JP2013208743A - Color measuring device and recording device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively dry a sheet by blowing from a blowing means.SOLUTION: An inkjet recording device 100 includes a recording part 3 for performing recording on a sheet; a color measuring sensor 5 for measuring a color of the sheet; a drying unit K for sending air toward the sheet recorded by the recording part 3; and a paper weight 22 for pressing the sheet against a supporting surface. When air is sent by the drying unit K toward the sheet recorded by the recording part 3, the paper weight 22 presses the sheet against the supporting surface on a position where the paper weight is not blocked to be blown into a sheet region and color measured is not performed yet.

Description

  The present invention relates to a color measurement device capable of performing color measurement on an image and a recording apparatus including the color measurement device.

  Some recording apparatuses that perform recording by a method such as inkjet include a colorimetric device. Since the recording device is equipped with a colorimetric device, it is possible to perform color calibration by measuring the color image after recording, and to reflect the result in the subsequent image recording based on the data obtained as a result. . Thereby, a desired color reproduction can be obtained in an image by the recording apparatus.

  When performing colorimetry on an image recorded on a sheet, the image is required to be sufficiently dry on the sheet. When the colorimetry of the image is performed in a state where the image is not sufficiently dried, the result of the colorimetry varies depending on the degree of drying of the image, and the colorimetry may not be performed stably. It may take a relatively long time for the image to dry sufficiently. As the time until the image dries becomes longer, this reduces the throughput of recording and colorimetry, which may reduce the efficiency. Therefore, in order to shorten the time required for drying the image, a recording apparatus to which a blowing unit for blowing air on the image is attached has been proposed. An example of such a recording apparatus is disclosed in Patent Document 1. The recording apparatus disclosed in Patent Document 1 is provided with a pressing member that presses the sheet during colorimetry. It is disclosed that when the recording apparatus dries an image by blowing air from a blowing unit, the sheet is pressed by the pressing member.

JP 2008-254221 A

  However, in the recording apparatus disclosed in Patent Document 1, a pressing member in which a slit-like long hole is formed presses a region in which a pattern is recorded on a sheet, and a colorimetric sensor is passed through the long hole from above the pressing member. Thus, the pattern is read. Therefore, when the image is dried, the sheet is pressed by the pressing member at both the upstream position and the downstream position from the position where the colorimetric sensor is arranged during color measurement. ing. Since the portion of the sheet that is pressed by the pressing member is pressed from above by the pressing member, the portion cannot be exposed to the wind blown out by the blowing means. Therefore, when drying is performed by blowing air from the blowing unit, it is necessary to convey the portion of the image to be dried on the sheet to a position closer to the blowing unit than the pressing member. For this reason, the sheet conveyance amount required for performing drying by blowing air from the blowing unit and then performing colorimetry on the portion is increased. Since the transport amount of the sheet becomes large, there is a possibility that the efficiency at the time of image drying and color measurement is lowered.

  SUMMARY OF THE INVENTION In view of the above circumstances, an object of the present invention is to provide a color measuring device and a recording device that can efficiently dry a sheet when the sheet is dried by blowing air from a blowing unit.

  The present invention includes a recording unit that records on a sheet, a colorimetric unit that performs colorimetry on the sheet, a blower unit that blows air toward the sheet recorded by the recording unit, and presses the sheet against the support surface. And when the air blower blows air toward the sheet recorded by the recording unit, the presser unit does not block air blowing to the area of the sheet that has not yet been measured. The sheet is pressed against the support surface at a position.

  According to the present invention, since the drying of the sheet by blowing is performed efficiently, the time required for drying and colorimetry of the image can be shortened.

1 is a schematic cross-sectional view illustrating an ink jet recording apparatus according to a first embodiment of the present invention. FIG. 2 is a schematic cross-sectional view showing an enlarged main part of the ink jet recording apparatus of FIG. 1. It is typical sectional drawing shown about the drying unit used for the inkjet recording device of FIG. FIG. 2 is a block diagram illustrating a schematic configuration of a control system of the ink jet recording apparatus of FIG. 1. FIG. 2 is a schematic cross-sectional view illustrating respective states when recording, sheet conveyance, image drying, color measurement, and color measurement unit retreat from the sheet are performed by the ink jet recording apparatus of FIG. 1. 2 is a flowchart illustrating a control flow when recording, image drying, and color measurement are performed by the ink jet recording apparatus of FIG. 1. In the inkjet recording device which concerns on 2nd Embodiment of this invention, it is the typical sectional drawing which expanded and showed the principal part of the inkjet recording device when image drying and colorimetry are performed. In the inkjet recording device which concerns on 3rd Embodiment of this invention, it is the typical sectional drawing which expanded and showed the principal part of the inkjet recording device when image drying and colorimetry are performed. In the inkjet recording device which concerns on 4th Embodiment of this invention, it is the typical sectional drawing which expanded and showed the principal part of the inkjet recording device when the image is dried. In the ink jet recording apparatus according to the fifth embodiment of the present invention, a schematic enlarged view of the main part of the ink jet recording apparatus when image drying, retraction from the sheet of the color measurement unit, and color measurement are performed. FIG.

  Hereinafter, a recording apparatus according to an embodiment of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic cross-sectional view of a color measurement device 200 according to the first embodiment of the present invention and an ink jet recording apparatus 100 equipped with the color measurement device 200.

  The ink jet recording apparatus 100 includes a recording unit 3 that performs recording. The recording unit 3 has a recording head capable of ejecting ink. The recording head is formed with a plurality of ejection openings capable of ejecting ink. Inside the recording head, ink flow paths are formed which communicate with the ejection ports. In this embodiment, each ink flow path is provided with a heating element (electrothermal converter). By energizing this heating element and generating thermal energy from the heating element, the ink in the ink flow path is heated and foamed by film boiling, and ink droplets are ejected from the ejection port by the foaming energy at that time. The

  Further, the inkjet recording apparatus 100 includes a conveyance roller pair 2 as a conveyance unit that conveys the sheet 1. The sheet 1 is conveyed by rotation of the driving-side conveyance roller in a state where the sheet is sandwiched between the conveyance roller pair 2. The ink jet recording apparatus 100 performs a recording operation for ejecting ink toward a sheet on the platen while moving the recording head in the main scanning direction, and a conveying operation for conveying the sheet in the sub scanning direction by a distance corresponding to the recording width. And do. By repeating these recording operations and conveying operations, images are sequentially recorded on the sheet. In this embodiment, a roll-shaped sheet is used. The sheet is transported in a direction intersecting with the main scanning direction in which the recording head scans by forming a sheet by being fed out along with the recording operation.

  In the present embodiment, in the inkjet recording apparatus 100, when the sheet 1 is installed in the paper feeding unit and the type of the sheet is input through the operation panel 30, the sheet 1 is conveyed by the conveyance roller pair 2. When the sheet is conveyed to a position corresponding to the recording unit 3, recording is performed by the recording unit 3 there. When the color measurement is performed after the recording by the recording unit 3, the recording unit 3 records a test pattern P used for color measurement described later as an image. When the test pattern P is recorded, the sheet is conveyed to the color measuring device 200 attached to the ink jet recording apparatus 100. Thereafter, when the color measurement operation is performed, the sheet is cut to a desired length by the cutter 4 and the sheet is discharged from the paper discharge unit.

  The recording head according to the present embodiment employs a system in which film boiling is generated by a heating element and foamed to eject ink droplets, but the present invention is not limited to this. A recording head of a type that deforms the piezoelectric element and thereby discharges the liquid inside the recording head may be applied to the recording apparatus, and another type of recording head is applied to the inkjet recording apparatus 100 of the present invention. Also good. The ink jet recording apparatus 100 of the present embodiment is a so-called serial scan type recording apparatus that records an image with movement of the recording head in the main scanning direction and conveyance of the sheet in the sub scanning direction. However, the present invention can also be applied to a full-line type ink jet recording apparatus using a recording head extending over the entire width direction of the sheet.

  Next, the configuration of the color measuring device 200 mounted on the ink jet recording apparatus 100 will be described.

  FIG. 2 is a cross-sectional view illustrating a configuration of the color measurement device 200 according to the present embodiment. A colorimetric sensor 5 for quantitatively measuring the color of the test pattern is attached to a sensor holder 6. Thus, the colorimetric sensor 5 is held by the sensor holder 6. A sliding member 8 is attached to the sensor holding body 6, and the sliding member 8 and the pressing plate 7 are disposed so as to be able to contact each other. A pressing plate (pressing member) 7 is disposed at a position between the sensor holder 6 and the sheet. In this embodiment, the pressing plate 7 is provided at both the upstream position in the sheet conveyance direction and the downstream position in the sheet conveyance direction with respect to the colorimetric sensor 5. In other words, the press plate 7 is an upstream press plate that presses the sheet against the sheet discharge member 16 upstream of the position where the color measurement is performed by the color measurement sensor 5 when the color measurement sensor 5 performs the color measurement. 1st press board) 7c is included. The pressing plate 7 includes a downstream pressing plate (second pressing plate) 7 d that presses the sheet against the sheet discharge member 16 on the downstream side of the position where the color measurement is performed by the color measurement sensor 5.

  And the press board 7 is arrange | positioned so that the colorimetric sensor 5 may be arrange | positioned between the upstream press board 7c arrange | positioned upstream, and the downstream arrange | positioned. As will be described later, when the sheet is pressed against the sheet discharge guide 16 in order to perform colorimetry and sheet drying, the sensor holder 6 is placed on the pressing plate 7 via the sliding member 8. , Press the sheet. At this time, the sensor holding body 6 can move on the pressing member by sliding between the sliding member 8 and the pressing member.

  FIG. 2 shows a state in which the sliding member 8 is in contact with the pressing plate 7. Further, a loop belt 9 connected to the sensor holder 6 is stretched between the motor pulley 11 and the idler pulley 12. The sensor holder 6 is movable in the width direction of the sheet as the motor pulley 11 is driven to rotate by driving the motor 10. Even when the sensor holder 6 moves, the posture of the colorimetric sensor 5 with respect to the pressing surface 7a of the pressing plate 7 is maintained. Therefore, highly accurate color measurement can be performed stably.

  The color measurement device 200 includes a color measurement sensor 5 that performs color measurement of a stored image recorded on a sheet. The colorimetric sensor 5 has a light emitting element and a light receiving element. For example, an LED is used as the light emitting element. For example, a photodiode is used as the light receiving element. When color measurement is performed by the color measurement sensor 5, light is emitted from the light emitting element toward the sheet. The light emitted from the light emitting element is reflected on the image of the sheet, and the reflected light is received by the light receiving element. Then, detection is performed based on the amount of light received by the light receiving element. For detection by the colorimetric sensor 5, for example, the density of an image of a test pattern recorded on a sheet can be measured.

  The pressing plate 7 presses the sheet against the sheet discharge guide 16 when the colorimetric sensor 5 performs colorimetry. At a position immediately below the pressing plate 7, a paper discharge guide 16 that is inclined so that the downstream side in the transport direction is lowered is installed. The paper discharge guide 16 functions as a support surface that supports the sheet. The sheet 1 is conveyed through between the pressing surface 7 a of the pressing plate 7 and the paper discharge guide 16. Further, a color calibration plate 15 is provided on the pressing plate 7, and the colorimetric sensor 5 scans the pressing plate 7 in the sheet width direction, and measures the sheet 1 through a slit 7 b provided on the pressing plate 7. Perform color motion. The color calibration plate 15 is for calibrating against a change with time in the detection unit of the colorimetric sensor 5. Even during scanning by the sensor holder 6 for color measurement, the color measurement sensor 5 frequently moves to a position facing the color calibration plate 15 and performs calibration related to detection by the color measurement sensor 5.

  In the present embodiment, the colorimetric sensor 5, the sensor holder 6, the pressing plate 7, the sliding member 8, the belt 9, the motor 10, the motor pulley 11, the idler pulley 12, and the color calibration plate 15 are attached so as not to be relatively movable. All of them move together when the colorimetric sensor 5 moves. Hereinafter, this is referred to as a color measurement unit U or a color measurement unit.

  The color measurement unit U can be rotated by a color measurement unit driving means 17 around a color measurement unit shaft 18 provided upstream of the color measurement sensor 5 in the transport direction. When the color measurement unit U rotates about the color measurement unit shaft 18, the pressing surface 7 a can be brought close to the support surface of the paper discharge guide 16. Therefore, the colorimetric sensor 5 can be brought close to the sheet supported on the support surface. When the color measurement is performed, the color measurement sensor 5 is brought close to the sheet so that highly accurate color measurement can be performed.

  In addition, the color measuring device 200 includes a drying unit (blower unit) K. The drying unit K includes a drying duct 13 that allows airflow to pass therethrough and a blower fan 14 that generates airflow. The drying duct 13 and the drying fan 14 are attached so as not to move relative to each other. The wind generated by driving the blower fan 14 is sent into the drying duct 13 and blown out toward the sheet through the drying duct 13. Thereby, it is possible to blow toward the image recorded on the sheet. The drying unit K is disposed downstream of the colorimetric sensor 5 in the sheet conveyance direction. The blower fan 14 is configured to be capable of changing the rotation speed, and is configured to be capable of changing the wind speed of the wind sent to the sheet through the drying duct 13. The wind blown from the blower opening (blower) 13a of the drying duct 13 is uniformly applied toward the recording surface of the sheet 1 on which the test pattern P is recorded. Thereby, drying of the test pattern P is promoted.

  FIG. 3 is a sectional view of the drying unit K in the present embodiment. Fins 20 are arranged at the air blowing port 13a in the drying unit K. By providing the fins 20 parallel to the transport direction at a predetermined pitch in the air blowing port 13a, it is possible to generate a wind having a uniform strength in the paper width direction and obtain a rectifying effect. The horizontal direction shown in FIG. 3 indicates the paper width direction that passes. The wind generated by the blower fan 14 in the direction parallel to the sheet width is blown in a direction that passes through the drying duct 13 and goes straight to the sheet through the fins 20.

  FIG. 4 is a block diagram showing an example of the configuration of the control system in the inkjet recording apparatus 100 of the present embodiment. The CPU 300 controls the entire recording, drying, and colorimetry according to the control program stored in the ROM 31. Recording data, recording mode setting information, and the like are input to the CPU 300 from the host computer 302 via the input interface 303. In addition, the CPU 300 writes or reads recording data or the like in the RAM 304. The CPU 300 performs various controls based on the recording data from the host computer 302, the recording mode information, the time information from the time measuring unit 400 that measures the elapsed time after the recording is completed, and the colorimetric data from the colorimetric sensor 5. I do. Here, control of the recording head 305, the sheet conveying motor 306, the carriage motor 307, the motor 10, the blower fan 14, and the colorimetric unit driving means 17 is performed. When recording data, recording mode setting information, and the like are transferred from the host computer 302 to the inkjet recording apparatus 100, the CPU 300 determines recording control according to the recording mode setting information and starts recording.

  Next, a series of operations of recording, colorimetry, and paper discharge in this embodiment will be described with reference to FIGS. 5A to 5E and the flowchart of FIG. When recording and color measurement are started (step S10), first, recording is performed on the sheet 1 by the recording unit 3 in the inkjet recording apparatus 100. In the present embodiment, a patch row P, which is a test pattern for performing colorimetry, is recorded thereafter. When recording is performed, the sheet 1 is conveyed so that the recording area of the sheet is disposed at a position facing the recording unit 3. At this time, the sheet 1 may be conveyed with a relatively large curl as indicated by a broken line. The degree of curling varies depending on the type of sheet and the temperature and humidity around the sheet.

  When recording is being performed, as shown in FIG. 5A, the colorimetric unit U stands by in the upper part of the rotatable range around the colorimetric unit axis 18 (step). S20). The position of the color measurement unit in this state is called a conveyance position. In this state, the test pattern P is recorded while the sheet advances in the conveyance direction (forward direction) by driving the conveyance roller pair 2 (step S30).

  When the recording of the test pattern P is completed, the sheet 1 is then continued until the last recorded sheet area of the test pattern P is arranged at a position facing the drying unit K as shown in FIG. Is conveyed in the forward direction. When the test pattern P reaches the position facing the drying unit K on the downstream side of the colorimetric sensor 5, the conveyance is stopped. Thereafter, as shown in FIG. 5C, a paper presser (also referred to as a presser or a protruding member) 22 installed on the upstream side in the transport direction of the drying duct 13 moves in a direction close to the paper discharge guide 16. . At this time, the paper presser driving motor 21 is driven to move the paper presser 22 toward the sheet. When the paper presser 22 moves toward the paper discharge guide 16, the paper presser 22 is disposed so as to protrude toward the paper discharge guide 16 from the pressing plate 7 of the color measurement unit 22. That is, the paper presser 22 is a protruding member provided so as to protrude downward from the pressing plate 7.

  The sheet 1 is pressed against the support surface of the paper discharge guide 16 by the paper presser 22 (step S40). The paper presser 22 presses the sheet against the paper discharge guide 16 only at a position upstream from the position where the colorimetric sensor 5 performs the color measurement when the drying unit K blows air. In the present embodiment, when air is blown by the drying unit K, the paper presser 22 protrudes in a direction toward the support surface of the paper discharge guide 16 from the pressing plate 7, and the sheet is placed on the support surface of the paper discharge guide 16. I'm holding it down. Hereinafter, the state of the color measurement unit in which the sheet is pressed against the support surface of the paper discharge guide 16 for drying is referred to as a drying position.

  In this state, the blower fan 14 is operated to dry an image such as a test pattern recorded on the sheet. The drying air blown by the driving of the blower fan 14 is applied to the surface of the image to promote the drying of the image (step S50). In the present embodiment, the blower fan 14 is driven to dry the test pattern P recorded on the sheet.

  According to the present embodiment, the image can be dried by the wind blown from the drying unit K in a state where the sheet 1 is pressed against the support surface of the paper discharge guide 16. Therefore, even when an image recorded on the sheet 1 having strong curl is dried, the sheet 1 can be dried while being pressed against the support surface of the paper discharge guide 16 by the paper presser 22. Therefore, it is possible to dry the sheet 1 in a state in which the sheet 1 is in a posture following the paper discharge guide. Thereby, irrespective of the kind of sheet | seat, the relative distance H of the ventilation port 13a and the sheet | seat 1 can be kept constant.

  In the present embodiment, the sheet presser 22 presses the sheet against the support surface of the paper discharge guide 16 only at a position upstream from the position where the colorimetric sensor 5 performs the color measurement. In this embodiment, the sheet is pressed against the paper discharge member 16 by the paper presser 22 only at a part upstream from the position where the colorimetric sensor 5 performs the colorimetry. Therefore, the sheet presser 22 is not pressed at the position where the colorimetric sensor 5 performs the color measurement and the position downstream of the position. Therefore, when the air is blown from the drying unit K, these positions are exposed to the wind blown from the drying unit K. Therefore, in these positions, the image can be satisfactorily dried. At the position where the colorimetry is performed by the colorimetric sensor 5 and the position downstream of the position, drying is performed satisfactorily by the blowing from the drying unit K throughout. Therefore, it is possible to increase the area of the area on the sheet where the drying is performed by the blowing from the drying unit K. Since a large area for drying is taken, the conveyance of the sheet to the position for drying the sheet can be reduced. Since the sheet conveyance amount can be reduced, colorimetry and drying can be performed efficiently.

  Note that while the image is being dried by blowing from the drying unit K, the position where the color measurement is performed by the color measurement sensor 5 is not pressed by the paper presser 22, so that the drying is performed well there. It may be broken. Therefore, when the image is dried by blowing air from the drying unit K, the color measurement may be performed after that without carrying the sheet. Thereby, since it is not necessary to carry after the image is dried by blowing from the drying unit K, the time required for image drying and color measurement can be further shortened. Therefore, the image can be dried and colorimetrically more efficiently.

  Further, since the sheet is pressed against the support surface of the paper discharge guide 16 only on the upstream side, the area of the area where the sheet is pressed toward the support surface can be reduced. Therefore, it is possible to secure a large area of a region that can be dried by blowing air from the drying unit K. Since the area of the area to be dried by blowing from the drying unit K can be increased, the image can be dried more efficiently.

  Thereafter, when the image recorded on the sheet is dried, the sheet 1 is conveyed (back fed) in the direction opposite to the forward direction. Here, as shown in FIG. 5D, the sheet 1 is conveyed until an image such as a test pattern is arranged at a position facing the slit 7b of the pressing plate 7 where the color measurement is performed. . When the sheet is conveyed, the paper presser 22 in the color measurement unit U is temporarily moved away from the sheet 1. The sheet 1 is conveyed in a state where the paper presser 22 is separated from the sheet 1. Also at this time, the sheet conveyance amount from the position of the sheet for drying the sheet by blowing from the drying unit to the position for performing color measurement can be reduced. Since the conveyance amount of the sheet is small, the image on the sheet can be dried and the color measurement can be performed more efficiently.

  When the image on the sheet 1 is back-fed to the position where the color measurement is performed, the conveyance of the sheet 1 is stopped, and the color measurement unit U is counterclockwise as shown in FIG. Rotate around (step S60). Thereby, the colorimetric unit U is brought close to the sheet, and the sheet 1 is sandwiched between the pressing plate 7 and the support surface of the paper discharge guide 16 in the colorimetric unit U. Thereby, the sheet 1 is pressed from the surface by the pressing surface 7 a of the pressing plate 7. The state of the color measurement unit U at this time is hereinafter referred to as a color measurement position.

  At this time, the paper presser 22 moves upward by the drive of the paper presser drive motor 21 and is separated from the sheet 1. The colorimetric sensor 5 performs colorimetry while the colorimetric sensor 5 scans in the width direction of the sheet while the sheet 1 is pressed from the surface by the pressing surface 7a instead of the paper presser 22 (step S70). As described above, when the colorimetry is performed by the colorimetric sensor 5, the pressure plate 7 presses the sheet, and the sensor holding body 6 moves while contacting the pressure plate 7, whereby the colorimetric sensor 5 moves the sheet. Color measurement of the image is performed while scanning.

  Here, when a test pattern as a target for color measurement is composed of a plurality of columns, it is necessary to back-feed the sheet for one column in order to switch the test pattern column for which the color measurement is performed. There is. At that time, when the color measurement for one row is finished, the sheet pressing by the color measurement unit U is released each time, and then the back feed of the sheet 1 is performed. When the pressing of the sheet by the color measuring unit U is released, the color measuring unit U is rotated about the color measuring unit shaft 18 in the clockwise direction shown in FIG. To the position of the transport position that is separated from the position, and the pressing by the pressing plate 7 is released.

  After that, when the next test pattern to be detected is transported to the color measurement position by the color measurement sensor 5, the color measurement unit U is again rotated counterclockwise as shown in FIG. Turn to. As a result, the colorimetric unit U is brought close to the sheet 1, and the sheet 1 is pressed by the pressing plate 7, and colorimetry is performed there.

  When the colorimetry is performed for one row of test patterns, it is determined whether or not the colorimetry is performed for all the test patterns. That is, it is determined whether or not there is a test pattern for which no colorimetry has been performed yet in the image (step S80). Therefore, if there is an unmeasured test pattern sequence, the flow returns to step S40, and sheet drying, backfeed, and color measurement are performed for the test pattern in one row. Drying, backfeed, and colorimetry are repeated until colorimetry is performed on all test patterns. In this embodiment, if there is a test pattern for which colorimetry has not yet been performed, the flow returns to step S40, and the drying and colorimetry of the sheet are repeated. It is not limited to. If the entire image recorded on the sheet has been dried at the time of step S80, the flow returns to step S60 when there is a test pattern for which colorimetry has not yet been performed. Only color may be performed. That is, when drying is not necessary, the step of drying the sheet may be omitted and only color measurement may be performed.

  When the color measurement for all the test patterns is completed, as shown in FIG. 5E, the color measurement unit U is rotated clockwise in FIG. 5E around the color measurement unit axis 18 (see FIG. 5E). Step S90). As a result, the color measurement unit U is separated from the sheet 1 and the color measurement unit U moves to the transport position. Thereafter, the sheet 1 is conveyed in the paper discharge direction, and when the sheet 1 reaches a position facing the cutter 4, the sheet 1 is cut into a predetermined length by the cutter 4. When the sheet 1 is cut to a predetermined length, the sheet 1 is then transported in the forward direction and discharged to the paper discharge unit (step S100). Thus, the flow is finished (step S110). Colorimetric data obtained by colorimetry for the test pattern is stored in the RAM 304.

  As described above, according to the color measurement device and the image recording apparatus of the present invention, any sheet can be obtained by pressing the sheet 1 against the sheet discharge guide with the paper presser 22 while the test pattern P is being dried. Drying can be performed in a state where the posture of 1 is along the support surface of the paper discharge guide 16. When drying by blowing air to the sheet 1 is performed, the sheet 1 can be dried while keeping the posture of the sheet constant regardless of the type of the sheet. When the sheet 1 is dried by blowing air to the sheet 1, the relative distance H between the air blowing port 13a and the sheet 1 can be made constant. Regardless of the type of sheet, the posture of the sheet is the same, and the degree of drying of the test pattern can be made constant. It is possible to suppress a change in the color of the image due to variations in the degree of drying of the test pattern. In particular, when a test pattern is recorded, this prevents the test pattern density from changing every time recording is performed. Therefore, the color measurement for the test pattern can be performed accurately, and the color measurement accuracy can be improved.

  Further, since the sheet 1 is pressed against the support surface of the paper discharge guide 16 during drying, the posture of the sheet 1 becomes constant, so that the position where the drying air blown by the drying unit starts to hit the sheet 1 is fixed. . Accordingly, regardless of the type of the sheet, the entire recording surface of the sheet 1 can be dried by blowing. In other words, in the drying by blowing from the drying unit K, it is possible to suppress the occurrence of unevenness in the degree of drying for each position of the image. Therefore, it is possible to suppress the occurrence of a color difference for each formed position in the image. Therefore, it is possible to suppress a change in color depending on the position where the test pattern P is formed, and it is possible to improve the colorimetric accuracy.

  Further, when drying is performed by blowing air from the drying unit K, the sheet is pressed against the support surface only on the upstream side of the position where the color measurement is performed in the color measurement sensor. As a result, it is possible to increase the area to be dried by blowing air, reduce the transport amount for transporting the sheet for drying, and reduce the transport amount of the sheet. Color can be done efficiently. In addition, since the area that can be dried by blowing air from the drying unit can be increased, the image can be dried more efficiently.

  Note that a portion of the paper presser 22 that contacts the sheet 1 may be provided with a low friction sliding member or a rotating member such as a roller. Thereby, in the conveyance of the sheet from drying to color measurement, the sheet 1 can be conveyed while the paper presser 22 remains in contact with the sheet. In the above-described embodiment, when the sheet is conveyed after drying, the paper presser 22 moves in a direction away from the sheet 1. However, if the friction between the paper presser 22 and the sheet 1 is reduced, the recording surface of the sheet 1 is not damaged even if the sheet 1 is conveyed while the paper presser 22 is in contact with the sheet 1. It is hard to stick. Therefore, the sheet 1 may be conveyed while the paper presser 22 is in contact with the sheet 1 during the period from the drying to the color measurement. By doing so, it is possible to shorten the time required to move the paper presser 22 in the direction away from the sheet 1 and to perform colorimetry more efficiently.

  The same applies to the conveyance of the sheet 1 performed after the color measurement is performed on the test pattern P in one row. When the sheet is conveyed until the next test pattern P to be detected is arranged at a position facing the colorimetric sensor 5 after the colorimetry is performed on the test pattern P in one row, the colorimetry unit U is It is not necessary to move in the direction away from the sheet 1. The position of the color measurement unit U when the pressure is released after the color measurement for the test pattern P in one row does not necessarily need to be the transport position. The color measurement unit U may be moved to such an extent that the color measurement unit is rotated only by a small angle and a minimum conveyance path through which the sheet 1 can be conveyed is ensured. By performing the color measurement for each test pattern P by repeating this operation with a small amount of rotation, it is possible to shorten the time required for rotation in each conveyance. Therefore, the throughput can be improved during the colorimetric operation of the test pattern P composed of a plurality of columns.

(Second Embodiment)
Next, a second embodiment for carrying out the present invention will be described. The description of the same configuration as in the first embodiment will be omitted, and only different parts will be described.

  In the second embodiment, the upstream pressing plate 7c and the downstream pressing plate 7d move differently.

  In 2nd Embodiment, when drying the sheet | seat 1 by the ventilation from the drying unit K, the upstream press plate 7c and the downstream press plate 7d in the press plate 7 move separately. Specifically, when the sheet 1 is dried by the drying unit K, the sheet 1 is pressed only by the upstream pressing plate 7c disposed on the upstream side in the sheet conveyance direction, and disposed on the downstream side. The downstream pressing plate 7d is not involved in pressing. In this embodiment, when air is blown by the drying unit K, the downstream pressure plate 7d is separated from the sheet, and the upstream pressure plate 7c presses the sheet against the support surface of the paper discharge member 16 to support the sheet. Press down on. Therefore, only the upstream pressing plate 7c functions as a pressing portion for pressing the sheet against the support surface when the sheet is dried by the blowing from the drying unit K.

  FIG. 7A shows a side view of the color measuring device 200 when the test pattern P in the second embodiment is being dried. The pressing plate 7 includes an upstream pressing plate 7c disposed on the upstream side in the sheet conveyance direction and a downstream pressing plate 7d disposed on the downstream side. In the present embodiment, each of the upstream pressing plate 7c and the downstream pressing plate 7d is independently movable. The downstream pressing plate 7d is urged upward by the downstream pressing plate spring 24. When the sheet is dried, the sheet 1 is pressed against the sheet discharge guide 16 only at a position upstream from the position where the color measurement sensor 5 performs the color measurement by the upstream pressure plate 7c. Is blown. At this time, since the downstream pressing plate 7d is urged upward by the downstream pressing plate spring 24, the downstream pressing plate 7d is disposed at a position away from the sheet during drying. Accordingly, at this time, the downstream side pressing plate 7d is located at a distance away from the sheet than the upstream side pressing plate 7c.

  In this state, the blower fan 14 is operated to dry the test pattern P, and the drying air is applied to the surface of the test pattern P to accelerate the drying of the test pattern P. At this time, since the sheet 1 is pressed against the support surface of the paper discharge guide 16 by the upstream pressing plate 7c, the posture of the sheet 1 is kept constant when drying by the air blowing from the drying unit K. Therefore, even if the strongly curled sheet 1 is conveyed, the sheet 1 is dried in a posture following the sheet discharge guide. Accordingly, the relative distance H between the air blowing port 13a and the sheet 1 can be made constant regardless of the type of the sheet. In the present embodiment, the sheet is pressed against the support surface of the paper discharge guide 16 only by the upstream pressing plate 7c. Therefore, when the sheet is dried by blowing air from the drying unit K, the area of the area to be dried can be increased. Therefore, it is possible to efficiently dry and measure the color of the image.

  Thereafter, color measurement is performed on the image recorded on the sheet. FIG. 7B shows a side view of the color measuring device when the color measurement for the test pattern P is performed. When the colorimetric sensor 5 scans for colorimetry, the sliding member 8 in the colorimetry unit U temporarily gets on the downstream pressing plate 7d. In this state, the color measurement unit U rotates about the color measurement unit shaft 18, so that the color measurement unit U is in a state where the downstream sliding member 8 remains on the downstream pressure plate 7 d. The downstream pressing plate 7d is pressed toward the sheet. In this way, the sliding member 8 of the color measurement unit U rides on the downstream pressing plate 7d and presses the downstream pressing plate 7d, so that the downstream pressing plate 7d is in the direction of the arrow shown in FIG. 7B. The sheet 1 is moved and pressed against the support surface of the sheet discharge guide 16. That is, when the colorimetry is performed by the colorimetric sensor 5, the sensor holding body 6 presses the downstream pressing plate 7 d toward the support surface of the paper discharge member 16 through the sliding member 8, thereby holding the sensor. The body 6 presses the downstream pressing plate 7d against the support surface. As a result, the upstream pressing plate 7c and the downstream pressing plate 7d have substantially the same height, and as a result, the sheet 1 is pressed from the surface by the pressing surface 7a. In this state, the colorimetric unit U scans in the width direction of the sheet and performs colorimetry while the sheet 1 is pressed by the pressing plate 7.

  When the test pattern P is composed of a plurality of columns, when the color measurement for the test pattern P in one column is completed, the color measurement for the test pattern P in the next column is performed. When switching the row in which colorimetry is performed, it is necessary to release the press and transport the sheet 1 each time. In that case, when the colorimetric sensor 5 returns to the standby position, the force acting on the downstream pressure plate 7d disappears, so that the downstream pressure plate 7d biased upward moves upward. . The color measurement unit U is rotated clockwise in FIG. 7B, and the upstream side pressing plate 7 c moves to the conveyance position where it does not touch the surface of the sheet 1. Thereby, the press to the sheet 1 is released. When the next test pattern P is conveyed to the position where color measurement is performed, the color measurement unit U is rotated again counterclockwise in FIG. 7B and the sheet 1 is pressed to perform color measurement.

  According to this embodiment, when drying by blowing from the drying unit K is performed, the sheet is pressed only by the upstream pressing plate 7c in a state where the downstream pressing plate 7d is disposed at a position separated from the sheet. Is done. Therefore, when drying is performed, the air blown from the drying unit through the gap between the downstream pressing plate 7d and the sheet is blown toward the sheet. Therefore, the sheet can be dried more efficiently.

  The wind blown from the drying unit K passes through the gap between the downstream pressing plate 7d and the sheet and is blown to the sheet. In the present embodiment, since the airflow passing through the space between the downstream pressing plate 7d and the sheet passes through the closed space, the flow velocity of the airflow is unlikely to decrease. Therefore, the flow rate of the airflow sprayed on the sheet increases, and the image recorded on the sheet can be dried more efficiently. Therefore, it is possible to further improve the throughput in image drying and colorimetry.

  In the configuration of the present embodiment, the space required for the downstream pressing plate 7d to move toward the sheet 1 is relatively small. In the second embodiment, when the downstream pressing plate 7d moves toward the sheet 1, the downstream pressing plate 7d moves along the linear track and moves toward the sheet. Therefore, the moving path of the downstream pressing plate 7d is linear, and the space required when the downstream pressing plate 7d moves toward the sheet can be reduced. Thereby, the drying unit K can be disposed close to the color measurement unit U. In the present embodiment, since the drying unit K can be brought closer to the color measurement unit U, the ink jet recording apparatus 100 can be downsized.

  When the sheet is dried by blowing air from the drying unit K, as shown in FIG. 7A, the color measurement unit U may be retracted to another standby position.

(Third embodiment)
Next, a third embodiment for carrying out the present invention will be described. The description of the same configuration as in the first and second embodiments will be omitted, and only different parts will be described.

  In the second embodiment, when the colorimetric sensor 5 scans in the width direction of the sheet to perform colorimetry, the sliding member 8 is on the downstream pressing plate 7d biased upward, By rotating the color measurement unit U, the color measurement unit U and the downstream pressing plate 7d are moved. As a result, the upstream pressing plate 7 c and the downstream pressing plate 7 d are moved toward the sheet 1, and the sheet 1 is sandwiched between the pressing plate 7 and the paper discharge guide 16.

  On the other hand, in the third embodiment, the upstream pressing plate 7c is biased downward toward the seat. Then, when drying the image recorded on the sheet by blowing from the drying unit K, only the upstream-side pressing plate 7 c presses the sheet against the support surface of the paper discharge member 16. Further, when the color measurement is performed, when the color measurement unit U rotates and moves in the direction approaching the sheet, the upstream pressure plate 7c and the downstream pressure plate 7d are rotated by the color measurement unit U. Move together with movement. As a result, the sheet 1 is pressed by both the upstream pressing plate 7 c and the downstream pressing plate 7 d, and the sheet 1 is sandwiched between the pressing plate 7 and the support surface of the paper discharge member 16. Further, when the color measurement unit U moves in a direction away from the sheet, the upstream pressure plate 7c and the downstream pressure plate 7d are interlocked with the movement of the color measurement unit U as the color measurement unit U rotates. Move away from the sheet 1.

  FIG. 8A shows a side view of the ink jet recording apparatus 100 when the test pattern P is dried. The pressing plate 7 has a structure that is divided into an upstream pressing plate 7c and a downstream pressing plate 7d, and each of them can move independently in the direction of approaching and separating from the sheet. Further, when the sheet is being dried, the color measurement unit U is retracted to another position.

  In the present embodiment, the upstream pressing plate 7 c is urged in the direction toward the sheet by the upstream pressing plate spring 23. When the sheet is being dried by blowing air from the drying unit K, the upstream pressing plate 7c is located closer to the sheet 1 than the downstream pressing plate 7d. In this state, the test fan P can be dried by operating the blower fan 14 to dry the test pattern P and applying the dry air to the surface of the test pattern P. Accordingly, the sheet 1 is blown from the drying unit K to the sheet 1 in a state where the sheet 1 is pressed against the sheet discharge guide 16 only by the upstream pressing plate 7c, and the sheet is dried. The air blown from the drying unit K is blown onto the sheet through the gap between the downstream pressing plate 7d and the sheet. Therefore, the sheet can be satisfactorily dried by the blowing from the drying unit K.

  Further, when the sheet 1 is dried by blowing air from the drying unit K, drying is performed in a state where the sheet 1 is pressed against the support surface of the paper discharge guide 16 by the upstream pressing plate 7c. Therefore, even if the strongly curled sheet 1 is conveyed during drying, the sheet can be dried in a posture following the paper discharge guide by being pressed by the upstream pressing plate 7c during drying. Thereby, irrespective of the kind of sheet | seat, the relative distance H of the ventilation port 13a and the sheet | seat 1 can be kept constant.

  Also in the present embodiment, when drying by blowing from the drying unit K is performed, the sheet is only formed by the upstream pressing plate 7c in a state where the downstream pressing plate 7d is disposed at a position separated from the sheet. Pressing is performed. Therefore, when drying is performed, the air blown from the drying unit through the gap between the downstream pressing plate 7d and the sheet is blown toward the sheet. Therefore, the sheet can be dried more efficiently.

  When drying is completed, the sheet is transported to a position suitable for colorimetry, and then the colorimetry unit U is brought close to the sheet 1 as shown in FIG. Is called. At this time, when the colorimetric sensor 5 performs colorimetry, the sensor holder 6 moves in a direction toward the support surface so that the colorimetric sensor 5 can perform colorimetry close to the sheet. As a result, the color measurement unit U moves in a direction toward the support surface. Then, in conjunction with the movement of the color measurement unit U, the upstream pressing plate 7c and the downstream pressing plate 7d move. As a result, the upstream pressing plate 7 c and the downstream pressing plate 7 d press the sheet against the support surface of the paper discharge member 16.

  FIG. 8B shows a side view of the ink jet recording apparatus 100 when colorimetry is performed. At this time, depending on the type of the sheet to be conveyed, a part of the sheet may be conveyed to a position facing the color measurement unit U in a state of protruding from the support surface of the paper discharge guide 16. In such a case, the upstream pressing plate 7c presses the sheet 1 while being urged in a direction (downward) toward the sheet. The upstream pressing plate 7 c is pressed upward by the sheet 1 supported by the paper discharge guide 16. As a result, the upstream pressing plate 7c moves in the direction of the arrow (upward) shown in FIG. 8B. Thereby, in the case of color measurement, according to the shape of a sheet | seat, color measurement can be performed in the state which the press plate 7 contact | adhered to the position where color measurement is performed. In this state, the colorimetric sensor 5 scans in the width direction of the sheet 1 and performs colorimetry while the sheet 1 is pressed by the pressing plate 7. Therefore, the position where the color measurement is performed in the color measurement sensor 5 can be made closer to the detection target image, and the accuracy in color measurement can be further improved.

  When the color measurement unit U moves in a direction away from the sheet 1, the color measurement unit U moves by rotating about the color measurement unit shaft 18 by the color measurement unit U. When the color measurement unit U moves away from the sheet 1, the color measurement unit U moves, and in conjunction with the movement of the color measurement unit U, the upstream pressure plate 7 c and the downstream pressure plate. 7 d moves away from the sheet 1.

  As described above, the pressing plate 7 may be configured such that the upstream pressing plate 7c is urged downward toward the sheet. Further, when the image recorded on the sheet is blown by the air from the drying unit K, the upstream side pressing plate 7c and the downstream side pressing plate 7d are moved by the color measuring unit U when the color measuring unit U is moved. The structure which moves together in conjunction with the movement by may be sufficient.

(Fourth embodiment)
Next, a fourth embodiment for carrying out the present invention will be described. The description of the same components as those in the first to third embodiments will be omitted, and only different parts will be described. In the above-described first to third embodiments, the mode in which the drying unit K is fixed to the main body side of the inkjet recording apparatus 100 has been described. On the other hand, 4th Embodiment demonstrates the form in case the drying unit K can move to the direction (up-down direction) which adjoins and leaves | separates the sheet | seat 1. FIG.

  FIG. 9 shows a side view of the ink jet recording apparatus when the test pattern P is dried by blowing air from the drying unit K. FIG. The drying unit K is configured to be movable by a drying unit lifting / lowering means (not shown). As a result, the drying unit K can move in the direction of approaching and separating from the sheet 1 (up and down direction). As described above, in the present embodiment, the drying unit K can move the position of the air blowing port 13a of the drying duct 13 in the direction of approaching the sheet. Then, when the air is blown by the drying unit K, the position of the air blowing port 13a is moved in the direction to be close to the support surface of the sheet. When drying is performed, the air outlet 13a of the drying unit K moves in a direction (downward) close to the sheet, so that the relative distance H between the air outlet 13a and the sheet 1 is reduced. Thereby, it becomes possible to apply dry air from a position closer to the sheet 1, and the wind speed on the sheet 1 is improved. Thereby, the test pattern P can be dried more efficiently, and the throughput can be further improved.

  In the present embodiment, the drying unit K is moved by a drying unit lifting / lowering means (not shown), but the present invention is not limited to this. The drying unit K may be connected to the color measurement unit U. Accordingly, the drying unit K is configured to move with the movement of the color measurement unit U by the color measurement unit driving means 17.

(Fifth embodiment)
Next, a fifth embodiment for carrying out the present invention will be described. The description of the same components as those in the first to fourth embodiments will be omitted, and only different parts will be described.

  In the fifth embodiment, the pressing plate 7 of the colorimetric unit U presses the sheet 1 when the sheet is dried by blowing air from the drying unit K.

  FIG. 10A shows a side view of the color measuring device when the sheet is dried by blowing air from the drying unit K. FIG. When the recording of the test pattern P is completed, the sheet 1 is then conveyed until the test pattern P is disposed at a position facing the drying unit K on the downstream side of the colorimetric sensor 5. When the test pattern P is disposed at a position facing the drying unit K, the conveyance of the sheet 1 is stopped there, and the color measurement unit U is rotated counterclockwise as shown in FIG.

  Accordingly, the sheet 1 is pressed against the support surface of the paper discharge guide 16 by the pressing surface 7 a of the pressing plate 7 in the color measurement unit U. In this state, the blower fan 14 is operated to dry the test pattern P, and the drying air is blown toward the surface of the test pattern P. As described above, when the sheet is dried by blowing air from the drying unit U, the sheet is pressed against the support surface of the paper discharge guide 16 by the pressing plate 7, so that the posture of the sheet 1 at the time of drying is kept constant.

  Even if the sheet to be dried is a strongly curled sheet 1, the sheet 1 is pressed by the pressing plate 7 during drying, so that the sheet 1 is dried while keeping the posture following the sheet discharge guide 16. Can be made. Thereby, irrespective of the kind of sheet | seat to dry, the relative distance H of the ventilation port 13a and the sheet | seat 1 at the time of drying can be made constant.

  Thereafter, when the drying of the test pattern P is completed, as shown in FIG. 10B, the color measurement unit U is rotated around the color measurement unit shaft 18 in the clockwise direction in FIG. 10B. As a result, the color measurement unit U moves in a direction away from the sheet 1.

  Next, when the sheet 1 is conveyed to the upstream side and the test pattern P is conveyed until it reaches a position facing the slit 7b in the pressing plate 7 of the color measurement unit U, which is a position where the color measurement is performed, the sheet 1 is conveyed. 1 is stopped.

  After that, as shown in FIG. 10C, the color measuring unit U is rotated counterclockwise as shown in FIG. The sheet 1 is pressed from the surface by the pressing surface 7a. In this state, the colorimetric sensor 5 scans in the sheet width direction while pressing the sheet 1 to measure the color of the test pattern P.

  According to the fifth embodiment, the pressing plate 7 can also serve as a member for pressing the sheet against the support surface of the sheet discharge guide 16 when the sheet is dried by blowing air from the drying unit K. Therefore, it is not necessary to provide a member for pressing the sheet against the support surface of the paper discharge guide 16 for drying by blowing from the drying unit K, separately from the color measurement unit. Therefore, the configuration of the inkjet recording apparatus 100 can be simplified, and the manufacturing cost of the inkjet recording apparatus 100 can be kept low. In addition, the inkjet recording apparatus 100 can be reduced in size.

  In the above embodiment, the ink jet recording apparatus has been described. However, the present invention is not limited to this, and can be applied to color calibration in a recording apparatus that requires drying after recording.

5 Colorimetric Sensor 7 Pressing Plate 7c Upstream Pressing Plate 7d Downstream Pressing Plate 16 Paper Discharge Member 22 Paper Presser U Colorimetric Unit K Drying Unit

Claims (9)

A recording unit for recording on the sheet;
A colorimetric unit that performs colorimetry on the sheet;
A blower that blows air toward the sheet recorded by the recording unit;
A pressing part for pressing the sheet against the support surface;
Have
When air is blown by the air blowing unit toward the sheet recorded by the recording unit, the pressing unit is located at a position that does not block air blowing to an area of the sheet that has not yet been measured, with respect to the support surface. A recording apparatus that presses the sheet.   The pressing unit is attached to the color measurement unit, and when the color measurement unit moves so as to approach the support surface, the press unit presses the sheet against the support surface. Item 2. The recording device according to Item 1.   The colorimetric unit, when performing colorimetry, moves so that the colorimetric unit approaches the support surface, and the pressing unit presses the sheet against the support surface. Item 3. The recording apparatus according to Item 1 or 2. The color measurement unit includes a carriage on which a sensor for performing color measurement is mounted,
The recording apparatus according to claim 3, wherein the carriage performs reading while the sheet is pressed against the support surface by the pressing portion.   The area of the sheet on which a plurality of rows of patterns for color measurement are recorded in the recording section is once sent downstream from the color measurement section, and then, reading and backfeeding are repeated for each row of patterns. The recording apparatus according to claim 1, wherein color measurement of the pattern is performed.   The said colorimetry part and the said ventilation part are provided as one unit, The said unit can move so that it may adjoin and space apart with respect to the said support surface, From Claim 1 characterized by the above-mentioned. The recording apparatus according to any one of 5. The pressing portion has a pressing plate and a protruding member capable of protruding from the pressing plate,
When the air blowing unit blows air to the area of the sheet that has not yet performed color measurement before color measurement, the protruding member protruding from the pressing plate presses the sheet against the support surface,
The recording apparatus according to claim 1, wherein when the color measurement unit performs color measurement, the pressing plate presses the sheet against the support surface. The pressing portion includes a first pressing plate and a second pressing plate located closer to the air blowing portion than the first pressing plate,
Before the color measurement, the second pressing plate does not press the sheet against the support surface when the air blowing section blows air to the area of the sheet that has not yet performed color measurement. Press the sheet against the support surface,
7. The method according to claim 1, wherein when the color measurement unit performs color measurement, the first pressing plate and the second pressing plate press the sheet against the support surface. The recording device described in 1. A colorimetric unit that performs colorimetry on the sheet;
A blower that blows air toward a sheet on which an image for colorimetry is recorded;
A pressing part for pressing the sheet against the support surface;
Have
When air is blown by the air blowing unit toward the sheet on which the image is recorded, the pressing unit is located at a position that does not block air blowing to an area of the sheet that has not yet been measured for color, with respect to the support surface. A colorimetric device characterized by pressing a sheet.

Images