JP3904055B2 - Inkjet recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ink jet recording apparatus, and more particularly, to an ink jet recording apparatus having a function of executing recording to make at least one margin at the start and end of a recording material zero, and a recording method using the recording apparatus. Is.
[0002]
[Prior art]
A conventional example of a platen structure of an ink jet recording apparatus will be described. The ink jet recording head has a dot forming element array (hereinafter referred to as a nozzle array) in which a large number of dot forming elements (hereinafter referred to as nozzles) are arranged in the sub-scanning direction. A platen is provided to face the recording head. The platen plays a role of defining the recording position of the recording paper. A plurality of ribs are arranged at predetermined intervals in the main scanning direction on the platen surface of the platen. The recording paper is supported by the flat top surface of the rib, and the position with respect to the recording head is defined.
[0003]
In normal recording by the ink jet recording apparatus, recording is performed with a margin provided around the beginning and end of the recording sheet. However, recording may be performed without a margin from the beginning of the recording sheet. In the case of recording without margins, in the conventional platen structure, the ink that has been thrown away from the starting edge of the recording paper adheres to the platen surface, so that the ink reattaches to the recording paper and causes the recording paper to become dirty. Occurs.
[0004]
In view of this, there has been proposed one in which a large hole is provided in the platen surface over the entire range facing the nozzle array of the recording head so that the discarded ink is received in the large hole and does not adhere to the platen surface. However, when this large hole is provided, there is a problem that the leading edge of the recording paper fed by the paper feed roller, which is a recording material feed roller, easily hits the wall of the large hole, and so-called paper jam is likely to occur at this portion. In addition, if there is this large hole, the position of the recording paper is firmly supported at the position facing the nozzle array and it is difficult to define, so that the distance between the recording head and the recording paper is not fixed, and there is a problem that the recording quality is deteriorated.
[0005]
Each of the above problems also occurs when the inkjet recording apparatus tries to record the end of the recording paper without a blank space. Since the problem of this termination is basically the same as that of the above-mentioned recording paper start, its description is omitted.
[0006]
[Problems to be solved by the invention]
An object of the present invention is to prevent the recording material from being damaged by the discarded ink when recording the recording material at the start end or the end of the recording material, or both of them without margins. It is an object of the present invention to provide an ink jet recording apparatus that firmly supports and defines the position of the recording medium and does not deteriorate the recording quality, and a recording method using the recording apparatus.
[0007]
[Means for Solving the Problems]
  In the following description, “first hole” corresponds to “another hole” in the claims when the term is not in the claims, and “second hole” is the term in the claims. If not, it corresponds to a “hole” in the claims.
  To achieve the above object, according to the first aspect of the present invention, a recording head having a dot forming element array in which a plurality of dot forming elements are arranged in the sub-scanning direction, and scanning the recording head in the main scanning direction. However, when recording on a recording material facing the recording head, a platen that defines the position of the recording material, a recording material feed roller disposed on the upstream side of the recording head, and the recording head The platen is provided with a first hole in a portion of the platen surface of the dot forming element array that faces the downstream portion in the sub-scanning direction. The ink is formed so as to guide the ink that has been discarded from the start end to the first hole when the start end is recorded without a blank space, and the platen surface is within a range facing the dot forming element array and the first end. One hole and another In addition, a position defining function unit for defining the position of the recording material with respect to the recording head by supporting the recording material from below is provided, and the position defining function units are separated from each other in the main scanning direction. The inkjet recording apparatus is composed of a plurality of ribs arranged in a row.
  In other words, the platen is formed so that the opening faces the first hole in the vicinity of the end of the distribution range of the dot forming element array.
[0008]
In the present invention, the first hole is formed not locally on the entire platen surface but locally at a position corresponding to the start end of the recording material when the start end of the recording material is recorded without a margin. That is, since the position defining function part for defining the position of the recording material is left in the part of the platen surface facing the recording head, when recording the starting end of the recording material without a margin, from the starting end The ink that has been thrown away and thrown away is guided to the first hole, and the recording material is defined in such a manner that the position of the recording material is firmly supported with respect to the recording head. Therefore, when recording the start edge of the recording material without a margin, the recording material is not damaged by the discarded ink, and further, the recording position of the recording material is firmly supported and defined. Does not decrease.
[0009]
  According to the second aspect of the invention, the recording head having a dot formation element array in which a plurality of dot formation elements are arranged in the sub-scanning direction, and the recording head while scanning the recording head in the main scanning direction. When recording on the recording material facing the head,Recording materialA platen that defines the position of the recording head, a recording material feed roller disposed on the upstream side of the recording head, and a discharge roller disposed on the downstream side of the recording head. A second hole is provided in the platen surface of the element array that faces the upstream portion in the sub-scanning direction, and the second ink is removed from the end when the end of the recording material is recorded without any margin. Formed to lead to the holeThe recording head of the recording material is supported on the platen surface by contacting the recording material from below and supporting the recording medium at a position different from the second hole within a range facing the dot forming element array. A position defining function part for defining the position with respect to the position is provided, and the position defining function part is configured by a plurality of ribs arranged apart from each other in the main scanning direction.Has beenInkjet recording device.
  That is, the platen is formed such that the opening faces the second hole near the end of the distribution range of the dot forming element array.
[0010]
According to this, the second hole is formed not at the whole platen surface but at a position corresponding to the end of the recording material when recording the end of the recording material without a margin. That is, since the position defining function part for defining the position of the recording material is left in the part of the platen surface facing the recording head, when recording the end of the recording material without a margin, The ink that has been removed and thrown away is guided to the second hole, and the recording material is firmly positioned with respect to the recording head. Therefore, when recording the end of the recording material without margins, the recording material is not damaged by the discarded ink, and further, the recording position of the recording material is firmly supported and defined. Does not decrease.
[0011]
According to a third aspect of the present invention, in the ink jet recording apparatus having the first hole, the platen further includes the second hole described in claim 2.
As a result, when recording without margins at both the start and end of the recording material, there is no risk that the recording material will be damaged by the discarded ink, and the recording material's recording position is firmly defined. Does not degrade the recording quality.
[0012]
According to the fourth aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, the recording head is arranged such that the dot forming element array is controlled by the dot drive control unit that drives the dot forming element array. The standard interlace recording for recording by driving all the dot forming elements and the limited interlace recording for recording by driving only for a part of the dot forming elements can be switched and executed. The limited interlaced recording is executed when the start end of the recording medium is located in the first hole portion and when the end of the recording material is located in the second hole portion.
[0013]
According to the present invention, when recording the start edge and the end edge of a recording sheet without a margin, by executing the limited interlace recording, the amount of ink to be discarded and the image data to be discarded correspondingly can be reduced. In addition, the degree of cockling in this portion can be reduced. Further, by performing interlaced recording on portions other than the start end and end of the recording material, high-quality recording can be performed without reducing the throughput.
[0014]
According to the fifth aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, the recording material is placed on the platen surface within a range facing the dot forming element array. A flat top surface that is in contact with and supports is located. Thereby, the position of the recording material with respect to the recording head can be stabilized and firmly defined.
[0015]
According to the sixth aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, the platen surface has the recording material on the downstream side outside the range facing the dot forming element array. There is a flat top surface that supports and supports from below. As a result, even if the ink is accidentally adhered to the platen surface at a position facing the dot forming element array during recording using all the nozzles, the medium until the recording material being recorded is discharged. Will not get dirty. Further, since the distance from the recording material feed roller to the flat top surface can be set long, the recording material conveyance load can be reduced, and the conveyance of particularly thick paper can be improved.
[0016]
According to the seventh aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, the ink absorbing material is provided in the hole. With this ink absorbing material, the discarded ink can be stably stored and stored without leaking, and the removal and replacement work is also easy.
[0017]
According to the eighth aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, the water-repellent net is provided at the opening of the hole, and the ink is in contact with the net An absorber is provided in the hole.
[0018]
According to this configuration, since the opening of the hole is covered with the mesh body, in the conveyance of the recording paper, the state is almost the same as the absence of the hole, and the position can be regulated firmly. Further, the abandoned ink hits and adheres to the mesh body, but since it is water-repellent, the adhering ink is immediately absorbed by the absorber, so that there is almost no adhering ink on the contact surface with the recording material. Become. Therefore, there is almost no risk of the ink reattachment while firmly defining the position of the recording material.
[0019]
According to the ninth aspect of the present invention, in the ink jet recording apparatus having the first hole and the second hole, an openable / closable lid is provided at the opening of the hole, and the lid is made of a recording material. Is opened when recording without a margin, and closed when recording other than the marginless recording.
[0020]
According to this configuration, the hole on the platen surface is opened by the lid body when recording the start end or end of the recording material without a margin, and is closed at times other than the marginless recording. That is, since the hole that is necessary only when the start or end of the recording material is recorded without a margin is opened and closed when not necessary, there is no functional waste.
[0021]
According to a tenth aspect of the present invention, in the ink jet recording apparatus having the lid, the lid has a pivot point below the opening of the hole, and rotates around the pivot point. It is driven to open and close. According to this configuration, it is possible to eliminate the mechanism for opening and closing the lid on the recording paper conveyance path, and therefore, by providing a new member, it is possible to prevent the possibility of occurrence of paper jam.
[0022]
  According to the eleventh aspect of the present invention, the recording head having a dot formation element array in which a plurality of dot formation elements are arranged in the sub-scanning direction, and the recording head while scanning the recording head in the main scanning direction. When recording on the recording material facing the head,Recording materialA platen that defines the position of the recording head, a recording material feed roller disposed on the upstream side of the recording head, and a discharge roller disposed on the downstream side of the recording head.The platen surface is provided with a position defining function section for defining the position of the recording material with respect to the recording head by supporting the recording material from below and supporting the recording material within a range facing the dot forming element array. In addition, the position defining function unit is composed of a plurality of ribs that are spaced apart from each other in the main scanning direction.A recording method for recording an end portion of a recording material in a sub-scanning direction without a margin by an inkjet recording apparatus, wherein the ink is applied in a state where the end portion of the recording material is located within a range of the dot-forming element array in the sub-scanning direction. Eject some of that inkPart used for recording without margins in the dot forming element arrayIs recorded in the end of the recording material without any blank space.
[0023]
According to this recording method, when recording the start edge of the recording material without margins, the recording material is not damaged by the discarded ink without lowering the throughput. The position of the head is firmly supported and does not deteriorate the recording quality.
[0024]
According to the twelfth aspect of the present invention, in the recording method using the ink jet recording apparatus, the recording head records the end of the recording material without a margin, and is closer to the end of all the dot forming elements. Interlaced recording is performed by driving a part, and when recording other recording areas, interlaced recording is performed by driving all dot forming elements. According to this configuration, the same effect as that of the fourth aspect of the invention can be obtained.
[0025]
According to the thirteenth aspect of the present invention, the recording head having a dot formation element array in which a plurality of dot formation elements are arranged in the sub-scanning direction, and the recording head while scanning the recording head in the main scanning direction. When recording on a recording material opposed to the head, a platen for defining the position, a recording material feed roller disposed on the upstream side of the recording head, and disposed on the downstream side of the recording head An ink jet recording apparatus including a discharge roller, wherein the platen is provided with a flat top surface for supporting the recording material from below on the platen surface of the portion facing the dot forming element array. In addition, a central hole is provided in a substantially central portion of the top surface in the recording material conveyance direction, and ink that has been thrown away from the start end or the end when recording the start end and / or end of the recording material without a margin is recorded. It is formed so as to guide the center hole.
[0026]
With this configuration, it is possible to perform marginless recording at the start and / or end of the recording material with the single central hole while stably supporting the recording material with the flat top surface.
[0027]
According to the fourteenth aspect of the present invention, the dot forming element array in which a plurality of dot forming elements are arranged in the sub-scanning direction is provided for each of a plurality of colors, and a plurality of dot forming elements corresponding to each color is provided. A recording head in which the array is sequentially arranged in the sub-scanning direction, and a platen that defines the position when recording on a recording material facing the recording head while scanning the recording head in the main scanning direction; An ink jet recording apparatus comprising a recording material feed roller disposed on the upstream side of the recording head and a discharge roller disposed on the downstream side of the recording head, the platen corresponding to each color For each of the plurality of dot forming element arrays, a first hole is provided in a portion of the platen surface facing the downstream portion in the sub-scanning direction, and the first hole is paired with the upstream portion in the sub-scanning direction. A second hole is provided in the platen surface of the portion to be printed, and when the start end of the recording material is recorded without a blank for each of the plurality of dot forming element arrays corresponding to each color, the second end is removed from the start end and discarded. When the recording material is guided to the first hole and the end of the recording material is recorded without any blank space, the ink that has been removed from the end and discarded is guided to the second hole.
[0028]
According to this configuration, even when a plurality of color nozzles are arranged vertically, the first hole and the second hole are provided for each dot forming element array of each color. It is possible to perform marginless recording at the start and end of the recording material without changing from the horizontally arranged recording heads.
[0029]
According to the fifteenth aspect of the present invention, in the ink jet recording apparatus according to the thirteenth aspect, the recording head is arranged such that the dot drive control unit that drives the dot formation element array causes all dots in the dot formation element array to be printed. It is configured to be switchable between standard interlace recording for recording by driving the forming elements and limited interlace recording for recording by driving limited to some dot forming elements, and the start end of the recording material and The limited interlace recording is performed when the end is located in the central hole portion.
[0030]
According to this configuration, when recording without margins on the upper and lower sides of the recording paper, the limited interlaced recording is executed, thereby reducing the amount of ink to be discarded and the corresponding image data to be discarded. The degree of cockling in this part can be reduced. Further, by performing interlaced recording on portions other than the start end and end of the recording material, high-quality recording can be performed without reducing the throughput.
[0031]
According to a sixteenth aspect of the present invention, in the ink jet recording apparatus according to the fourteenth aspect, the recording head is configured such that the dot drive control unit that drives the dot forming element array causes all dots in the dot forming element array to be printed. It is configured to be switchable between standard interlaced recording that drives and forms recording elements, and limited interlaced recording that drives and records limited to some dot forming elements, and the beginning of the recording material is The limitation is made when each of the plurality of dot forming element arrays corresponding to each color is located in each of the first hole portions, and when the end of the recording material is located in each of the second hole portions. Interlace recording is performed.
[0032]
According to this configuration, even when a recording head in which a plurality of color nozzles are arranged vertically is arranged, when recording without margins on the top and bottom of the recording paper, it is discarded by executing the limited interlace recording. It is possible to reduce the amount of ink and image data to be discarded correspondingly, and to reduce the degree of cockling in this portion. Further, by performing interlaced recording on portions other than the start end and end of the recording material, high-quality recording can be performed without reducing the throughput.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows an ink jet recording apparatus according to a first embodiment of the present invention. FIG. 1 is a cross-sectional view of a main part in a state in which the start end of a recording sheet is recorded without margins, and FIG. 2 shows the first embodiment. FIG. 6 is a cross-sectional view of a main part in a state where the end of the recording paper is recorded without margins.
[0034]
In the present embodiment, as shown in FIG. 1, the platen 3 is provided with a first hole 11 on the platen surface of the portion facing the downstream portion of the nozzle array 2 in the sub-scanning direction. The first hole 11 serves to receive all of the ink 12 that has been removed from the start end 7 when the start end 7 of the recording paper 4 is recorded without any blank space. In order to achieve the above, they are provided in series in the paper width direction (see FIGS. 5 and 6 to be described later) or partially partitioned.
[0035]
That is, in the present embodiment, the first hole 11 is formed not locally on the entire platen surface but locally at a position corresponding to the start end 7 when the start end 7 of the recording paper 4 is recorded without a margin. A position defining function unit for defining the recording position of the recording paper 1 is left at a portion of the platen surface facing the recording head 1. That is, the rib 5 and its flat top surface 6 are formed so as to be located within a range facing the nozzle array 2. Therefore, when recording the start edge 7 of the recording paper 4 without a margin, the ink 12 removed from the start edge 7 and discarded is guided to the first hole 11, and the recording paper 4 is still on the flat top surface 6 of the rib 5. The location is well defined. Thereby, the position of the recording paper 4 with respect to the recording head 1 can be stabilized and firmly defined.
[0036]
Furthermore, in the present embodiment, the second hole 13 is provided in the platen surface of the portion facing the upstream portion of the nozzle array 2 in the sub-scanning direction. As shown in FIG. 2, the second hole 13 is formed so as to guide the ink 12 that has been removed from the end 14 and discarded when the end 14 of the recording paper 4 is recorded without a blank space, to the second hole 13. The role is the same as that of the first hole 11. In the figure, reference numeral 8 is a paper feed roller, and reference numeral 9 is a paper discharge roller, both of which are known.
[0037]
In the above embodiment, the platen provided with both the first hole 11 and the second hole 13 is shown, but only one of the holes may be provided, and the classification is assumed as a recording method. It is decided based on.
[0038]
Further, the flat top surface 6 of the rib 5 is located within the range facing the nozzle array 2, but as shown in FIGS. 3 and 4, the range facing the nozzle array 2. You may make it the structure where the said flat top surface 6 is located in the outer downstream side. If this structure is employed, even if ink is accidentally adhered to the platen surface at a position facing the nozzle array 2 during recording using all the nozzles, the recording paper 4 being recorded is discharged. The paper 4 does not get dirty. Further, since the distance from the recording material feed roller 8 to the flat top surface 6 can be set long, the conveyance load of the recording paper 4 can be reduced, and the conveyance of particularly thick paper can be improved.
[0039]
In this embodiment, a nozzle drive control unit 23 (shown only in FIG. 1 and omitted in other drawings) for driving the nozzle array 2 of the recording head 1 is disclosed in US Pat. No. 5,844,585 and the like. In order to minimize the margin at the beginning or end of the recording paper disclosed in Japanese Patent Laid-Open Nos. 9-71009 and 11-291506, all nozzles are disclosed. Of these, “limited interlaced recording” in which only a part of them is recorded with limited driving is switched and executed. That is, as shown in FIGS. 1, 3, and 5, only a part 18 on the discharge direction side of the nozzle array 2 is driven by the nozzle drive control unit 23, and ink is applied only to the start end 7 side of the recording paper 4. Is to be injected. Similarly, only a part 19 of the nozzle array 2 is driven on the end 14 side of the recording paper 4 as shown in FIGS.
[0040]
Here, based on FIG. 29, the recording head 1 performs standard interlaced recording in which all dot forming elements of the dot forming element array 2 are driven and recorded by the dot drive control unit 23 that drives the dot forming element array. And limited interlaced recording that is driven and recorded only on a part of the dot forming elements, and is configured to be executable, and when the start end 7 of the recording paper 4 is positioned in the first hole 11 portion, and It will be described that the limited interlace recording is performed when the end 14 of the recording paper 4 is positioned in the second hole 13 portion.
[0041]
FIG. 29 is a diagram showing the position of the nozzle in the sub-scanning direction during each main scanning. The vertical direction in FIG. 29 corresponds to the sub-scanning direction. In order to avoid cheekness in the figure, the nozzle positions are sequentially shifted to the right for each main scan. In order to facilitate understanding, the nozzle array 2 and holes provided in the platen for discarding ink are also shown. 29, P1, P2,... Mean the first, second, etc. main scanning. The encircled numbers indicate the positions of the nozzles in the sub-scanning direction in each scan. The numbers circled with bold lines mean that dots are formed at those positions, and the numbers circled with thin lines mean that nozzles are located but dots are not formed. is doing. The value shown on the left side of FIG. 29 is a raster number RN given to each raster for convenience. As will be described later, the lowermost raster on which an image is recorded is rasterized by guaranteeing the paper feed accuracy in the sub-scanning by this recording method. The number 0 (RN = 0) is indicated, and the raster below it is represented by a positive number, and the raster above it is represented by a negative number. The number represented in the form of “L =” represents the paper feed amount in each sub-scan with the number of rasters.
[0042]
When the standard print processing routine is started, dot formation data is set, and dots are formed while performing main scanning. In the example of FIG. 29, since the nozzle pitch is for four rasters, the data for dot formation is obtained by sequentially extracting data in the main scanning direction every four rasters from the head of the previously input image data. In the main scan P1 in FIG. 29, dots are formed every four rasters in the region above the raster number -28 (region where RN≤-28).
[0043]
Next, the paper feed roller 8 is driven and controlled to perform sub-scanning. In the example of FIG. 29, paper feeding corresponding to 7 rasters is executed, and the position of the recording head 1 moves to P2 in FIG. This feed amount is set to a feed amount at which the nozzle can be used most effectively among various feed amounts that can record an image without causing raster omission by the interlace method. The feed amount can be determined according to the nozzle pitch, the number of nozzles, and the number of scan repetitions, but the setting method is well known and will not be described.
[0044]
After the sub-scanning, dots are formed at the position indicated by the main scanning P2, that is, the region above the raster number -20. By repeating this process, it is possible to record an image while intermittently forming a raster. For example, as shown in FIG. 29, when the main scan P4 is executed, raster numbers −34 to −25 are recorded. It can be seen that the image is completed in the area. Thereafter, this process is repeatedly executed until the image formation is completed to form an image. However, in this embodiment, as will be described later, printing in another printing mode is executed after the standard printing process. Therefore, the end of the image formation referred to here is the end of printing of the entire input image data. In other words, it means the end of image formation by the standard print processing routine.
[0045]
After the image formation by the standard printing process is completed, the image printing by the intermediate process is executed. The flow of dot formation in the intermediate process is the same as that in the standard printing process routine. In the intermediate processing, the paper feed amount in the sub-scan is different from the paper feed amount in the standard printing.
[0046]
In the intermediate process, unlike the paper feed amount equivalent to 7 rasters in the standard process, first, paper feed equivalent to 4 rasters is executed to form a raster (main scan P5 in FIG. 29). The meaning of these four rasters will be described later. Next, a raster is formed while feeding paper of three rasters (main scans P6 to P8 in FIG. 29). At this time, for example, the nozzle overlaps with the already formed raster position like the first nozzle in the main scan P7.
Since such nozzles may exist, the nozzles mask dot formation data so that dot formation is not performed. Note that the position of the main scan P8 in FIG. 29 is a limit position where the paper can be fed while guaranteeing accuracy. That is, at this time, the lower end of the paper 4 is in a state immediately before it is detached from the paper feed roller 8.
[0047]
The setting of the feed amount in the intermediate process will be described. In the intermediate processing of this embodiment, paper feed is performed with a constant feed amount of 3 rasters following a transient feed amount of 4 rasters. This constant feed amount corresponds to an interlace feed amount when three nozzles having a nozzle pitch of four rasters are provided. In addition, the transitional feed for four rasters executed at the beginning of the intermediate process is also set so as not to cause a missing raster. The transient feed amount is determined based on both a parameter such as a feed amount in standard processing and a parameter such as a feed amount in intermediate processing.
[0048]
In this way, the interlaced recording in which the number of used nozzles is apparently reduced in the intermediate processing is executed by using such a recording method, thereby extending the area where the image can be recorded with the paper feeding accuracy guaranteed. Because it can.
[0049]
In the extended print area, dots are recorded while performing sub-scanning by sending three rasters. When set in this way, the feed amount for recording by the interlace method is further reduced to 3 rasters.
[0050]
After such setting, the used nozzles are set, and data mask processing is performed for the nozzles that are not used. Data mask processing refers to processing that prevents dots from being formed.
[0051]
Next, extended printing processing is executed. In the intermediate processing, the paper feed amount in the sub-scan is different from the paper feed amount in the standard printing. As described above, in the extended printing process, dots are formed by an interlace method using a feed amount for three rasters. At this time, since an image has already been formed in the region above the raster number 0 (region where RN ≦ 0), the nozzles existing in the region do not form dots.
[0052]
As described above, in the area where standard printing is performed, a high-quality image can be obtained by the interlace method. In addition, by adopting the intermediate processing, it is possible to expand an area where an image can be formed while guaranteeing accuracy of paper feeding. Since an image is recorded by the interlace method even in such an extended area, a high-quality image can be obtained. An area in which an image can be recorded can be expanded downward by executing extended printing.
[0053]
The standard interlace recording for all-nozzle driving and the extension processing for limiting the nozzles used, that is, the limited interlace recording described with reference to FIG. 29, are known methods described in Japanese Patent Laid-Open No. 11-291506. 11A to 11D show a process of performing marginless recording on the starting edge 7 of the recording paper 4 by executing standard interlaced recording and limited interlaced recording. After the leading edge 7 of the sheet reaches the first hole 11, the part 18 of the nozzle array 2 is used for the leading edge part, and the extended printing is performed by using the nozzles of the part 18 part by the method described in FIG. The processing is executed, and recording without a margin at the start edge is performed while a little ink is thrown into the first hole 11 as shown in each drawing.
[0054]
FIGS. 12A to 12D show a process for performing marginless recording on the end 14 of the recording paper 4 by executing standard interlaced recording and limited interlaced recording. The description is omitted because it is basically the same as the recording without margin at the start edge 7.
[0055]
As described above, the example in which the marginless recording is performed by the limited interlace recording has been described. However, when the start edge 7 and the end edge 14 of the recording paper 4 are recorded without the margin as described above, the limited interlace recording is performed, thereby performing FIG. For example, it is possible to reduce the amount of ink 12 thrown away into the first hole 11 and the second hole 13 and to reduce the degree of cockling at the start end 7 and the end 14 portion. The portions other than the start edge 7 and the end edge 14 of the recording paper 4 can perform normal interlaced recording, and can perform recording while maintaining high-quality recording without reducing throughput.
[0056]
According to the embodiment shown in FIGS. 1 and 2, when recording the start edge 7 and the end edge 14 of the recording paper 4 with no margin, the ink 12 that is removed from the start edge 7 and the end edge 14 is discarded in the first hole. 11 and the second hole 13, respectively, and the recording paper 4 is firmly positioned with respect to the recording head 1 by the flat top surface 6 of the rib 5. Therefore, when recording the start edge 7 and the end edge 13 of the recording paper 4 without a margin, the recording paper 4 is not damaged by the reattachment of the discarded ink 12, and the recording position of the recording paper 4 is firmly fixed. It is possible to record while maintaining high recording quality.
[0057]
FIG. 7 shows another embodiment of the ink jet recording apparatus according to the present invention, in which an ink absorber is added to the embodiment of FIG. That is, an ink absorber 15 is provided at the bottoms in the first hole 11 and the second hole 13. Examples of the ink absorber 15 include fibrous aggregates such as a continuous foam made of synthetic resin and a nonwoven fabric. The ink absorber 15 can stably store the discarded ink 12 without leaking, and can easily take out and replace it.
[0058]
FIG. 8 shows still another embodiment of the present invention. Water-repellent nets 16 and 17 are provided at the openings of the first hole 11 and the second hole 13, respectively. An ink absorber 15 is provided in the first hole 11 and the second hole 13 so as to be in contact with the nets 16 and 17. According to the present embodiment, since the openings of the first hole 11 and the second hole 13 are covered by the nets 16 and 17, the holes 11 and 13 are not present when the recording paper 4 is conveyed. The recording paper 4 can be firmly positioned. Further, the abandoned ink 12 hits the nets 16 and 17 and adheres, but since it is water-repellent, the adhering ink is immediately absorbed by the ink absorber 15, and on the contact surface with the recording paper 4, Almost no adhering ink is present. Therefore, it is possible to eliminate the risk of the re-attachment of the discarded ink while firmly defining the position of the recording paper 4.
[0059]
FIGS. 9 and 10 show still another embodiment of the present invention, and lids 20 and 21 that can be opened and closed are provided at the openings of the first hole 11 and the second hole 13, respectively. The lids 20 and 21 are opened when recording the start end 7 (FIG. 9) or the end (FIG. 10) of the recording paper 4 without margins, and are closed for recordings other than the marginless recording. The individual opening / closing drive is performed by a control unit (not shown). Further, in the present embodiment, the lid bodies 20 and 21 have a rotation fulcrum 22 below the openings of the first hole 11 and the second hole 13, and rotate around the rotation fulcrum 22. The drive control unit (not shown) is driven to open and close.
[0060]
According to the present embodiment, the first hole 11 and the second hole 13 on the platen surface are opened by the lid bodies 20 and 21 when the start end 7 or the end end 14 of the recording paper 4 is recorded without a margin. Since it is closed except when there is no recording, there is no functional waste. Further, since the rotation fulcrum 22 is positioned below the openings of the holes 20 and 21, a mechanism for opening and closing the lids 20 and 21 on the conveyance path of the recording paper 4 can be eliminated. Therefore, it is possible to prevent an increase in the possibility of paper jam by providing a new member.
[0061]
Next, FIG. 13 is a schematic cross-sectional view of the main part in a state where recording is performed at the start end of the recording paper in the ink jet recording apparatus according to the embodiment having the central hole 25, and FIG. FIG. 2 is a plan view of a main part in a state where recording is performed at the start end of a recording sheet with an ink jet recording apparatus. The platen 3 is provided with a flat top surface 6 for supporting the recording paper 4 by contacting the recording paper 4 from below on the platen surface of the portion facing the dot forming element array 2, and conveying the recording paper 4 on the top surface 6. A central hole 25 is provided at a substantially central portion in the direction. A portion 24 of the nozzle array 2 at a portion facing the central hole 25 is used for marginless recording. When recording the start end 7 and / or the end 14 of the recording paper 4 without a blank, the ink 12 that has been removed from the start end 7 or the end 14 is guided to the central hole 25.
[0062]
With this configuration, the flat top surface 6 can stably support the recording paper 4 and perform marginless recording at the start edge 7 and / or the end edge 14 of the recording paper 4 with a single central hole 25. .
[0063]
FIG. 15 is a schematic cross-sectional view of the main part in a state where recording is performed on the terminal end 14 of the recording paper 4 in the ink jet recording apparatus according to the embodiment having the central hole 25, and FIG. FIG. 6 is a plan view of a main part in a state where recording is performed on the terminal end 14 of the recording paper 4 by the recording apparatus. Since it is basically the same as FIG. 13 and FIG.
[0064]
Next, FIG. 17 shows an ink jet recording apparatus according to an embodiment in which three dot forming element arrays 2a, 2b, and 2c corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the state of having carried out. FIG. 18 is a plan view of the main part of the ink jet recording apparatus in the state shown in FIG. The recording head 1 has dot forming element arrays 2a, 2b, 2c for three colors in which a plurality of dot forming elements are arranged in the sub-scanning direction, and three dot forming element arrays 2a, 2b, 2c are sequentially arranged in the sub-scanning direction. In the state of this figure, limited interlaced recording is performed in which a margin 30 is formed at the starting end 7 of the recording paper 4 by a part 30 of the dot forming element array 2a located on the most upstream side.
[0065]
The platen 3 is provided with a first hole 27 on the platen surface of the portion facing the downstream portion in the sub-scanning direction with respect to the dot forming element array 2a corresponding to one color, and upstream in the sub-scanning direction. A second hole 26 is provided in the platen surface of the portion facing the side portion. For the dot forming element array 2b corresponding to other colors, a first hole 28 is provided in the platen surface of the portion facing the downstream portion in the sub-scanning direction and facing the upstream portion in the sub-scanning direction. A second hole 27 is provided in the platen surface of the part. Further, with respect to the dot forming element array 2c corresponding to other colors, a first hole 29 is provided on a platen surface of a portion facing a downstream portion in the sub-scanning direction, and an upstream portion in the sub-scanning direction. A second hole 28 is provided in the platen surface of the opposing portion. As described above, the first hole 27 of the dot forming element array 2a is directly used as the second hole 27 of the dot forming element array 2b. Similarly, the first hole 28 of the dot forming element array 2b is directly used as the second hole 28 of the dot forming element array 2c.
[0066]
Then, when the start end 7 of the recording paper 4 is recorded without any blank space on each of the plurality of dot forming element arrays 2a, 2b, and 2c corresponding to each color, the ink removed from the start end 7 is discarded. The ink is formed so as to be guided to the first hole 27 and to guide the ink, which has been removed from the end 14 when the end 14 of the recording material is recorded without a blank space, to the second hole 26.
[0067]
According to this configuration, even when a plurality of color nozzles are arranged vertically, the first holes 27, 28, 29 and the second holes 26, 27, 28 are provided for each dot forming element array of each color. Therefore, it is possible to perform marginless recording on the start edge 7 and the end edge 14 of the recording material without changing to a recording head in which color nozzles are arranged horizontally.
[0068]
FIG. 19 is a schematic cross-sectional view of the main part of a state in which recording is performed on the start end 7 of the recording paper 4 with the dot forming element array 2b located in the middle of the ink jet recording apparatus, and FIG. 20 is a state of FIG. FIG. 6 is a plan view of a main part in a state where recording is performed on the start end 7 of the recording paper 4 by the inkjet recording apparatus of FIG.
[0069]
FIG. 21 is a schematic cross-sectional view of the main part in a state where the dot forming element array 2c on the downstream side of the ink jet recording apparatus is recording on the starting end 7 of the recording paper 4, and FIG. 22 is a state of FIG. FIG. 3 is a plan view of a main part in a state where recording is performed on the start end 7 of the recording paper 4 by the ink jet recording apparatus.
[0070]
As described above, marginless recording can be easily executed for all three colors.
[0071]
FIG. 23 is a schematic cross-sectional view of the main part in a state where recording is performed on the end 14 of the recording paper 4 by the upstream dot formation element array 2a. FIG. 24 is a plan view of an essential part of the ink jet recording apparatus in the state shown in FIG. Here, the second hole 26 is used for discarding ink.
[0072]
FIG. 25 is a schematic cross-sectional view of the main part in a state where recording is performed on the end 14 of the recording paper 4 by the dot forming element array 2b located in the middle of the ink jet recording apparatus, and FIG. 26 is a state of FIG. FIG. 6 is a plan view of a main part in a state where recording is performed on the terminal end 14 of the recording paper 4 by the inkjet recording apparatus of FIG. Here, the second hole 27 is used for discarding ink.
[0073]
  FIG. 27 is a schematic cross-sectional view of a main part in a state where recording is performed on the terminal end 14 of the recording paper 4 with the dot forming element array 2c on the downstream side of the ink jet recording apparatus. FIG. 28 is a plan view of a principal part in a state where recording is performed on the terminal end 14 of the recording paper 4 by the ink jet recording apparatus in the state of FIG. here,Second hole 28Is used to discard ink.
[0074]
【The invention's effect】
According to the present invention, when recording without a margin at the start and end of the recording material, the ink that has been removed from the start and end is led to the first hole and the second hole, respectively. The position defining function unit firmly defines the position relative to the recording head. Therefore, when recording without a margin at the beginning or end of the recording material, there is no risk of the recording material being damaged by the discarded ink, and the recording holding position of the recording material is firmly defined and the recording quality is improved. Do not decrease.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a main part in a state where an ink jet recording apparatus according to a first embodiment of the present invention is recorded and a start end of a recording sheet is recorded without margins.
FIG. 2 is a cross-sectional view of the main part in a state in which the end of the recording paper is recorded without a margin according to the first embodiment.
FIG. 3 is a cross-sectional view of the main part of the ink jet recording apparatus according to the second embodiment of the present invention in a state where the start end of the recording paper is recorded without margins.
FIG. 4 is a cross-sectional view of the main part in a state in which the end of the recording paper is recorded without a margin according to the second embodiment.
FIG. 5 is a plan view of a main part in a state where the start end of a recording sheet is recorded by the ink jet recording apparatus of FIG. 1;
6 is a plan view of the main part in a state in which the end of the recording paper is recorded by the ink jet recording apparatus of FIG. 1. FIG.
FIG. 7 is a cross-sectional view of a main part in a state where the platen of the recording sheet is recorded without a blank, showing another embodiment of the platen of the ink jet recording apparatus according to the present invention.
FIG. 8 shows still another embodiment of the present invention, and is a cross-sectional view of the main part in a state where the start end of the recording paper is recorded without margins.
FIG. 9 shows still another embodiment of the present invention, and is a cross-sectional view of the main part in a state where the start end of the recording paper is recorded without margins.
FIG. 10 is a cross-sectional view of the main part in a state where the end of the recording paper is recorded without margins in the embodiment of FIG. 9;
11A, FIG. 11B, FIG. 11C, and FIG. 11D show interlaced recording with no margin at the beginning of the recording paper by the ink jet recording apparatus shown in FIG. It is principal part sectional drawing which shows the state currently performed.
12A, 12B, 12C, and 12D show interlaced recording without margins at the end of the recording paper by the ink jet recording apparatus shown in FIG. It is principal part sectional drawing which shows the state currently performed.
FIG. 13 is a schematic cross-sectional view of a main part in a state where recording is performed at the starting end of a recording sheet in the ink jet recording apparatus according to the embodiment having a central hole.
14 is a plan view of the main part in a state where recording is performed at the start edge of the recording paper in the ink jet recording apparatus of FIG. 13; FIG.
FIG. 15 is a schematic cross-sectional view of a main part in a state where recording is performed at the end of the recording paper in the ink jet recording apparatus according to the embodiment having a central hole.
16 is a plan view of the main part in a state where recording is performed at the end of the recording paper in the ink jet recording apparatus of FIG. 15;
FIG. 17 shows recording at the beginning of a recording sheet with a dot forming element array on the upstream side of an ink jet recording apparatus according to an embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the outline of a state.
18 is a plan view of the main part of the ink jet recording apparatus in the state of FIG. 17 in a state where recording is performed at the start end of the recording paper.
FIG. 19 shows recording at the beginning of a recording sheet with a dot forming element array located in the middle of an ink jet recording apparatus according to an embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the state in which it exists.
20 is a plan view of the main part of the ink jet recording apparatus in the state of FIG. 19 in a state where recording is performed at the start end of the recording paper.
FIG. 21 shows recording at the leading edge of a recording sheet with the dot forming element array on the downstream side of the ink jet recording apparatus according to the embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the outline of a state.
22 is a plan view of the main part of the ink jet recording apparatus in the state shown in FIG. 21 in a state where recording is performed at the start edge of the recording paper.
FIG. 23 shows recording at the end of the recording paper with the dot forming element array on the upstream side of the ink jet recording apparatus according to the embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the outline of a state.
24 is a plan view of the main part in a state where recording is performed at the end of the recording paper in the ink jet recording apparatus in the state of FIG. 23. FIG.
FIG. 25 shows recording at the end of a recording sheet with a dot forming element array located in the middle of an ink jet recording apparatus according to an embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the state in which it exists.
26 is a plan view of the main part in a state where recording is performed at the end of the recording paper in the ink jet recording apparatus in the state of FIG. 25. FIG.
FIG. 27 shows recording at the end of the recording paper with the dot forming element array on the downstream side of the ink jet recording apparatus according to the embodiment in which three dot forming element arrays corresponding to three colors are arranged in the sub-scanning direction. It is principal part sectional drawing of the outline of a state.
FIG. 28 is a plan view of the main part in a state where recording is performed at the end of the recording paper in the ink jet recording apparatus in the state of FIG. 27;
FIG. 29 is an explanatory diagram showing how dots are recorded by standard interlaced recording and limited interlaced recording used in the present invention.
[Explanation of symbols]
1 Recording head
2 Nozzle array
3 Platen
4 Recording paper
5 ribs
6 Top
7 Start of recording paper
11 1st hole
12 Abandoned ink
13 Second hole
14 End of recording paper
15 Ink absorber
16,17 mesh
18,19 Part of the nozzle array
20, 21 lid
22 fulcrum

Claims (11)

A recording head having a dot forming element array in which a plurality of dot forming elements are arranged in the sub-scanning direction;
A platen that defines the position of the recording material when recording on the recording material facing the recording head while scanning the recording head in the main scanning direction;
A recording material feed roller disposed on the upstream side of the recording head; and
A discharge roller disposed on the downstream side of the recording head,
The platen was provided with a hole in the platen surface of the portion opposite to the upstream portion in the sub-scanning direction of the dot forming element array, and was removed from the end when the end of the recording material was recorded without being blanked. ink enters into the hole,
On the platen surface, the position of the recording material relative to the recording head is supported by contacting the recording material from below and supporting the recording material at a position different from the hole within a range facing the dot forming element array. A position defining function part for defining is provided, and the position defining function part is composed of a plurality of ribs arranged apart from each other in the main scanning direction ,
The said hole is an inkjet recording device provided in the upstream from the said position prescription | regulation function part . Oite to claim 1, wherein the platen, the other hole is further provided on the platen surface in the sub-scanning direction downstream side portion opposite to the portion of the dot formation element array, said other bore, said position-defining feature An ink jet recording apparatus which is provided on the downstream side of the recording portion and enters the other hole when the recording material is recorded without leaving a blank at the starting edge, and the ink is removed from the starting edge and discarded. Oite to claim 2, wherein the recording head, the dot drive control section for driving said dot formation element array, and the standard interlaced recording for recording by driving the whole dot forming elements of the dot formation element array, some of the dots It is configured to be able to switch and execute limited interlaced recording that is driven and recorded only for forming elements, and when the start end of the recording material is located in the other hole portion, and the end of the recording material is An ink jet recording apparatus in which the limited interlace recording is executed when positioned in the hole portion. In any one of claims 1 to 3, the platen surface, a position defined function with the recording material in a range facing the front Symbol dot forming element array flat top surface for supporting contact from underneath Inkjet recording apparatus in which the part is located. In any one of claims 1 to 3, the platen surface, a position having a flat top surface for supporting the contact with the recording material from the underlying downstream outside the range that faces the dot forming element array An ink jet recording apparatus in which the specified function unit is located. In any one of claims 1 to 5, the ink jet recording apparatus in which the ink absorbing member is provided in the hole and / or other hole. 6. The water repellent network body is provided in an opening of the hole and / or another hole according to any one of claims 1 to 5 , and an ink absorber that comes into contact with the network body is the hole and / or the other. Inkjet recording apparatus provided in the hole. In any one of claims 1 5, openable lid provided in an opening portion of the hole and / or other holes, the lid body when recording without margins beginning or end of the recording material An ink jet recording apparatus which is opened at a time and is closed at times other than the marginless recording. 9. The inkjet according to claim 8 , wherein the lid body has a rotation fulcrum below the opening of the hole and / or another hole, and is rotated around the rotation fulcrum to be opened and closed. Recording device. A recording head having a dot forming element array in which a plurality of dot forming elements are arranged in the sub-scanning direction for each of a plurality of colors, and a plurality of dot forming element arrays corresponding to the respective colors are sequentially arranged in the sub-scanning direction. When,
A platen that defines the position of the recording material when recording on the recording material facing the recording head while scanning the recording head in the main scanning direction;
A recording material feed roller disposed on the upstream side of the recording head; and
A discharge roller disposed on the downstream side of the recording head,
The platen is provided with holes in the platen surface of the portion facing the upstream portion in the sub-scanning direction and the downstream portion in the sub-scanning direction for each of the plurality of dot forming element arrays corresponding to the respective colors. Other holes are provided in the platen surface of the part facing
For each of the plurality of dot forming element arrays corresponding to each color, when the start end of the recording material is recorded without a margin, ink that has been removed from the start end and discarded is entered into the other hole , and the recording material An ink jet recording apparatus in which ink that has been discarded from the end when the end of the ink is recorded without a margin enters the hole . 11. The interlace recording according to claim 10 , wherein the recording head drives and records all the dot forming elements of the dot forming element array by a dot drive control unit that drives the dot forming element array, and a part of the dot forming elements. The limited interlace recording that is driven and limited to recording is configured to be executed, and the start end of the recording material corresponds to each of the plurality of dot forming element arrays corresponding to each color. An ink jet recording apparatus in which the limited interlaced recording is executed when positioned in another hole portion and when the end of the recording material is positioned in each hole portion.

Images