JP3826088B2 - Recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording apparatus for recording an image on a recording medium. In In particular, a recording apparatus for recording an image on a recording medium by discharging liquid from a recording head separated from the recording medium In Related.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a serial ink jet printer, which is one of serial type recording apparatuses, rotates a recording sheet, which is a recording medium, and a conveyance roller, which is a conveyance unit, following the recording sheet, as disclosed in Patent Document 1, for example. A recording head that is a recording unit that transports an optimum amount on a platen that supports the recording sheet by a pinch roller, and that is separated from the recording sheet and discharges liquid onto the recording sheet is mounted on a carriage that is the carrier unit. An image is recorded on the recording sheet by ejecting liquid ink from at least one ejection port array (nozzle array) of the recording head while scanning in a direction (main scanning direction) intersecting the recording sheet conveyance direction. . In recent years, there has been a demand for higher quality images to be recorded, and recently, the interval between the recording head and the recording sheet (hereinafter, referred to as “paper interval”) has become narrower. This is because the distance between the ink droplets ejected from the recording head and the time required for landing are shortened by narrowing the gap between the sheets, and the amount of deviation between the ink droplet landing position and the target position is kept small.
[0003]
However, as the gap between the sheets is reduced, the recording head and the recording sheet collide when the behavior of the recording sheet becomes unstable, and the ink adhering to the surface of the recording head is transferred to the recording sheet. There is a high possibility that the image quality of the recording sheet is deteriorated, or that the recording head and the carriage which are being scanned catch the recording sheet and damage the recording sheet. Furthermore, there is a possibility that the recording head that has collided with the recording sheet is damaged, and normal recording cannot be guaranteed.
[0004]
In the above-described ink jet printer, the left and right side edges of the recording sheet are particularly likely to float, and the possibility of collision with the recording head increases. In addition, due to the configuration of the serial type recording apparatus, while the recording sheet is being conveyed while being pressed between the pinch roller located upstream in the conveying direction from the recording head and the spur located downstream, the recording sheet Is relatively stable, but when recording at the leading edge or trailing edge in the recording sheet conveyance direction, hold down both the leading edge and trailing edge of the recording sheet upstream and downstream of the recording head. Therefore, there is a high possibility that the recording sheet will float and collide with the recording head.
[0005]
In the ink jet printer, various measures have been conventionally taken in order to prevent the above-described collision between the recording head and the recording sheet. First, paying attention to the area other than the area where the image is recorded on the left and right side edges of the recording sheet, that is, the blank area that does not cover the recording area of the recording sheet, the nozzle array that is the ejection port array of the ink droplets of the recording head A plate-like member (recording sheet floating prevention member) having a length equal to or longer than the length is arranged at a position corresponding to a blank portion on the carriage scan when the recording sheet is conveyed to a position facing the nozzle row. This prevents the side edge of the recording sheet from floating.
[0006]
For recording at the leading end of the recording sheet, the rotation axis of the pinch roller is disposed on the recording head side (downstream in the recording sheet conveyance direction) with respect to the rotation axis of the conveyance roller. Was pressed against the platen by a pinch roller to prevent the recording sheet from floating up. Further, for recording at the rear end of the recording sheet, the rotation shaft of a spur that rotates following the discharge roller is arranged on the recording head side (upstream in the conveyance direction of the recording sheet) from the rotation shaft of the discharge roller. When there are two rows of paper discharge rollers, the rear end of the recording sheet is pressed against the platen by increasing the height of the downstream paper discharge roller to prevent the recording sheet from floating up. Further, the height of the discharge tray is increased by an optimum amount to prevent the recording sheet from hanging downward, thereby preventing the recording sheet from floating in the recording area with the discharge roller as a fulcrum.
[0007]
[Patent Document 1]
JP-A-5-208746
[0008]
[Problems to be solved by the invention]
The above-described countermeasure against the floating of the leading end of the recording medium in the conventional ink jet printer has a great effect of preventing the recording medium from floating because the pressing force of the pinch roller against the platen is large. However, the countermeasure against the lifting of the trailing edge of the recording medium is likely to be lifted because the pressing force against the platen is small. Therefore, if the side edge of the recording medium, particularly the upstream side edge in the conveyance direction, is not pressed by the anti-floating member, the farthest from the spur and the discharge roller on the downstream side in the conveyance direction, There is a problem that the possibility that the rear end of the recording medium collides with the recording head becomes high.
[0009]
On the other hand, when performing so-called marginless recording in which recording is performed on the entire recording sheet, a recording region extends to the side edge of the recording sheet, and a recording sheet floating prevention member is provided in a margin portion outside the recording region on the carriage scan. It becomes difficult. As a result, there is a problem that the recording sheet and the recording head easily collide.
[0010]
SUMMARY OF THE INVENTION An object of the present invention is a recording apparatus capable of preventing a collision between a recording medium and a recording head for both recording with margin and recording without margin without causing a decrease in recording speed and recording quality. The It is to provide.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, a recording apparatus according to the present invention includes a marginless nozzle array used for marginless recording that performs recording over the entire width of a recording medium, and the marginless nozzle array in the conveyance direction of the recording medium. In the recording apparatus for recording on the recording medium by the recording means having the marginal nozzle row which is arranged on the upstream side and performs recording while leaving the margin at the side edge of the recording medium, the end of the recording medium being conveyed A floating prevention member that suppresses the floating is provided, and the floating prevention member does not overlap with the recording area recorded by the marginless nozzle row in the recording medium conveyance direction, and is recorded by the marginal nozzle row. And overlap In addition, the recording medium is disposed outside the recording area recorded by the nozzle row with margin in the width direction of the recording medium. It has a floating prevention region.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
A recording apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings. In this specification, “record” is not only formed when significant information such as characters and figures is formed, but also manifested so that human beings can perceive it visually. Regardless of whether or not the image, pattern, pattern or the like is widely formed on the recording medium, or the medium is processed. Here, “recording sheet” (sometimes referred to as “recording medium”) includes not only paper used in general recording apparatuses, but also widely, cloth, plastic, film, metal plate, glass, ceramics, wood, etc. , Leather and the like that can accept ink.
[0025]
Further, “ink” (sometimes referred to as “liquid”) is to be interpreted widely as the definition of “recording” above, and is applied to a recording medium so that images, patterns, patterns, etc. A liquid that can be used for formation or processing of a recording medium, or ink processing (for example, solidification or insolubilization of a coloring material in ink applied to the recording medium).
[0026]
(First embodiment)
First, the recording apparatus according to the first embodiment of the present invention will be described. FIG. 1 is a perspective view showing the overall configuration of the recording apparatus of this embodiment, and FIG. 2 is a front view showing the overall configuration of the recording apparatus of this embodiment. The recording apparatus of this embodiment is a serial ink jet printer equipped with a recording head to which an ink tank can be attached and detached.
[0027]
1 and 2, reference numeral 101 denotes a recording head on which an ink tank is mounted, and reference numeral 102 denotes a carriage on which the recording head 101 is mounted. A guide shaft 103 is inserted into a bearing portion (not shown) of the carriage 102 so that the carriage 102 can slide in the main scanning direction, and both ends of the guide shaft 103 are fixed to the chassis 113. ing. The carriage 102 can be moved in the main scanning direction by transmitting the drive of the drive motor 105 as the carriage drive means via the belt 104 as the carriage drive transmission means engaged with the carriage 102.
[0028]
During recording standby, recording sheets (not shown in FIGS. 1 and 2) are stacked on the paper feed base 106, and the recording sheets are fed by the paper feed roller 201 at the start of recording. The fed recording sheet is conveyed by an appropriate feeding amount by a conveyance roller 108 that is rotated by driving of the conveyance motor 107 and a pinch roller 109 that is pressed against the conveyance roller 108 by a pinch roller spring 110 and is driven to rotate. During the scanning of the carriage 102, the recording head 101 discharges ink onto the recording sheet pressed against the platen 111 to record an image on the recording sheet. After the image recording is completed, the recording sheet is discharged by a discharge unit (not shown in FIGS. 1 and 2), and the recording operation is completed. The recording sheet on the paper feed base 106 is set with reference to the right end 106a in FIG. Therefore, even when recording sheets having different widths are fed, the position of the right end of the recording sheet does not change. Reference numeral 112 denotes a recording sheet lifting prevention member (recording medium lifting prevention member) that suppresses lifting of the end of the recording sheet being conveyed, and is attached to the platen 111.
[0029]
FIG. 3 is a schematic cross-sectional view showing the structure around the recording head 101 and the platen 111 in the recording apparatus of the present embodiment. As shown in FIG. 3, the recording sheet floating prevention member 112 is disposed between the recording sheet 301 on the platen 111 and the recording head 101, and prevents contact between the recording sheet 301 and the recording head 101. In addition, the recording sheet 301 conveyed by the pinch roller 109 and the conveying roller 108 is sandwiched between the discharge roller 302 and the spur 303 which are discharge units on the downstream side in the conveying direction P.
[0030]
FIG. 4 is a front view showing a surface on which the ejection port arrays of the recording head 101 are arranged in the recording apparatus of the present embodiment. Reference numeral 401 denotes a nozzle row that discharges black ink droplets, and reference numeral 402 denotes a nozzle row that discharges color ink droplets. Actually, the nozzle row 402 is composed of a plurality of nozzle rows that respectively discharge cyan, magenta, and yellow ink droplets. However, in FIG. 4, the nozzle row 402 is shown as a single nozzle row for the sake of simplicity. ing.
[0031]
In normal use as a printer, recording with black ink is generally text recording, and a high recording speed is required. Therefore, the nozzle row 401 is desirably a nozzle row that is as long as possible in the conveyance direction P of the recording sheet 301. For recording without high-quality margins (such as photographs), recording with color ink is mainly performed. Accordingly, the nozzle row 401 (length N1) is configured to be longer than the nozzle row 402 (length Col), and the nozzle row 402 is in the recording sheet conveyance direction P rather than the position where the recording sheet floating prevention member 112 is disposed. It is provided on the downstream side. By disposing the nozzle rows 401 and 402 on the discharge port surface as described above, the region 1 in which the length of the recording sheet conveyance direction P is N1 in the region where the nozzle row 401 is disposed, and the nozzle In a region where both the rows 401 and 402 are arranged, a region 2 in which the length of the recording sheet in the conveyance direction P is N2 is formed on the discharge port surface.
[0032]
In the recording apparatus of the present embodiment, the nozzle row in area 1 is used as a printing nozzle array with margin used for printing with margins left on the side edge of the recording sheet, and the nozzle row in area 2 is recorded. A marginless recording nozzle array used for marginless recording to be recorded up to the sheet side end, that is, in the entire width direction of the recording sheet. Therefore, in the recording apparatus of the present embodiment, all the nozzles of the nozzle array 401 that ejects black ink are the recording nozzle arrays with margins. In the recording apparatus of this embodiment, the region 1 includes the region 2, and the marginless recording ejection port array is included in the marginal recording ejection port array.
[0033]
The area 2 is provided downstream of the area 1 in the recording sheet conveyance direction P. There are various meanings for installing the nozzle row 401 upstream of the nozzle row 402 in the conveyance direction P of the recording sheet. For example, the recording line feed can be shifted so that the color is recorded after the black is recorded first and the ink is fixed to some extent, so that the recording boundary between the black ink and the color ink is blurred and the density is lowered due to ink drawing. It can be reduced. Accordingly, it is preferable that the recording head 101 in the recording apparatus of the present embodiment has a configuration in which N1−N2 ≧ Col and black ink can be recorded by a line feed before color ink recording. In the case of a recording apparatus that uses both the nozzle row 401 that ejects black ink and the nozzle row 402 that ejects color ink only in the high image quality mode in which an image is formed by a plurality of scans, N1- Even if N2 <Col, the effect of reducing bleeding and density reduction may be obtained.
[0034]
5 and 6 are diagrams illustrating the relationship between the recording area in the nozzle rows 401 and 402 and the recording sheet floating prevention member 112. FIG. In FIG. 5, reference numeral 112 a denotes a recording sheet floating prevention area in the recording sheet floating prevention member 112. Reference numeral 501 denotes a recording area that can be recorded by the marginless recording nozzle row in the area 2 of the recording head 101. In order to enable recording up to the side edge of the recording sheet, the end position A in the carriage scanning direction of the recording area 501 is the same position as the recording sheet end B or outside the recording sheet 301. The recording sheet floating prevention area 112a is disposed so as not to overlap the recording area 501 in the recording sheet conveyance direction.
[0035]
The nozzle row 401 shown in FIG. 4 can eject ink from the nozzle row of the entire region 1 when printing with a margin, and only the nozzle row in the region 2 by limiting the nozzle row that ejects ink when printing without a margin. It is assumed that ink can be discharged from However, as described above, when the compatibility with the recording sheet to be used is not suitable, for example, because the black ink is a pigment ink, the black ink is not used but the black ink is superimposed by overlapping the color inks. It may be reproduced. In this case, as shown in FIG. 4, the length N2 in the transport direction P of the marginless recording nozzle row is made the same as the length Col of the nozzle row 402. In FIG. 4, the position of the downstream end of the nozzle row 401 and the position of the downstream end of the nozzle row 402 in the transport direction P coincide with each other, but this is not always necessary, and the downstream end of the nozzle row 401 is It may be located further downstream from the downstream end of the nozzle row 402, or may be located upstream from the downstream end of the nozzle row 402 when black ink is not used during marginless recording.
[0036]
In the recording apparatus of the present embodiment, a recording sheet floating prevention region 112a, which is a region where the recording sheet floating prevention member 112 and the recording sheet 301 overlap, is provided upstream of the marginless recording nozzle row in the region 2 in the transport direction P. Then, the floating of the recording sheet 301 is suppressed. By providing the recording sheet floating prevention area 112a as described above, it is possible to suppress the floating of the recording sheet 301 immediately after passing through the pinch roller 109. This is because the spur 303 located downstream prevents the recording sheet 301 from lifting up from the pinch roller 109, but the effect of preventing the paper lift becomes smaller the further away from the spur 303, and the pinch roller 109 is removed. This is because the occurrence of lifting at the rear end portion of the recording sheet immediately after that is the largest.
[0037]
As shown in FIG. 5, in order to make the recording sheet floating prevention region 112a as wide as possible in order to enhance the floating prevention effect during conveyance of the recording sheet, the downstream end position C of the recording sheet floating prevention region 112a has a marginless recording nozzle. It is preferable to arrange so as to be close to the most upstream position D of the row.
[0038]
In the recording apparatus of the present embodiment, the recording sheet floating prevention member 112 and the recording sheet overlap in the upstream of the recording area 501, but the recording sheet floating prevention member 112 and the recording sheet do not overlap in the recording area 501 and downstream thereof. Therefore, the recording sheet floating prevention member 112 does not come into contact with the area where recording has been completed on the recording sheet, and can prevent deterioration of the image after recording.
[0039]
In FIG. 6, reference numeral 601 denotes a recording area in which recording can be performed by a recording nozzle array with a margin of the recording head 101. The recording sheet floating prevention area 112a is substantially in the same position as the nozzle row used for printing with a margin in the conveyance direction P of the recording sheet 301, and the nozzle row used for printing with a margin in the scanning direction of the carriage. Is disposed outside the recording area 601. An end E on the recording sheet side of the recording sheet floating prevention area 112 a is located outside the end A <b> 2 of the recording area 601 and located inside the side end B of the recording sheet 301. That is, only the blank area of the recording sheet 301 overlaps the recording sheet lifting prevention member 112 and is not in contact with the recording area 601, so that the recording sheet 301 can be reliably prevented from floating, and after recording. Image degradation can be prevented.
[0040]
As described above, in the recording apparatus of the present embodiment, marginless recording can be realized by suppressing the floating of the recording sheet 301 upstream of the marginless recording area 501 by the recording sheet lifting prevention member 112. Further, by increasing the length of the recording nozzle row with margins in the conveyance direction P, it is possible to prevent the recording sheet 301 and the recording head 101 from colliding while maintaining the nozzle use efficiency (speed) for marginal recording. .
[0041]
Further, since the recording sheet floating prevention member 112 can be realized only by attaching a plate-like member to the platen 111, it is easy to obtain a height dimension, and the height clearance between the recording head 101 and the recording sheet floating prevention member 112 is easy. Also easy to secure. However, the recording sheet lifting prevention member 112 is not limited to the member attached to the platen 11, and may be attached to a member holding the pinch roller 109 or a member holding the spur 303, and further cost. In order to obtain a merit, the platen 111 or the above-described member may be integrated. When integrated with the platen 111, the number of parts such as the recording sheet floating prevention member 112 and attachment means can be reduced.
[0042]
Further, in the recording apparatus of the present embodiment, when black ink is used, the use nozzle area is changed between the recording without margin and the recording with margin, but the color ink as in the recording head 101 shown in FIG. Similarly to the nozzle row 701 that discharges black ink, the nozzle row 702 that discharges ink uses the entire nozzle region 1 of length N1 when printing with margins, and the nozzle row of the region 2 of length N2 when printing without margins. You may make it restrict | limit to use only.
[0043]
Further, although the shape of the recording sheet floating prevention member 112 on the recording sheet reference side has been described so far, the recording sheet floating prevention member on the non-reference side will also be described. FIG. 8 is a diagram showing the relationship between the non-reference side recording area and the recording sheet floating prevention member 801. In FIG. 8, reference numeral 802 denotes a letter size recording sheet, and reference numeral 803 denotes an A4 size recording sheet that is frequently used. WA4 is the side edge position of the A4 size recording sheet, and WLTR is the side edge position of the letter size recording sheet.
[0044]
As shown in FIG. 8, the non-reference-side recording sheet floating prevention member 801 has a shape that does not overlap the recording area of the marginless recording, similarly to the recording sheet floating prevention member 112 on the reference side. A recording sheet floating prevention area 801a for preventing the floating of the recording sheet of the size and a recording sheet floating prevention area 801b for preventing the floating of the letter size recording sheet are provided. The position of the end of the recording sheet lifting prevention area 801a is inside the recording sheet from the side edge position WA4 of the A4 size recording sheet, and the position of the end of the recording sheet lifting prevention area 801b is the position of the A4 size recording sheet. It is between the side end position WA4 and the side end position WLTR of the letter size recording sheet. That is, the recording sheet lifting prevention member 801 has a lifting prevention area for each size of the recording sheet. The end of each floating prevention area is between the side end position of the recording sheet of the size to be prevented and the side end position of the recording sheet that is one size smaller than the size.
[0045]
In this way, the recording apparatus of the present embodiment has the recording sheet floating prevention areas 801a and 801b, so that the A4 size recording sheet 802 and the letter size recording sheet 803 that are frequently used can float on the non-reference side. Can be suppressed. In the recording apparatus of the present invention, even when recording on a recording sheet of another size, by including a recording sheet lifting prevention member having a recording sheet lifting prevention region along the side edge position of each recording sheet, It is possible to prevent the recording sheet from floating.
[0046]
(Second Embodiment)
Next, a recording apparatus according to the second embodiment of the present invention will be described. FIG. 9 is a diagram illustrating a relationship between the nozzle row and the recording sheet floating prevention member in the recording apparatus according to the present embodiment. Note that the numbers and symbols used in the description of the recording apparatus of the present embodiment are indicated by the numbers and symbols used in the description of the recording apparatus of the first embodiment, unless otherwise specified. Assume that the same elements, the same configuration, and the same function as those indicated by the numbers and symbols used in the description of the recording apparatus of the first embodiment are used.
[0047]
In the configuration of the nozzle array of the recording head 101 in the recording apparatus of the first embodiment shown in FIG. 4, the nozzle array 402 that ejects color ink and the nozzle array that ejects black ink, which are used for marginless recording, are the same. The nozzle row included in the region 2 was obtained. On the other hand, in the recording apparatus of the present embodiment, as shown in FIG. 9, the position of the nozzle row 901 (transport direction length Bk2) that ejects black ink is set to the position of the nozzle row 902 (transport direction length) that ejects color ink. The area of the recording nozzle row without margin is the area 3 (length in the transport direction N3 = Bk2 + Col).
[0048]
In the recording apparatus of the present embodiment, the length Bk2 of the nozzle row used for marginless printing in the nozzle row 901, that is, (N3-Col) is preferably equal to or greater than Col. In addition, it is preferable that the nozzle row length Bk1 that can be used only for printing with margins in the nozzle row 901, that is, (N1-N3) is equal to or greater than Col.
[0049]
By doing so, black printing can be performed by the nozzle row Bk2 used for printing without margins in the nozzle row 901 in the line immediately before printing in the nozzle row 902 of color ink even at the time of printing without margins. High-quality marginless recording can be realized even with a simple recording sheet. At the same time, even during recording with margins, recording can be performed by the nozzle row Bk1 used for recording with margins in the nozzle row 901 before two line feeds immediately before the nozzle row 902 recording. An image can be obtained.
[0050]
For the recording sheet floating prevention member 112, similarly to the above example, by setting the area for pressing the margin of the recording sheet floating prevention member 112 upstream from the area 3, the recording sheet can be reliably prevented from floating, Since the recording sheet floating prevention member 112 does not come into contact with the recording area, it is possible to prevent deterioration of the image after recording.
[0051]
In the recording apparatus of this embodiment, the downstream end in the transport direction P of the nozzle row 901 that ejects black ink and the upstream end in the transport direction P of the nozzle row 902 that ejects color ink coincide with each other. It is not necessary, and the downstream end of the nozzle row 901 may coincide with the downstream end of the nozzle row 902 or may be located further downstream.
[0052]
As described above, in the recording apparatus of the present embodiment, even in the case of marginless recording, by providing an area for recording with the nozzle row 901 upstream of the nozzle row 902, a higher-quality image can be obtained even with a recording sheet that tends to bleed. Further, by providing a nozzle used for printing with a margin upstream from a nozzle that uses a marginless recording, printing can be performed with a long nozzle row in the transport direction P, and the recording speed can be maintained. Then, it is substantially the same position as the nozzle area used for printing with margins in the conveyance direction P of the recording sheet 301 and outside the nozzle area used for printing with margins in the scanning direction of the carriage (margin part). Further, since the recording sheet floating prevention member 112 is provided, collision between the recording sheet and the recording head can be prevented, and deterioration of the image after recording and damage to the recording head can be prevented.
[0053]
In the recording apparatus of the present invention, as described in the first embodiment and the second embodiment, the nozzle configuration of the recording head corresponds to the shape of the recording sheet floating prevention member, that is, conveyance of the recording sheet. If the recording use nozzle row with no margin for the direction P is a recording head disposed downstream of the downstream end of the recording sheet floating prevention region of the recording sheet floating prevention member, the recording heads having various nozzle configurations are used. Applicable. FIG. 10 is a front view showing a nozzle configuration of a recording head applicable to the recording apparatus of the present invention. FIG. 10A shows the nozzle configuration of the recording head described in the first embodiment, and FIG. 10B shows the nozzle configuration of the recording head described in the second embodiment.
[0054]
As shown in FIGS. 10A and 10B, the upstream end of the recording head region 1 (length N1) in the first embodiment and the upstream end of the recording head region 1 of the second embodiment If the upstream end of the region 2 of the nozzle array 401 of the recording head in the first embodiment and the upstream end of the region 3 of the nozzle array 1001 of the second embodiment are matched with each other, The relationship N1-N2 ≧ Col described in the first embodiment, Bk2 ≧ Col described in the second embodiment, that is, N3-Col ≧ Col, and Bk1 ≧ Col, that is, N1-N3 ≧ Col are maintained. The same recording sheet floating prevention member 112 can be applied while being leaned. Here, the upstream end position of the recording use nozzle row with margin and the upstream end position of the recording use nozzle row without margin are matched, but the conveyance direction of the recording sheet floating prevention region 112a of the recording sheet floating prevention member 112 As long as the nozzle area used for marginless recording is positioned downstream from the downstream end C of P, the same effect of preventing the recording sheet from floating can be obtained.
[0055]
Further, even when a recording head in which the length of the nozzle row for ejecting black ink is the same as the length of the nozzle row for ejecting color ink is employed, as shown in FIG. The column is 1001, the nozzle row that discharges color ink is 1002, and all the nozzle rows 1001 and 1002 are installed in the marginless recording area (length N4). As shown in FIG. The nozzle row that discharges ink is 701, the nozzle row that discharges color ink is 702, and in the nozzle rows 701 and 701, the nozzle row that discharges ink when there is no margin printing is limited to the nozzle row in the region of length N5. Thus, the same recording sheet floating prevention member 112 can be applied.
[0056]
As described above, in the recording apparatus of the present invention, it is possible to selectively mount various recording heads having different nozzle row arrangement patterns, thereby providing a degree of freedom in selecting the recording head. Further, the same recording sheet floating prevention members 112 and 801 in the recording apparatus of the first embodiment are also applied to other recording apparatuses having various recording heads as shown in FIGS. 10 (a) to 10 (d). The recording sheet floating prevention effect of the present invention can be obtained. That is, it is possible to obtain a merit such as cost reduction and reduction of development load by sharing the recording sheet floating prevention member between the recording apparatuses.
[0057]
【The invention's effect】
According to the present invention, there is provided a recording apparatus capable of preventing a collision between a recording medium and a recording head in both recording with margins and recording without margins without causing a decrease in recording speed or recording quality. be able to.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating an overall configuration of a recording apparatus according to a first embodiment of the invention.
FIG. 2 is a front view illustrating the overall configuration of the recording apparatus according to the first embodiment of the invention.
FIG. 3 is a schematic cross-sectional view showing a structure around a recording head and a platen in the recording apparatus according to the first embodiment of the present invention.
FIG. 4 is a front view showing a surface on which the ejection port arrays of the recording head are arranged in the recording apparatus according to the first embodiment of the present invention.
FIG. 5 is a diagram illustrating a relationship between a recording region in a nozzle row and a recording sheet floating prevention member.
FIG. 6 is a diagram illustrating a relationship between a recording area in a nozzle row and a recording sheet floating prevention member.
FIG. 7 is a front view showing a surface on which the ejection port array of the recording head is disposed.
FIG. 8 is a diagram illustrating a relationship between a non-reference side recording area and a recording sheet floating prevention member.
FIG. 9 is a diagram illustrating a relationship between a nozzle row and a recording sheet floating prevention member in a recording apparatus according to a second embodiment of the invention.
FIG. 10 is a front view showing a nozzle configuration of a recording head applicable to the recording apparatus of the present invention.
[Explanation of symbols]
101 Recording head
102 Carriage
103 Guide shaft
104 belt
106 Paper feed base
106a right end
107 Conveyor motor
108 Conveying roller
109 Pinch roller
110 Pinch roller spring
111 platen
112,801 Recording sheet lifting prevention member
112a, 801a, 801b Recording sheet floating prevention area
113 Chassis
301, 802, 803 Recording sheet
302 Paper discharge roller
303 Spur
401, 402, 701, 702, 901, 902, 1001, 1002 nozzle array
501 601 recording area

Claims (7)

No-margin nozzle row used for no-margin printing for printing over the entire width of the recording medium, and a margin at the side edge of the recording medium arranged upstream of the no-margin nozzle row in the recording medium conveyance direction In a recording apparatus that performs recording on a recording medium by a recording means having a nozzle row with a margin for performing recording while leaving
A floating prevention member that suppresses the floating of the edge of the recording medium being conveyed, and the floating prevention member does not overlap the recording area recorded by the marginless nozzle row in the conveyance direction of the recording medium; A recording having an anti-floating area that overlaps with a recording area recorded by a nozzle array with a margin and is arranged outside the recording area recorded by the nozzle array with a margin in a width direction of the recording medium. apparatus. The recording apparatus according to claim 1 , wherein the marginless nozzle row is included in the marginal nozzle row. The recording apparatus according to claim 1 or 2, characterized in that said in the margin nozzle array includes the nozzle array to discharge black ink. The recording apparatus according to claim 3 , wherein the marginless nozzle row includes a nozzle row that ejects color ink, and is shorter than the nozzle row that ejects black ink included in the marginal nozzle row. The marginless nozzle row includes a nozzle row that discharges black ink and a nozzle row that discharges color ink, and the nozzle row that discharges black ink is arranged upstream of the nozzle row that discharges the color ink. it is the recording apparatus according to claim 1, any one of 4, wherein. The recording apparatus according to any one of claims 1 to 5, characterized in that the arrangement of the nozzle array can be selectively mounted different recording means. It said floating preventing member, a recording apparatus according to any one of claims 1 to 6, characterized in that it is integrally formed in the platen for supporting the recording medium.

Images