rear portion of the platen using the replacing means, and the sub-platen can be disposed immediately below the traveling path of the inkjet head. Then, some of the ink droplets ejected from the nozzles of the ink jet head onto the media surface mounted on the media mounting surface of the sub-platen and landed in a dot form penetrate the media having good permeability, and When the ink reaches the back side, the ink can be removed by flowing into the inside of a groove or depression provided on the medium mounting surface of the sub-platen. Then, the ink can be prevented from adhering to the media mounting surface of the sub-platen. Then, it is possible to prevent the back surface of the medium from being stained with the ink. Further, the media fed from above the platen to the sub-platen can be preheated by the pre-heater while passing over the media mounting surface behind the platen. Then, the media fed onto the media mounting surface of the sub-platen can be pre-heated by the pre-heater. Then, the ink droplets having excellent permeability and ejected from the nozzles of the ink jet head can be landed on the heated medium surface in the form of dots. Then, most of the organic solvent and the like contained in the ink of the ink droplet can be quickly evaporated by the residual heat remaining in the medium. Then, many of the ink droplets can be quickly dried and fixed on the medium surface. Further, it is possible to prevent many of the ink droplets from penetrating widely into the media portion around the impact location, and from penetrating the media and penetrating to the back side of the media. Further, the media sent from the sub-platen to the media mounting surface at the center of the platen can be reheated by the heater. Then, the partially undried ink droplets which have landed in the form of dots before the surface of the medium can be dried quickly and completely to be fixed on the surface of the medium. In addition, it is possible to reliably prevent the ink droplets having excellent permeability from widely penetrating into the media portion around the impact location. Then, on a medium surface such as a mesh sheet with good permeability, characters and pictures consisting of an array of dots of multiple inks are printed clearly and without bleeding using ink with excellent permeability using an organic solvent or the like. It is possible to do.
[0012]
In the ink jet printer of the present invention, the air interposed between the media mounting surface of the platen central portion and the media mounted on the mounting surface is sucked, and the media is moved to the center of the platen using atmospheric pressure. It is preferable to provide an adsorbing means for adsorbing to the medium mounting surface of the section.
According to the ink jet printer having such a configuration, the air interposed between the media fed onto the media mounting surface in the central portion of the platen and the media mounting surface in the central portion of the platen directly below is sucked by the suction means. it can. Then, the medium can be adsorbed to the medium mounting surface at the center of the platen without using the atmospheric pressure. Then, it is possible to prevent the medium from floating above the platen due to wind pressure or the like. Then, it is possible to prevent the medium from coming into contact with the ink that has leaked to the tip of the nozzle of the inkjet head, and the surface of the medium is contaminated with the ink. In addition, the ink droplets ejected from the nozzles of the ink jet head can always be accurately landed on a desired portion of the media surface which is sucked in a flat shape without any irregularities on the media mounting surface at the center of the platen.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
1 to 4 show a preferred embodiment of the ink jet printer of the present invention, FIG. 1 is a side view showing a use state thereof, FIG. 2 is an enlarged sectional view of a platen portion showing the use state, and FIG. FIG. 4 is an enlarged cross-sectional view of a platen portion showing the use state. Hereinafter, this inkjet printer will be described.
[0014]
As shown in FIGS. 1 to 4, the ink jet printer shown in FIG. 1 discharges ink droplets ejected from nozzles 12 of an ink jet head 10 that travels over the platen 100 in the left-right direction (front and back sides of the drawing). The ink jet recording apparatus has a structure in which a predetermined portion of the surface of the medium 110 which is mounted on the platen 100 and moves forward on the platen 100 is landed in a dot shape, and a character or a picture composed of an array of a plurality of ink dots is printed on the surface of the medium. . The media 110 is partially sandwiched between the feed roller 120 and the pressing roller 122 and rotates the feed roller 120 forward (in the direction of the arrow in the figure) to move forward (leftward in the figure) on the platen 100. Has been moved to.
[0015]
The above configuration is the same as that of the conventional ink jet printer, but in the illustrated ink jet printer, as shown in FIG. 2, the platen central portion 20 having the smooth media mounting surface 22 immediately below the running path of the ink jet head 10 is used. However, it is detachably joined to a platen rear portion 30 connected to the rear portion. Specifically, the box-shaped platen central portion 20 is joined to the platen rear portion 30 in a state where the platen central portion 20 is divided from the platen rear portion 30. Then, as shown in FIG. 4, the platen central portion 20 is separated from the platen rear portion 30 with the platen front portion 40 continuing in front of the platen central portion 20, and is moved on the guide 62 in front of the platen rear portion 30. As shown in FIG. 2, the platen center portion 20 moved forward is moved and returned on the guide 62 in the direction of the platen rear portion 30 with the platen front portion 40 continuing in front of the platen center portion. A moving means 60 is provided on the rear part 30 so as to be able to rejoin. The moving means 60 includes a guide 62 and the like arranged in the space inside the platen 100, which support the platen central portion 20 so as to be slidable back and forth. The platen rear portion 30 is supported by the printer main body 50 so as not to move.
[0016]
Further, as shown in FIG. 4, a sub-platen 80 which has a media mounting surface 82 in which a plurality of grooves or recesses (indicated as grooves 70 in the figure) into which ink flows are arranged at a predetermined pitch and which can be replaced with the platen central portion 20. Is provided.
[0017]
Further, as shown in FIG. 4, the platen central portion 20 is separated from the platen rear portion 30 by the moving means 60, and is moved on the guide 62 in front of the platen rear portion 30 with the platen front portion 40. A sub-platen 80 is disposed between the platen center portion 20 and the platen rear portion 30 directly below the travel path of the inkjet head 10 having the gap, and is connected to the platen center portion 20 and the platen rear portion 30 so as to be freely inserted and removed. A medium 110 for landing ink droplets ejected from the nozzles 12 of the ink jet head is mounted on a medium mounting surface 82 in which a plurality of grooves 70 or depressions are arranged, or conversely, as shown in FIG. From the central part 20 of the platen and the rear part 30 of the platen directly below the travel path of the inkjet head 10. Then, the platen central section 20 is moved by the moving means 60 together with the platen front section 40 on the guide 62 to just below the traveling path of the ink jet head 10 and returned, and the platen central section 20 is again transferred to the platen rear section 30. Replacement means 90 are provided for joining or enabling. The replacement means 90 includes a guide 62 that supports the platen central portion 20 slidably back and forth with the platen front portion 40, and supports the sub-platen 80 between the platen central portion 20 and the platen rear portion 30, A means (not shown) for positioning and fixing the sub-platen 80 at a predetermined position on the guide 62 and fixing a platen central portion 20 for moving the sub-platen back and forth on the guide 62 so as not to move at a predetermined position on the guide 62 And the like (not shown).
[0018]
The ink-jet printer shown in FIGS. 1 to 4 is configured as described above. By using the printer having such a configuration, characters and pictures are printed on the surface of a medium 110 such as a mesh sheet having good ink permeability. In the case of printing, as shown in FIG. 4, the platen center portion 20 is separated from the platen rear portion 30 by the moving device 60 using the replacing device 90, and the platen rear portion is attached together with the platen front portion 40. It is moved on the guide 62 in front of 30. Then, the sub-platen 80 is placed on the guide 62 between the platen central portion 20 and the platen rear portion 30 immediately below the travel path of the inkjet head 10 where the gap has been generated by moving the platen central portion 20 forward. The central part 20 and the rear part 30 of the platen are arranged so that they can be freely inserted and removed. Then, a medium 110 for landing ink droplets ejected from the nozzles 12 of the inkjet head is mounted on a medium mounting surface 82 of the sub-platen 80 in which the plurality of grooves 70 or depressions are arranged.
Then, a part of the ink droplets of the ink droplets landed in the form of dots on the surface of the medium 110 mounted on the sub-platen 80 immediately below the traveling path of the inkjet head 10 penetrates the medium 110 having good ink permeability. When the ink permeates the back side of the medium 110, the ink can be removed by flowing into the inside of the plurality of grooves or depressions 70 arranged on the medium mounting surface 82 of the sub-platen. Then, it is possible to prevent the ink from adhering to the media mounting surface 82 of the sub-platen at the upper end of the groove 70 or the recess where the media 110 is mounted. Then, it is possible to prevent the back surface of the medium 110 mounted on the medium mounting surface 82 of the sub-platen and moved forward on the sub-platen 80 from being stained with the ink.
[0019]
Conversely, when a printer having such a configuration is used to print a character or a picture on the surface of the medium 110 where the permeability of the ink to which the coating agent is applied or the like is normally lower, as shown in FIG. Then, the sub-platen 80 is removed from the space between the platen central portion 20 and the platen rear portion 30 immediately below the traveling path of the inkjet head 10 by using the replacing means 90. Then, the platen central portion 20 is moved by the moving means 60 along with the platen front portion 40 on the guide 62 immediately below the traveling path of the ink jet head 10, returned, and rejoined to the platen rear portion 30.
Then, the media 110 is mounted flat on the smooth media mounting surface 22 without any grooves or depressions at the center of the platen located immediately below the travel path of the inkjet head 10, or the grooves or depressions at the center of the platen are formed. The medium 110 can be smoothly moved on the smooth medium mounting surface 22 without any obstacle without being caught forward. Then, ink droplets ejected from the nozzles 12 of the inkjet head can be accurately landed on desired portions of the surface of the medium 110 which is flatly mounted on the smooth medium mounting surface 22 at the center of the platen without irregularities. Then, characters and pictures without distortion can be printed on the surface of the medium 110.
[0020]
In this ink jet printer, as shown in FIGS. 2 and 4, an electric heater or the like for heating the medium 110 mounted on the medium mounting surface 22 at the center of the platen is provided inside the center 20 of the platen. It is good to prepare for. At the same time, a preheater 140 of an electric heating type or the like for preheating the media 110 mounted on the media mounting surface 32 at the rear portion of the platen may be provided inside the rear portion of the platen 30 or the like.
Then, the pre-heater 140 may preheat the medium 110 passing on the media mounting surface 32 at the rear of the platen before being sent onto the platen center portion 20 or the sub-platen 80 immediately below the traveling path of the inkjet head 10. Also, when the pre-heated medium 110 is fed from above the platen rear 30 onto the media mounting surface 22 in the center of the platen, or from above the sub-platen 80 onto the media mounting surface 22 in the center of the platen. Also, the medium 110 may be heated by the heater 130. The pre-heater 140 pre-heats the medium 110 and the heater 130 heats the medium 110. The pre-heater 140 is mounted on the media mounting surface 22 of the central portion of the platen or the media mounting surface 82 of the sub-platen located immediately below the traveling path of the inkjet head 10. It is preferable that the ink droplets ejected and landed on the surface of the medium 110 from the nozzles 12 of the ink jet head are dried quickly and completely to be fixed on the surface of the medium 110. Then, it is preferable to prevent the ink droplet from permeating widely into the medium 110 around the impact location. Then, it is preferable to prevent characters and pictures printed on the surface of the medium 110 from blurring and blurring.
Then, using the printer shown in FIGS. 1 to 4 and using a highly permeable ink using an organic solvent or the like, the medium 110 such as a mesh sheet or the like having good ink permeability may be used. Even if the backing paper for preventing ink penetration is not releasably attached to the back surface of the media 110, the water and weather-resistant characters and pictures with excellent water resistance and weather resistance can be formed on the surface of the media 110 without soiling the back surface of the media 110 with ink. It is good to print clearly without blurring.
That is, using the printer shown in FIG. 1 to FIG. 4 and using ink having excellent permeability using an organic solvent or the like, a character or a pictorial image is formed on the surface of the medium 110 such as a mesh sheet having good ink permeability. When printing is performed, as shown in FIG. 4, the sub-platen 80 may be disposed directly below the traveling path of the inkjet head 10 between the platen center portion 20 and the platen rear portion 30 by using the replacement means 90. Then, some of the ink droplets ejected from the nozzles 12 of the inkjet head and landed in a dot shape on the surface of the medium 110 mounted on the medium mounting surface 82 of the sub-platen are transmitted through the medium 110 having good permeability. Then, when the ink reaches the back side of the medium 110, the ink may be removed by flowing into the groove 70 or the recess provided in the medium mounting surface 82 of the sub-platen. Then, it is preferable to prevent the ink from adhering to the media mounting surface 82 of the sub-platen. Then, it is preferable to prevent the back surface of the medium 110 from being stained with the ink. Also, it is preferable that the pre-heater 140 preheats the medium 110 sent from the rear of the platen 30 onto the sub-platen 80 while passing over the medium mounting surface 32 at the rear of the platen. Then, the medium 110 fed onto the sub-platen 80 is preferably heated in advance. Then, it is preferable that ink droplets having excellent permeability and using an organic solvent or the like jetted from the nozzles 12 of the ink jet head are landed on the heated surface of the medium 110 in the form of dots. Then, the ink droplets may be quickly dried and fixed on the surface of the medium 110 by the residual heat remaining on the heated medium 110. Then, it is preferable to prevent a large amount of the ink droplets from penetrating widely into the medium 110 around the impact area, or from penetrating the medium 110 and penetrating to the back side of the medium 110. Further, the medium 110 sent from the sub-platen 80 to the medium mounting surface 22 in the center of the platen may be reheated by a heater 130 built in the inside of the center of the platen 20 or the like. Then, the heater 130 may be used to quickly and completely dry the partially undried ink droplets that have landed on the surface of the medium 110 in a dot shape, and then fix the ink droplets on the surface of the medium 110. Then, it is preferable to surely prevent the ink droplet having excellent permeability from permeating widely into the medium 110 around the impact location. Then, on the surface of the medium 110 such as a mesh sheet having good permeability, it is preferable to print a clear character or picture without bleeding of ink by using ink having excellent permeability using an organic solvent or the like. .
[0021]
Further, in this ink jet printer, the air interposed between the media mounting surface 22 in the center of the platen and the media 110 mounted on the mounting surface is sucked, and the media 110 is utilized by utilizing the atmospheric pressure. It is preferable to include a suction unit 150 that causes the medium to be mounted on the media mounting surface 22 at the center of the platen. As shown in FIGS. 2 and 4, the suction means 150 includes a plurality of air suction holes 152 opened side by side on the media mounting surface 22 in the center of the platen, and the media mounting surface 22 and the media through the air suction holes. It is preferable to include a motor-driven intake fan 154 built in the platen central portion 20 for sucking air interposed between the central portion 110 and the inside of the platen central portion 20.
When characters and pictures are printed on the surface of the medium 110 by the ink jet printer shown in FIGS. 1 to 4, the medium 110 sent to the medium mounting surface 22 in the center of the platen or the medium mounting surface 22 in the center of the platen is It is preferable that the air interposed between the fed-out medium 110 and the media mounting surface 22 at the center of the platen immediately below the medium 110 be sucked into the center of the platen 20 by the suction fan 154 of the suction means. Then, the medium 110 may be adsorbed to the medium mounting surface 22 at the center of the platen without any gap by using the atmospheric pressure. Then, it is preferable to prevent the medium 110 mounted on the platen 100 from floating above the platen 100 due to wind pressure or the like. Then, it is preferable to prevent the surface of the medium 110 from being stained with the ink when the medium 110 comes into contact with the ink leaked to the tip of the nozzle 12 of the inkjet head. Further, the ink droplets ejected from the nozzles 12 of the ink jet head can always be accurately landed on a desired portion of the surface of the medium 110 which has been sucked flat and without gaps on the medium mounting surface 22 at the center of the platen. You should be able to do it.
The suction means 150 works effectively when the medium 110 is a thin fixed-size sheet or the like that easily floats above the platen 100 under wind pressure or the like.
In a printer using a medium 110 such as a long sheet as shown in FIGS. 1 and 3, the tension from the rewind roller 170 and the take-up roller 180 disposed before and after the platen 100 is reduced. , The media 110 mounted on the platen 100. Then, the medium 110 is pressed onto the platen 100 so as not to float above the platen 100. Therefore, such a printer does not need to include the suction unit 150 described above.
[0022]
【The invention's effect】
As described above, according to the ink jet printer of the present invention, using a highly permeable ink such as a pigment pigment or a dye dye dissolved in an organic solvent, a medium having a good ink permeability such as a mesh sheet. When printing characters and pictorial drawings, clear and clear characters with no bleeding on the surface of the media can be used without smearing the back of the media with ink, without attaching backing paper to prevent ink penetration on the back of the media. The picture can be printed.
In addition, when printing characters and pictures on the surface of a medium where the permeability of the ink to which the coating agent is applied is less than normal, mount the medium flat on the platen without unevenness, or place the medium on the platen. By moving the media smoothly without getting caught in the front, it is possible to print beautiful characters and pictures without distortion on the surface of the media.
[Brief description of the drawings]
FIG. 1 is a side view showing a use state of an ink jet printer of the present invention.
FIG. 2 is an enlarged sectional view of a platen showing a use state of the ink jet printer of the present invention.
FIG. 3 is a side view showing a use state of the ink jet printer of the present invention.
FIG. 4 is an enlarged sectional view of a platen showing a use state of the ink jet printer of the present invention.
[Explanation of symbols]
10 Inkjet head
12 nozzles
20 Platen center
22 Media loading surface in center of platen
30 Platen rear
40 Platen front
50 Printer body
60 means of transportation
70 grooves
80 Sub-platen
82 Sub-platen media loading surface
90 Replacement means
100 platen
110 media
120 feed roller
122 Holding roller
130 heater
140 preheater
150 Suction means
152 air suction hole
154 intake fan
170 Rewind roller
180 Take-up roller

Claims (3)

The ink droplets ejected from the nozzles of the inkjet head that travels in the horizontal direction above the platen are mounted on the platen and landed in a dot on a predetermined portion of the media surface that moves forward on the platen. In an ink jet printer that prints a character or a picture composed of an array of ink dots,
A platen central portion having a smooth media mounting surface immediately below the traveling path of the inkjet head is detachably joined to a rear platen rear portion connected to the rear thereof, and the platen central portion is accompanied by a platen front portion connected to the front thereof. There is provided a moving means which can be separated from the rear part of the platen, moved forward of the rear part of the platen, moved and returned in the direction of the rear part of the platen, and re-joined to the rear part of the platen, and further allow ink to flow therethrough. A sub-platen which has a media mounting surface provided with a groove or a depression and is replaceable with the central portion of the platen is provided, and the central portion of the platen is separated from the rear portion of the platen by the moving means and moved forward of the rear portion of the platen to form a gap. Between the center of the platen and the rear of the platen just below the travel path of the inkjet head where The media for ejecting ink droplets ejected from the nozzles of the inkjet head is mounted on the media mounting surface of the sub-platen, and the sub-platen is mounted on the media mounting surface of the sub-platen. From the central part of the platen and the rear part of the platen directly below the travel path of the inkjet head, and the moving means moves the central part of the platen directly below the travel path of the inkjet head and returns the central part of the platen to the rear part of the platen. An ink jet printer, comprising a replacement unit that enables rejoining. 2. The ink jet printer according to claim 1, further comprising: a heater for heating a medium mounted on a medium mounting surface in a center portion of the platen, and a pre-heater for preheating a medium mounted on a medium mounting surface in a rear portion of the platen. . The air interposed between the media mounting surface of the central portion of the platen and the media mounted on the mounting surface is sucked, and the media is attracted to the media mounting surface of the central portion of the platen using atmospheric pressure. 3. The ink jet printer according to claim 1, further comprising suction means.

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