JP3962907B2 - RECORDING MEDIUM CONVEYING DEVICE AND RECORDING DEVICE - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording medium conveying apparatus that conveys a recording medium, and a recording apparatus including the recording medium conveying apparatus.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for example, an ink jet printer, which is one of recording apparatuses, has a configuration in which, for example, a sheet, which is one of recording media, is recorded while being sent to a recording unit by a paper transport device and is sent to the outside. FIG. 7A is a diagram showing only the main part of the paper transport device in such an ink jet printer. In such an ink jet printer, the paper 1 is recorded by the recording head 3 while being nipped and fed by the paper feed roller 2 and its driven roller 2a, and is nipped by the paper discharge roller 4 and the spur roller 4a as its driven roller. To be discharged.
[0003]
[Problems to be solved by the invention]
In an inkjet printer including the above-described conventional paper transport device, when an image on which a large number of ink droplets are ejected, such as a solid image, is recorded on the paper 1, the paper 1 absorbs a large amount of ink. Thus, as shown in FIG. 7B, so-called cockling that swells in a wavy shape toward the recording head 3 after recording may occur. When this cockling occurs and develops, the distance between the paper 1 and the recording head 3 becomes non-uniform, and the flying distance of the ink droplets varies, resulting in uneven recording, or the paper 1 becomes a recording head. There is a problem that it contacts 3 and gets dirty.
[0004]
If the span between the paper feed roller 2 and the paper discharge roller 4 is relatively short, these problems can be prevented as much as possible by suppressing the cockling described above within an allowable range. However, in an inkjet printer or the like, in the near future, it is necessary to increase the number of nozzles for each color nozzle row or to arrange a plurality of color nozzle rows in the conveyance direction of the paper 1 in order to further increase the recording speed. In these cases, the size of the recording head 3 becomes longer in the conveyance direction of the paper 1 as shown in FIG.
[0005]
As the recording head 3 becomes longer, the span between the paper feed roller 2 and the paper discharge roller 4 becomes longer. Therefore, the paper feed roller 2 and its driven roller 2a, the paper discharge roller 4 and a spur roller 4a as its driven roller. The cockling cannot be prevented at all in the structure in which the sheet is conveyed and discharged between the two. Then, the cockling exceeds an allowable range, and there may be a situation in which the structure itself that conveys and discharges between the two sets of rollers does not hold depending on such an ink jet printer having a large head length.
[0006]
In addition, such cockling is relatively small when a special paper of an ink jet printer is used as the paper 1, and becomes large when a plain paper is used. For this reason, normally, in designing an ink jet printer or the like, the paper gap (paper 1 and recording head 3 in FIG. 7A) is taken into consideration when the paper is lifted by cockling when plain paper is used. A) is increased. However, when the paper gap is large as described above, even when special paper that is not necessary is used, the ink particles ejected from the nozzles of the recording head 3 are bent and the deviation of the landing point is caused. It becomes larger by that amount and may hinder the improvement of recording quality.
[0007]
On the other hand, in recent years, various proposals have been made which mainly have a hollow box-like suction part on the paper transport surface and suck the paper with a suction pump or the like through a plurality of through-suction holes provided in the suction part. (Refer to Unexamined-Japanese-Patent No. 63-303781 and Unexamined-Japanese-Patent No. 3-270 etc.). Among these, as a means for eliminating the above-described cockling, there is proposed that a sheet is sucked or sucked on a platen or the like through the suction holes.
[0008]
However, in any case, only a through-hole is opened in the hollow box-like suction portion and suction is performed, and it is difficult to prevent the above-described cockling over the entire surface of the sheet in the recording portion. Further, in the conventional example described in the above publication, since the through hole is opened in the hollow box-like suction portion and suction is performed, if the suction force is too strong, the paper feeding accuracy may be reduced. For this reason, at present, the actual situation is that it has not been put into practical use except for some large format printers that feed paper in the direction of gravity (uses the weight of the paper for paper feed).
[0009]
The present invention has been made in view of the various problems as described above, and an object of the present invention is to provide a recording medium conveying apparatus capable of suppressing the influence of cockling when conveying a recording medium, and the recording medium conveying apparatus. It is to provide a recording apparatus provided.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the recording medium transport apparatus according to the claims of the present invention is a recording medium transport apparatus that transports the recording medium supplied on the recording medium transport surface while sucking the recording medium. The suction unit for sucking the recording medium includes a plurality of suction holes provided in the recording medium conveyance surface, and a decompression chamber having suction means for generating a suction force for sucking the recording medium. Is substantially constituted by a suction chamber facing the recording medium and a suction hole communicating the suction chamber and the decompression chamber, and the suction chamber has an area of a suction surface facing the recording medium, the suction surface It is formed so as to be larger than the cross-sectional area of the hole, and the bottom surface from the upstream edge in the conveyance direction of the recording medium to the suction hole in the suction chamber is formed so that the depth gradually increases. And said suction It said bottom surface from the suction hole to the downstream side edge in the transport direction of the recording medium, is characterized in that its depth is formed substantially constant in. In the recording medium transport apparatus according to the claims of the present invention, the suction chamber is formed in a substantially rectangular shape on the recording medium transport surface. Further, in the recording medium transporting apparatus according to the claims of the present invention, the suction chamber increases the negative pressure by increasing the flow velocity of the flowing air with respect to the recording medium approaching the suction chamber, and The recording medium is drawn into the suction chamber, and the drawn recording medium can be sufficiently drawn.
[0011]
Accordingly, since the recording medium can be drawn into the dimple, even when cockling extending in the transport direction occurs in the recording medium, the recording medium and the recording head can be made uniform to improve the recording accuracy. In addition, contamination due to contact between the recording medium and the recording head can be prevented. In addition, since the flow velocity of the air below the recording medium reaching the suction chamber increases and the negative pressure increases, the recording medium can be completely sucked into the suction chamber even if cockling occurs in the recording medium. In addition, since an appropriate suction force is generated in the suction chamber, the recording medium can be sucked and transported while maintaining high accuracy.
[0012]
In order to achieve the above object, the recording apparatus according to the present invention is characterized by including the recording medium conveying apparatuses. Thereby, it is possible to provide a recording apparatus that exhibits the above-described effects.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 is a side view showing a recording medium conveying apparatus according to an embodiment of the present invention. The recording medium transport apparatus 100 includes a suction unit 110 that sucks and holds a recording medium during recording, and a recording medium transport unit 150 that transports the recording medium from the upstream side to the downstream side of the suction unit 110. The suction unit 110 is disposed on the lower side of the recording head 231 for recording on a recording medium with the recording medium conveyance path L interposed therebetween. The upper suction part 120 and the lower suction force generation part 130 are formed in a hollow box shape having two upper and lower stages.
[0015]
The suction unit 120 includes a decompression chamber 121 formed therein, a plurality of suction chambers 123 each formed as a substantially rectangular dimple on the recording medium conveyance surface 122 as shown in FIG. Are provided with a plurality of suction holes 124 having a smaller sectional area than the suction chamber 123 extending in the vertical direction.
[0016]
The suction chamber 123 is formed so that the depth changes in the conveyance direction of the recording medium. That is, as shown in FIG. 2B, the bottom surface 123a from the upstream edge in the recording medium conveyance direction to the suction hole 124 in the suction chamber 123 is formed as an inclined surface whose depth gradually increases. A bottom surface 123b from the suction hole 124 in the suction chamber 123 to the downstream edge in the recording medium conveyance direction is formed as a flat surface having a substantially constant depth.
[0017]
In this way, by forming the bottom surface 123a of the suction chamber 123 into an inclined surface whose depth gradually increases, the lower part of the recording medium is shallow when approaching the suction chamber 123, so the flow velocity of the flowing air is Since the negative pressure increases as soon as possible, a trigger for drawing the recording medium into the suction chamber 123 can be created. Further, by forming the bottom surface 123b of the suction chamber 123 in a flat surface having a substantially constant depth, it is possible to secure a sufficient amount of the recording medium drawn into the suction chamber 123, that is, to increase the amount of elongation by cockling. Can be supplemented.
[0018]
Therefore, even if cockling extending in the transport direction occurs in the recording medium, the recording medium can be completely adsorbed in the suction chamber 123 and an appropriate suction force is generated by the suction chamber 123. Suction and conveyance can be performed while maintaining high feed accuracy. In addition, the recording accuracy can be improved by making the interval between the recording medium and the recording head 231 uniform, and contamination due to contact between the recording medium and the recording head 231 can be prevented.
[0019]
The suction force generation unit 130 is communicated with the decompression chamber 121 of the suction unit 120 via the communication hole 131 and includes a pump 132 having a centrifugal fan therein. The pump 132 is attached to a predetermined position below the decompression chamber 121 so as to communicate with the decompression chamber 121 via the communication hole 131, and the centrifugal fan rotates during recording.
[0020]
As described above, the suction hole is constituted by the suction hole 124 and the suction chamber 123, and the suction hole 124 is formed by a small-diameter through hole, thereby increasing the utilization rate of the negative pressure that can be used for the characteristics of the pump 132. At the same time, by forming the suction chamber 123 as a substantially rectangular recess having a larger area than the suction hole 124, a large suction force can be generated with respect to the recording medium.
[0021]
The recording medium conveying means 150 includes a feeding roller 151 that feeds the recording medium between the recording head 231 and the suction unit 110, a driven roller 152 that is pressed against the feeding roller 151 from above, and the recording medium to the outside. A discharge roller 153 for discharging, and a spur roller 154 that comes into contact with the discharge roller 153 from above are provided. Note that the discharge roller 153 and the spur roller 154 can be omitted by configuring the suction unit 110 to be movable in the discharge direction.
[0022]
The recording medium transport apparatus 100 having such a configuration operates as follows. The feed roller 151 and the like are rotationally driven to feed the recording medium between the recording head 231 and the suction unit 110. On the other hand, the pump 132 is driven to apply a suction force to the suction hole 124 and the suction chamber 123 through the communication hole 131 and the decompression chamber 121. As a result, the recording medium is conveyed while being sucked and adsorbed on the recording medium conveying surface 122.
[0023]
At the same time, the recording head 231 performs recording by ejecting ink particles onto the recording medium while moving in the main scanning direction above the recording medium. As a result, cockling may occur in the recording medium after recording, but the recording medium can be drawn into the suction chamber 123 and can be completely adsorbed, so the distance between the recording medium and the recording head 231 is uniform. Thus, the recording accuracy can be improved, and contamination due to contact between the recording medium and the recording head 231 can be prevented. Then, the discharge roller 153 and the like are driven to rotate, and the recording medium on which recording is completed is discharged to the outside.
[0024]
FIG. 4 is a perspective view showing an ink jet printer as a recording apparatus provided with the recording medium conveying apparatus of the present invention, and FIGS. 5 to 7 are a plan view, a front view, and a side view showing the main part. The ink jet printer 200 includes an automatic paper feed (ASF) unit 220 that is obliquely attached to the rear upper part of the printer main body 210, a recording unit 230 and a recording medium transport device 100 built in the printer main body 210. As the recording medium, various kinds of paper such as OHP film, tracing paper, postcard, etc. can be used in addition to the dedicated paper and plain paper of the ink jet printer 200.
[0025]
In this embodiment, the discharge roller 153 and the spur roller 154 are not required, and the inkjet printer 200 including the recording medium conveyance device 100 having the suction unit 110 movable in the discharge direction is used. The recording medium conveying apparatus 100 having the roller 154 can be similarly applied.
[0026]
The ASF unit 220 includes a tray 221 that stores the paper 1, a paper feed roller 222 that pulls out and supplies the paper 1 from the tray 221, and the like. The recording unit 230 includes a carriage 233 on which the recording head 231 and the ink cartridge 232 are mounted, a DC motor 235 that moves the carriage 233 along a guide shaft 234 disposed in the main scanning direction, and the like. The recording head 231 has a nozzle row composed of a plurality of nozzles such as 96 for each color of cyan, magenta, yellow, light cyan, light magenta, light yellow, and black, for example.
[0027]
The ink jet printer 200 having such a configuration operates as follows. When a recording command for the paper 1 stored in the tray 221 is input by a host computer or the like (not shown), the paper feed roller 222 is rotated to pick up the paper 1 stored in the tray 221 one by one. Feed paper. Further, the feed roller 152 and the like are rotationally driven to feed the paper 1 between the recording head 231 and the suction unit 110.
[0028]
On the other hand, the pump 132 is driven to apply a suction force to the suction hole 124 and the suction chamber 123 through the communication hole 131 and the decompression chamber 121. Then, the sheet 1 is conveyed while being sucked and adsorbed to the recording medium conveying surface 125. At the same time, the DC motor 235 is driven to move the carriage 233 along the guide shaft 234 via the timing belt.
[0029]
At this time, the recording head 231 records the ink supplied from the ink cartridge 232 for each color by ejecting the ink on the paper 1 as fine ink droplets from all or a part of the plurality of nozzles according to the recording data. . Thereby, cockling may occur in the paper 1 after recording. However, since the paper 1 can be drawn into the suction chamber 123 and can be completely adsorbed, the distance between the paper 1 and the recording head 231 is uniform. Thus, the recording accuracy can be improved, and contamination due to contact between the paper 1 and the recording head 231 can be prevented. Then, the suction unit 110 moves in the discharge direction, and the sheet 1 on which recording has been completed is discharged from the discharge port 201 to the outside.
[0030]
【The invention's effect】
As described above, according to the recording medium conveyance device and the recording apparatus of the present invention, the recording medium can be drawn into the dimple, so that even if cockling extending in the conveyance direction occurs in the recording medium, recording is possible. It is possible to improve the recording accuracy by making the distance between the medium and the recording head uniform, and to prevent contamination due to the contact between the recording medium and the recording head.
[Brief description of the drawings]
FIG. 1 is a side view showing a recording medium conveying apparatus according to an embodiment of the present invention.
2A and 2B are a plan view and a cross-sectional side view showing a recording medium conveyance surface of the recording medium conveyance device of FIG.
FIG. 3 is a perspective view showing an ink jet printer as a recording apparatus including the recording medium conveying apparatus of the present invention.
4 is a plan view showing a main part of the ink jet printer shown in FIG. 3;
5 is a front view showing a main part of the ink jet printer shown in FIG. 3;
6 is a side view showing a main part of the ink jet printer shown in FIG. 3;
FIG. 7 is a diagram showing only a main part of a paper transport device in a conventional ink jet printer.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Paper 100 Recording medium conveyance apparatus 110 Suction unit 120 Suction part 121 Decompression chamber 122 Recording medium conveyance surface 123 Suction chamber 124 Suction hole 130 Suction force generation part 131 Communication hole 132 Pump 150 Recording medium conveyance means 151 Feed roller 152 Driven roller 153 Ejection Roller 154 Spur roller 200 Inkjet printer 210 Printer main body 220 ASF unit 221 Tray 222 Paper feed roller 230 Recording unit 231 Recording head 232 Ink cartridge 233 Carriage 234 Guide shaft 235 DC motor

Claims (4)

A recording medium conveying apparatus for conveying a recording medium supplied on a recording medium conveying surface while sucking the recording medium,
The suction unit for sucking the recording medium onto the recording medium transport surface has a plurality of suction holes provided in the recording medium transport surface, and a decompression chamber having suction means for generating a suction force for sucking the recording medium. With
The suction hole is substantially constituted by a suction chamber facing the recording medium, and a suction hole for communicating the suction chamber and the decompression chamber;
The suction chamber is
The area of the suction surface facing the recording medium is formed to be larger than the cross-sectional area of the suction hole,
The bottom surface from the upstream edge in the conveyance direction of the recording medium in the suction chamber to the suction hole is formed so that the depth gradually increases,
A recording medium transporting apparatus, wherein a bottom surface from the suction hole in the suction chamber to an edge on the downstream side in the transport direction of the recording medium has a substantially constant depth.   The recording medium conveyance device according to claim 1, wherein the suction chamber is formed in a substantially rectangular shape on the recording medium conveyance surface.   The suction chamber draws the recording medium into the suction chamber by increasing the flow rate of the flowing air to increase the negative pressure with respect to the recording medium approaching the suction chamber. 3. The recording medium conveyance device according to claim 1, wherein the recording medium conveyance device is formed so as to be sufficiently retractable.   A recording apparatus comprising the recording medium conveying apparatus according to claim 1.

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