JP2014004707A - Recording device and manufacturing method for recorded material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a reduction in recording quality even in a case where setting trays used have a plurality of small and large sizes, positions of recording images deviate from one another or the like when overlapping recording is executed in a recording device for executing overlapping printing.SOLUTION: A recording device for performing overlapping recording on media to be recorded by recording a plurality of times comprises: setting trays on which the media to be recorded are placed; a recording section for performing the recording on the media to be recorded placed on the setting trays; a moving mechanism that can relatively move the setting trays in a first direction with respect to the recording section for executing the recording; and a plurality of sensors that is provided at intervals in the first direction and detects positions of the setting trays with respect to the recording section or a position of the recording section with respect to the setting trays.

Description

The present invention relates to a recording apparatus capable of performing a plurality of times of overlay recording on a recording medium, and a method for manufacturing a recorded matter by overlay recording.
In the present application, the recording apparatus includes types such as an ink jet printer, a line printer, a copying machine, and a facsimile.

  Conventionally, when recording an image or the like on a recording medium, particularly a cloth such as a T-shirt, the recording unit performs base recording with white ink or the like in order to make the image vividly color, and then color ink is applied to the base recording portion. The images are recorded by superimposing the images. In the second image recording, the medium holding unit that moves while holding the recording medium is returned to the recording start position in the first base recording, and then moved toward the recording head as in the first time. Done.

  Further, there is a recording apparatus having a structure for performing the first base recording and the second image recording (color recording) without returning the medium holding unit (Patent Document 1). In this recording apparatus, a first recording head and a second recording head are provided along a moving path on the moving path for moving the medium holding unit. The first recording head and the second recording head move in parallel with each other. Then, the medium holding unit that holds the recording medium is moved along the movement path, the base recording is performed by the first recording head, and the recording is performed as it is and the image recording is performed by the second recording head.

JP 2008-80750 A

In the above prior art, the following problems are not considered at all.
The movement control of the medium holding unit (hereinafter also referred to as “set tray”) along the movement path is performed with respect to the reference position. When there are a plurality of sizes of the set tray, in the movement control by a single reference position, the movement of the small size set tray is controlled at the reference position according to the large size set tray. The “small set tray” has a longer distance to the recording head than the “large set tray” by the amount of the smaller size. That is, the movement distance from the reference position until the recording is actually started after the movement is started (hereinafter, this movement distance is referred to as “movement distance before start”) becomes long. Therefore, when recording is performed with the “small set tray”, the movement distance before the start is longer than that of the “large set tray”, so that the integrated amount of error (positional deviation) associated with the movement also increases.
In the case of non-overlapping recording, there is not much problem, but in the case of superimposing recording, an integration error due to an increase in the “movement distance before start” leads to a decrease in recording quality.
Further, even when recording is performed with the “large set tray”, for example, when the recording area of the image on the recording medium is biased away from the recording head, the recording area to the recording head Since the distance becomes longer, the same problem as the “small set tray” occurs.
Further, even when the recording is performed with the “large set tray”, for example, when the first recording area and the second recording area are separated to a certain extent in the moving direction, the integration is similarly performed. The effect of error is likely to occur.

Next, the conventional technique described in Patent Document 1 has a structure in which the first background recording and the second image recording (color recording) are performed without returning the medium holding unit. There is no problem based on "returning".
However, since the movement position of the set tray relative to the first recording head and the movement position of the set tray relative to the second recording head are controlled based on the single reference position, the second recording head is moved from the reference position. The “movement distance before start” is longer than that of the first recording head. As a result, there is a problem that the position of the image by the second recording head with respect to the image by the first recording head tends to deviate from the original position.

  An object of the present invention is to suppress a decrease in recording quality even when a set tray to be used has a plurality of sizes or a position of a recorded image is deviated when performing overlay recording. And

  In order to achieve the above object, a recording apparatus according to a first aspect of the present invention is a recording apparatus that performs superposition recording by recording a plurality of times on a recording medium, and a set tray on which the recording medium is placed; A recording unit that records on the recording medium placed on the set tray, a moving mechanism that can move the set tray relative to the recording unit in a first direction for recording, and the first unit And a plurality of sensors that detect the position of the set tray with respect to the recording unit or the position of the recording unit with respect to the set tray.

In the description of the operational effects of the invention in the section “Means for Solving the Problems”, the recording apparatus moves the set tray in the first direction in order to prevent the description from becoming redundant and difficult to understand. It may be described as a configuration. Since the structure in which the recording unit moves in the first direction or the structure in which both move is basically the same, the description thereof is omitted.
According to this aspect, the plurality of sensors that detect the position of the set tray with respect to the recording unit are provided along the moving direction of the set tray. By changing the sensors used in the plurality of sensors, there is no possibility that the images are shifted in the overlay recording, or the possibility that the fears can be reduced. This will be described in detail below.

When recording with the “small set tray” when there are multiple sizes of the set tray, the sensor to be used is another sensor located near the recording unit (what is the sensor for the “large set tray”? It is possible to detect the position of the set tray in place of another “sensor for a small set tray”). This makes it possible to prevent the “movement distance before start” from becoming long by changing the sensor to be used when recording is performed on the “small set tray”.
Further, when recording is performed with the “large set tray”, for example, when the recording area of the image with respect to the recording medium is biased to the side far from the recording head, by changing the sensor to be used, An increase in the distance from the recording area to the recording head can be avoided. That is, it is possible to prevent the “movement distance before start” from becoming long.
Further, when recording is performed with the “large set tray”, for example, when the first recording area and the second recording area are separated from each other along the first direction to some extent, the sensor to be used is changed. Similarly, it is possible to prevent the “movement distance before start” from increasing.

Further, as in the prior art described in Patent Document 1, a plurality of recording heads are provided, and the first background recording and the second image recording (color recording) are performed without returning the set tray (medium holding unit). Also in the recording apparatus having the structure to be performed, it is possible to similarly prevent the “movement distance before start” from becoming longer by changing the sensor to be used. Thereby, the shift of the position of the image by the second recording head from the original position with respect to the image by the first recording head can be reduced.
If the sensor that detects the position of the set tray during base recording and the sensor that detects the position of the set tray during image recording are the same sensor, the set tray is moved back and forth during multiple overlap recording. Recording can be started from the same recording start position. Accordingly, since the recording start position is not shifted, it is possible to suppress a decrease in recording quality of an image recorded on the recording medium.

  A recording apparatus according to a second aspect of the present invention includes, in the first aspect, a control unit that controls the moving mechanism and the recording unit, and corresponds to each position detected by each of the plurality of sensors. The reference position of the position in the first direction of the set tray or the recording unit at the time of recording is determined respectively, and the control unit determines whether the set tray or the recording unit is based on the reference position determined corresponding to the sensor to be used. Recording is performed by controlling a moving position of the recording unit in the first direction.

  According to this aspect, recording is performed by controlling the movement position of the set tray or the recording unit in the first direction based on the reference position determined corresponding to the sensor to be used among the plurality of sensors. Therefore, it is possible to prevent the “movement distance before start” from becoming long, and it is possible to effectively obtain the same effect as the first aspect. That is, there is no possibility that the image is shifted in the overlay recording, or the possibility can be reduced.

  The recording apparatus according to a third aspect of the present invention is characterized in that, in the second aspect, the control unit switches a sensor to be used corresponding to the size of the set tray in the first direction.

  According to this aspect, in addition to the same effects as those of the second aspect, the sensor that detects the position of the set tray is switched according to the size of the set tray, so that it corresponds to the size of the set tray. Thus, the reference position can be set. Thereby, there is no possibility that the image is shifted in the overlay recording, or the possibility can be reduced.

  In the recording apparatus of the fourth aspect of the present invention, in the second or third aspect, the control unit uses the sensor corresponding to the position in the first direction of the recorded image of each overlay recording. It is characterized by switching.

  According to this aspect, in addition to the same effect as the second or third aspect, a sensor that detects the position of the set tray so as to change the recording start position based on the image data input to the control unit. Can be switched. Accordingly, the distance between the recording unit and the recording start position can be shortened each time of overlay recording. As a result, when the position for starting the recording of the base recording is different from the position for starting the recording of the image recording, the sensor close to the recording unit is used in the image recording time without using the reference position for the base recording. Since the other reference position detected by the above is used, the “movement distance before start” at the time of image recording does not become long, and there is no possibility that the image is shifted, or the risk can be reduced.

  A recording apparatus according to a fifth aspect of the present invention is the recording apparatus according to any one of the second to fourth aspects, wherein the recording unit is provided so as to be movable in a second direction intersecting the first direction. A first recording head; and a second recording head that is movably provided in the second direction and spaced from the first recording head in the first direction. Is a sensor that detects the position of the set tray or the position of the first recording head when recording on the recording medium by the first recording head, and the recording medium by the second recording head. When recording, a sensor for detecting the position of the set tray or the position of the second recording head is switched.

  According to this aspect, in addition to the same operation and effect as in any one of the second to fourth aspects, a plurality of recording heads are provided and the first base recording and second recording are performed without returning the set tray (medium holding unit). Even in a recording apparatus having a structure for performing the second image recording (color recording), it is possible to prevent the “movement distance before start” from becoming long similarly by changing the sensor to be used in the same manner. Thereby, the shift of the position of the image by the second recording head from the original position with respect to the image by the first recording head can be reduced.

  In a recording apparatus according to a sixth aspect of the present invention, in any one of the second to fifth aspects, the control unit determines the position of the set tray or the position of the recording unit from any one of the plurality of sensors. After the detection by the sensor, until the recording operation to the recording medium by the recording unit is completed, the set tray or the recording unit is moved only in one direction in which the set tray or the recording unit was moved at the time of detection. It is made to move.

  According to this aspect, in addition to the same effects as any one of the second to fifth aspects, the set tray or the recording unit is detected at the time of detection until the recording operation to the recording medium by the recording unit is completed. Since the set tray or the recording unit is moved only in one direction, the recorded image can be prevented from being shifted due to backlash or backlash due to the reverse rotation of the moving mechanism.

According to a seventh aspect of the present invention, there is provided a method for manufacturing a recorded material, wherein the recorded material is recorded on the recording medium a plurality of times and recorded on the recording medium, wherein the recording medium is placed on the recording medium. The set tray is moved relative to a recording unit for recording on the recording medium along a first direction, and a plurality of sensors arranged at intervals along the first direction. The position of the set tray or the recording unit that moves along the direction of 1 is detected, and the reference of the position of the set tray or the recording unit in the first direction at the time of recording corresponding to the detected position A step of determining a position; and a step of executing recording by controlling a moving position of the set tray or the recording unit in the first direction based on the reference position.
According to this aspect, the same effect as that of the first aspect can be obtained.

  According to an eighth aspect of the present invention, there is provided a recorded matter manufacturing method according to the seventh aspect, wherein after the position of the set tray or the position of the recording portion is detected by any one of the plurality of sensors, The set tray or the recording unit is moved only in one direction in which the set tray or the recording unit was moved at the time of detection until the recording operation to the recording medium by the recording unit is completed.

  According to this aspect, in addition to the same effect as the seventh aspect, the same effect as the sixth aspect can be achieved.

FIG. 3 is a plan view of a conveyance path of the recording apparatus according to the first embodiment. FIG. 5A is a plan view illustrating a state where the set tray of the recording apparatus according to the first embodiment is in a set position, and FIG. 5B is a plan view illustrating a state where the set tray is moved to a standby position. (A) is a plan view showing a state where the sensor detects the position of the set tray of the recording apparatus according to the first embodiment, that is, a state where the set tray is at the reference position, and (B) is a plan view showing the recording execution state of the set tray. Figure. (A) is a plan view showing a state in which the set tray of the recording apparatus according to the first embodiment is at a recording end position, and (B) is a state in which the set tray has finished overlapping recording and returned to the set position. FIG. 6 is a flowchart showing a recording process in the first embodiment. (A) is a top view explaining the set tray detection position of the sensor corresponding to the recording start position of the recording apparatus according to the second embodiment, and (B) is the sensor corresponding to the recording start position of superposition recording. The top view explaining a set tray detection position. 9 is a flowchart showing a recording process in the second embodiment. (A) is a top view explaining the set tray detection position of the corresponding detection sensor when the size of the set tray in the recording apparatus according to the third embodiment is different from the set tray of the first embodiment. FIG. 7B is a plan view showing the detection position of the set tray of the recording apparatus in the third embodiment. 10 is a flowchart showing a recording process in the third embodiment. (A) is a top view which shows the state which has a set tray in the reference position corresponding to a 1st recording head in the case of recording with the 1st recording head in the recording device which concerns on a 4th Example, (B) FIG. 10 is a plan view showing a state in which the set tray is at a reference position corresponding to the second recording head when recording is performed by the second recording head in the recording apparatus according to the fourth embodiment. 10 is a flowchart showing a recording process in a fourth embodiment. (A) is a top view which shows the state which has a recording part in a reference position in the recording device which concerns on a 5th Example, (B) differs in the magnitude | size of the set tray in the recording device which concerns on a 5th Example. The top view which shows the state which has a recording part in a reference position in the case. The flowchart which shows the recording process in a 5th Example.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, about the same structure in each Example, the same code | symbol is attached | subjected and it demonstrates only in the first Example, The description of the structure is abbreviate | omitted in a subsequent Example.

[First embodiment]
Referring to FIG. 1, an ink jet printer 10 (hereinafter referred to as “printer 10”) as a recording apparatus according to the present invention is shown. The printer 10 includes, for example, a set tray 12 on which a recording medium made of a fabric such as a T-shirt is placed, a moving mechanism 14 that moves the set tray 12 in the first direction, that is, the Y-axis direction in FIG. 1, a recording unit 16 that can move in the X-axis direction in FIG. 1, a plurality of position detection sensors 18 that detect the position of the set tray 12, and an object placed on the set tray 12. A floating check sensor 20 for checking the floating of the recording medium, a control unit 22 for controlling the moving mechanism 14, the recording unit 16, the position detection sensor 18 and the floating check sensor 20, and a display unit electrically connected to the control unit 22 24 and an operation unit 26 which is electrically connected to the control unit 22 and inputs an operation from a user.

  Here, “fabric” includes natural fibers such as cotton, silk, wool, etc., chemical fibers such as nylon, and composite fibers such as woven fabrics, knitted fabrics, and non-woven fabrics. In addition to handkerchiefs, scarves, towels, curtains, sheets, bed covers, etc., fabrics before and after cutting that exist as parts before sewing are also included.

  The moving mechanism 14 includes a pair of rails 28 that extend in the Y-axis direction and are arranged in parallel at intervals in the X-axis direction, and a stage 30 that is driven to reciprocate in the Y-axis direction by a drive source (not shown). I have. The stage 30 is provided with a set tray 12 at the top thereof. In addition, the stage 30 includes a flag unit 32 for the position detection sensor 18 to detect the position of the set tray 12.

  The recording unit 16 is provided with a recording head 34. The recording head 34 is configured to reciprocate in the X-axis direction by a driving source (not shown). The recording head 34 is provided with a plurality of nozzle holes (not shown) for discharging ink on the lower surface thereof. The nozzle hole faces the set tray 12 that supports the recording medium. The set tray 12 defines the distance between the recording medium and the recording head 34.

  A plurality (18a, 18b, 18c) of position detection sensors 18 are arranged along the Y-axis direction at appropriate intervals in the Y-axis direction. Here, the position detection sensor 18 used in the present embodiment is, for example, a reflection type detection sensor. The “reflective detection sensor” is a light (laser beam or the like) irradiated from a light projecting unit of the sensor onto a measurement object, and the light reflected by the measurement object is received by the light receiving unit of the sensor. The presence / absence of an object and the distance between the sensor and the object to be measured are measured.

  Here, the position detection sensor 18 is not limited to a reflection type detection sensor, but detects the position or presence of a measurement object such as an optical type, an eddy current type, a contact type, an ultrasonic type, or a transmitted light type. Anything to do.

  In the present embodiment, the detection of the set tray 12 or the recording unit 16 is performed when the position detection sensors 18a, 18b, 18c no longer receive reflected light at the light receiving unit, that is, the set tray 12 or the recording unit 16 detects the position detection sensor 18a. , 18b, and 18c, when the light from the light projecting unit is no longer reflected, the position of the set tray 12 or the recording unit 16 is detected, and the detected signal is transmitted to the control unit 22. .

  The control unit 22 is electrically connected to a drive source (not shown) that drives the moving mechanism 14, a drive source (not shown) that drives the recording unit 16, and position detection sensors 18a, 18b, and 18c, a display unit 24, and an operation unit 26. Yes. The control unit 22 drives the moving mechanism 14 via a drive source (not shown) that drives the moving mechanism 14 and thus drives the set tray 12 along the Y-axis direction. Further, the control unit 22 drives the recording head 34 in the X-axis direction via a drive source (not shown) that drives the recording head 34 based on detection signals from the position detection sensors 18a, 18b, and 18c, and supports the recording head 34 on the set tray 12. Recording is performed on the recorded medium.

  The floating check sensor 20 is provided in the printer 10 via the control unit 22 when the recording medium is placed on the set tray 12 and checks whether the recording medium is floating. A display unit (not shown) informs the user of the printer 10 that a float has occurred.

  The flow of the recording process in the first embodiment will be described with reference to FIGS. FIG. 2A shows the set tray 12 and the stage 30 at the set position Yset where the recording medium is set on the set tray 12. In step S1, image data to be recorded on the recording medium is input to the control unit 22.

  In step S2, a recording medium is set on the set tray 12 by the user of the printer 10. Next, the user of the printer 10 operates the operation unit 26 of the printer 10 and inputs a recording execution command to the control unit 22. In response to the recording effective command, the control unit 22 drives the set tray 12 on which the recording medium is set by the moving mechanism 14 to move in the −Y direction.

  In step S3, the floating check sensor 20 disposed between the set position Yset and the recording unit 16 in the Y-axis direction checks whether the recording medium set on the set tray 12 has floating or slack. When the floating check sensor 20 detects that the recording medium is floating, the control unit 22 displays that the floating is generated on the display unit 24 and returns the set tray 12 to the set position Yset again.

  The user resets the recording medium so as not to float again on the set tray 12 returned to the set position Yset, and inputs a recording execution command to the control unit 22 again. When the floating check sensor 20 does not detect that the recording medium is floating, the control unit 22 moves the set tray 12 to the standby position Yh shown in FIG.

  At this time, when the set tray 12 and the stage 30 move to the standby position Yh, the flag unit 32 is positioned above the position detection sensor 18a. Thereby, the light irradiated upward from the light projecting unit 36 of the position detection sensor 18a is reflected by the flag unit 32 and enters the light receiving unit 38 of the position detection sensor 18a, and the position detection sensor 18a is turned off.

  In step S5, the set tray 12 and the stage 30 at the standby position are started to move in the Y direction. As shown in FIG. 3A, as the set tray 12 and stage 30 move in the Y direction, the flag unit 32 moves from above the light projecting unit 36 of the position detection sensor 18a to the Y direction. Thereby, since the light irradiated from the light projection part 36 of the position detection sensor 18a is not reflected by the flag part 32, it does not enter into the light receiving part 38 of the position detection sensor 18a, and the position detection sensor 18a is turned on and detected. A signal is transmitted to the control unit 22.

  At this time, the control unit 22 determines the position when the position detection sensor 18a is turned on, that is, the detection position, as the reference position Y1 for recording execution. Further, as the set tray 12 and the stage 30 move from the standby position to the Y direction side, the position detection sensors 18b and 18c are turned on after being turned off, and the detection signals are respectively sent to the control unit 22. Send.

  The control unit 22 determines reference positions Y2 and Y3 of the position detection sensors 18b and 18c based on these detection signals. In step S6, when the control unit 22 receives a detection signal sent from the position detection sensor 18a, the process proceeds to step S7.

  As step S7, the control unit 22 corresponds to the detection signal from the position detection sensors 18a, 18b, 18c, that is, the reference position Y1, Y2, Y3, corresponding to the size of the set tray or the position of the image to be recorded with respect to the set tray. A reference position for setting the pre-start movement distance L is determined. The control unit 22 calculates the pre-start movement distance L of the set tray 12 based on the determined reference position Y1. Thereafter, the control unit 22 moves the set tray 12 in the Y direction, and when the movement distance reaches the pre-start movement distance L, the control unit 22 moves the recording unit 16 in the X direction to perform background recording on the recording medium, that is, white ink. Start recording at. Then, recording on the recording medium is executed as shown in FIG.

  At this time, the control unit 22 moves the set tray 12 and the stage 30 only in the Y direction from the start of recording to the end of recording. That is, the set tray 12 and the stage 30 are controlled by the control unit 22 so as to move only in one direction in which the set tray 12 and the stage 30 were moved when detected by the position detection sensors 18a, 18b, and 18c. Thereby, since the moving mechanism 14 is not driven reversely during execution of recording, it is possible to reduce the possibility that the recording quality is deteriorated due to the backlash of the moving mechanism 14 or the vibration accompanying the reverse driving.

  In step S8, the control unit 22 determines whether or not the background recording is completed. As shown in FIG. 4A, when the set tray 12 is at the recording end position Ye and the background recording is completed, the process proceeds to step S9, and the set tray 12 is returned to the standby position Yh on the -Y direction side again. In step S10, the set tray 12 is moved again toward the recording unit 16.

  As step S11, the reference positions Y1, Y2, Y3 are detected again by the position detection sensors 18a, 18b, 18c. The control unit 22 selects any of the re-detected reference positions Y1, Y2, and Y3 as a reference position for setting the pre-start movement distance L. The controller 22 calculates the moving distance L before the start of the set tray 12 based on the selected reference position Y1. Thereafter, in step S12, the control unit 22 moves the set tray 12 in the Y direction, and moves the recording unit 16 and the recording unit 16 in the X direction when the movement distance reaches the pre-start movement distance L to the recording medium. Recording, that is, recording with color ink is started.

  In step S13, the control unit 22 determines whether or not the superposition recording has been completed. When the superposition recording is completed, the process proceeds to step S14, the set tray 12 is moved to the set position on the Y direction side as shown in FIG. 4B, and the set tray 12 is at the set position Yset as step S15. It is determined whether or not.

  When it is determined that the set tray 12 is in the set position, the control unit 22 displays on the display unit 24 that the recording operation has been completed, and ends the series of recording steps. Although not shown, the position detection sensor also detects when the set tray 12 has moved to the recording end position Ye and when it has moved to the set position Yset.

<<< Modification of Example 1 >>>
In this embodiment, the set tray 12 is returned to the standby position Yh after the background recording, and the reference positions Y1, Y2, and Y3 are detected again. A configuration may be adopted in which the recording is returned to any one position of Y3 and the superposition recording is executed based on the pre-start moving distance L corresponding to the returned reference position.

[Second Embodiment]
With reference to FIGS. 6A, 6B and 7, the flow of the recording process in the second embodiment will be described. The second embodiment is different from the first embodiment in that an image recording area in overlay recording, that is, image recording, is biased to a side far from the recording head (−Y direction side).

  In step S1, image data to be recorded on the recording medium is input to the control unit 22. In step S2, position detection sensors 18a and 18b are set to detect the reference positions Y1 and Y2 in the base recording and the overlay recording. Then, similarly to the first embodiment, steps 3 (corresponding to step S2 of the first embodiment) to S6 (corresponding to step S5 of the first embodiment) are executed.

  In step S7, the position detection sensor 18a detects the reference position Y1 in the base recording. In step S8, as shown in FIG. 6A, the control unit 22 calculates the pre-start movement distance L1 based on the reference position Y1, moves the set tray 12 in the Y direction, and the movement distance is the pre-start movement distance L1. Start recording when you reach.

  In step S9, the control unit 22 determines whether or not the background recording is finished. When the base recording is completed, the process proceeds to step S10, and the set tray 12 is returned to the standby position Yh on the -Y direction side again. And as S11, control part 22 switches the position detection sensor used for position detection of set tray 12 from position detection sensor 18a to position detection sensor 18b. Thereafter, in step S12, the set tray 12 is moved again toward the recording unit 16.

  In step S13, the position detection sensor 18b detects the reference position Y2 in overlay recording. As step S14, the control unit 22 calculates the pre-start movement distance L2 based on the reference position Y2. Thereafter, the set tray 12 is moved in the Y direction, and recording is started when the movement distance reaches the pre-start movement distance L2.

  Then, steps S15 (corresponding to step S13 in the first embodiment) to step S17 (corresponding to step S17 in the first embodiment) are executed. In this embodiment, by setting the reference position in the base recording and the superposition recording, the pre-start movement distance in the superposition recording calculated by adopting the reference position in the base recording as the start distance in the superposition recording. Can be shorter.

<<< Modification of Example 2 >>>
In the above description, the reference positions are two, Y1 and Y2. However, the reference position can be increased by increasing the number of position detection sensors in accordance with the number of overlapping recordings.

[Third embodiment]
With reference to FIGS. 8A, 8B, and 9, the flow of the recording process in the third embodiment will be described. The third embodiment is different from the first embodiment in that the position detection sensor used for position detection is switched when the size of the set tray 12 is different.

  As shown in FIG. 8A, when the size of the set tray 12 in the Y-axis direction is small, the pre-start movement distance L3 calculated based on the reference position Y1 detected by the position detection sensor 18a becomes long. Therefore, the movement error is easily integrated with the movement of the set tray 12, and there is a possibility that a deviation occurs between the set pre-start movement distance L3 and the actual movement distance. For this reason, as shown in FIG. 8B, it is desirable that the movement distance is short like a pre-start movement distance L4 calculated based on the reference position Y2 detected by the position detection sensor 18b.

  In this embodiment, the position detection sensor 18 that detects the reference position with respect to the recording unit 16 is switched according to the size of the set tray 12 in the Y-axis direction, and the set position detection sensor (position detection in FIG. 8B) is performed. The pre-start movement distance L4 is calculated using the reference position (Y2 in FIG. 8B) detected by the sensor 18b). Thereafter, the set tray 12 is moved in the Y direction, and when the movement distance reaches the pre-start movement distance L4, recording on the recording medium is executed.

  The flow of the recording process in this embodiment is as follows. First, image data is input to the recording apparatus as step S1, and then the size of the set tray 12 used for recording is set as step S2. The set tray size setting method is, for example, a method in which a corresponding size is selected from a plurality of set tray sizes displayed on the display unit 24 and the operation unit 26 is operated and input.

  Next, in step S3, the control unit 22 determines the position detection sensor at the optimum position from among the position detection sensors 18a, 18b, and 18c according to the size of the selected set tray 12 (position detection in FIG. 8B). The sensor 18b) is set and used as a position detection sensor used for detecting the position of the set tray 12. Since step S4 and subsequent steps are the same as those in the first embodiment, description thereof is omitted.

[Fourth embodiment]
With reference to FIGS. 10A, 10B, and 11, the flow of the recording process in the fourth embodiment will be described. The fourth embodiment is different from the first embodiment in that a plurality of recording heads are provided at intervals in the Y-axis direction in the recording unit 16.

  Referring to FIG. 10A, the recording unit 16 includes a first recording head 40 and a second recording head 42 spaced from the first recording head 40 in the Y direction side. Yes. The first recording head 40 and the second recording head 42 are independently driven in the X-axis direction.

  In FIG. 10A, the position detection sensor that detects the reference position Y1 corresponding to the first recording head 40 is the position detection sensor 18a. On the other hand, in FIG. 10B, the position detection sensor that detects the reference position Y2 corresponding to the second recording head 42 is the position detection sensor 18b.

  The flow of the recording process in this embodiment corresponds to the position detection sensor 18 corresponding to the first recording head 40 and the second recording head 42 as step S2 first after inputting image data to the recording apparatus as step S1. The position detection sensor 18 is set.

  In the processes from step S3 to step S9, the controller 22 uses the position detection sensor 18a to detect the reference position Y1, and based on the reference position Y1, the pre-start movement distance L5 (see FIG. 10A). Set. Thereafter, the set tray 12 is moved in the Y direction, and when the movement distance reaches the pre-start movement distance L5, the first recording head 40 performs recording on the recording medium.

  Next, in step S10, the set tray 12 is returned to the standby position on the -Y direction side. In the processes from step S11 to step S17, the control unit 22 switches the position detection sensor to be used from the position detection sensor 18a to the position detection sensor 18b, and detects the reference position Y2 using the position detection sensor 18b. A pre-start movement distance L6 (see FIG. 10B) is set based on the position Y2. Thereafter, the set tray 12 is moved in the Y direction, and when the movement distance reaches the pre-start movement distance L6, recording on the recording medium is executed by the second recording head.

[Fifth embodiment]
With reference to FIGS. 12A, 12B and 13, the flow of the recording process in the fifth embodiment will be described. The fifth embodiment is different from the first embodiment in that the recording unit 16 moves in the Y-axis direction instead of the set tray 12.

  Referring to FIG. 12A, the set tray 44 is fixed to the printer 10. The recording head 46 of the recording unit 16 is configured to be movable in the X-axis direction and the Y-shape direction. The floating check sensor 48 is also configured to be movable in the Y-axis direction.

  The flow of the recording process in this embodiment is as follows. First, image data is input to the recording apparatus as step S1, and then a recording medium is set on the set tray 44 as step S2. In step S3, the floating check sensor 48 is moved above the set tray 44 to determine whether or not the recording medium is floating. If the recording medium does not float, the process proceeds to step S4.

  Next, in step S4, the recording head 46 is moved to the Y direction side, and in step S5, the reference position Y1 corresponding to the recording head 46 with respect to the set tray 44 is detected by the position detection sensor 18a. The control unit 22 calculates the pre-start movement distance L7 based on the detected reference position Y1. In step S6, the recording head 46 is moved in the Y direction. When the movement distance reaches the pre-start movement distance L7, the recording head 46 performs recording on the recording medium.

  Thereafter, it is determined in step S7 whether or not the background recording is completed. If the background recording is completed, the recording head 46 is returned to the standby position in step S8. Next, in step S9, the recording head 46 is moved again in the Y direction, and in step S10, the reference position Y1 of the recording head 46 is detected again. In step S11, the recording head 46 is moved again in the Y direction based on the re-detected reference position Y1, and when the movement distance reaches the pre-start movement distance L7, overlay recording is executed.

  Next, in step S12, it is determined whether or not the overlay recording is finished. If the overlay recording is finished, the recording head 46 is returned to the standby position in step S13. The control unit 22 displays on the display unit 24 that the recording operation has ended, and ends the series of recording steps.

<<< Modification of Example 5 >>>
As shown in FIG. 12B, when the size of the set tray 44 in the Y-axis direction is different, the position detection sensor 18 that detects the reference position of the recording head 46 with respect to the set tray 44 may be switched. In the example of FIG. 12B, the reference position Y2 is detected by the position detection sensor 18b instead of the position detection sensor 18a used for the detection of the reference position Y1 in FIG. The control unit 22 calculates the pre-start movement distance L8 based on the detected reference position Y2. Thereafter, the recording head 46 is moved in the Y direction, and when the moving distance reaches the pre-start moving distance L8, the recording head 46 performs recording on the recording medium.

  To summarize the above description, the printer 10 of the present embodiment is a printer that can perform overlay recording by recording a plurality of times on a recording medium, and includes set trays 12 and 44 on which the recording medium is placed, and the set A recording unit 16 that records on the recording medium placed on the tray, and a moving mechanism 14 (28, 30) that can move the set trays 12 and 44 relative to the recording unit in the Y direction for recording. A plurality of position detection sensors 18a that detect the position of the set trays 12, 44 relative to the recording unit 16 or the position of the recording unit 16 relative to the set tray and that are provided at intervals along the Y direction. 18b, 18c.

  Further, the printer 10 includes a control unit 22 that controls the moving mechanism 14 and the recording unit 16, and performs recording corresponding to each of the positions detected by the plurality of sensors 18 a, 18 b, and 18 c. Reference positions Y1, Y2, Y3 of the position in the Y direction of the set tray 12, 44 or the recording unit 16 are respectively determined, and the control unit 22 determines the reference positions Y1, Y2, Y3 determined corresponding to the position detection sensor 18 to be used. Based on the above, the moving position of the set tray 12, 44 or the recording unit 16 in the Y direction is controlled to perform recording.

  Further, the control unit 22 can switch the position detection sensor 18 to be used in accordance with the size of the set trays 12 and 44 in the Y direction, and corresponds to the position in the Y direction of the recorded image for each overlay recording. The sensor to be used can be switched.

  In the printer 10, the recording unit 16 is provided with a first recording head 40 that is movable in the X direction intersecting the Y direction, and is provided so as to be movable in the X direction and is Y with respect to the first recording head 40. And the second recording head 42 spaced in the direction, and the control unit 22 is configured to record the position of the set trays 12 and 44 or the first recording head when the first recording head 40 records on the recording medium. When the position detection sensor 18a for detecting the position of 40 is recorded on the recording medium by the second recording head 42, the position detection sensor for detecting the position of the set trays 12, 44 or the position of the second recording head 40 is used. Switch to 18b or 18c.

  The control unit 22 detects the position of the set trays 12 and 44 or the position of the recording unit 16 by any one of the plurality of position detection sensors 18a, 18b, and 18c, and then applies the recording unit 16 to the recording medium. Until the recording operation is completed, the set tray 12, 44 or the recording unit 16 is moved only in one direction in which the set tray 12, 44 or the recording unit 16 was moved at the time of detection.

  The method for manufacturing a recorded material according to the present embodiment is a method for manufacturing a recorded material in which recording is performed on the recording medium by performing multiple recordings on the recording medium, and the set tray on which the recording medium is placed 12 and 44 are moved relative to the recording unit 16 for recording on the recording medium along the Y direction, and a plurality of sensors 18a, 18b and 18c arranged at intervals along the Y direction The position of the set tray 12, 44 or the recording unit 16 that moves along the direction is detected, and the position reference in the Y direction of the set tray 12, 44 or the recording unit 16 at the time of recording corresponding to the detected position A step of determining the positions Y1, Y2, and Y3, and a process for executing recording by controlling the movement positions of the set trays 12 and 44 or the recording unit 16 in the Y direction based on the reference positions Y1, Y2, and Y3. And it has a door.

  Furthermore, in the method of manufacturing a recorded matter according to the present embodiment, after the position of the set trays 12 and 44 or the position of the recording unit 16 is detected by any one of the plurality of position detection sensors 18a, 18b, and 18c, the recording is performed. Until the recording operation to the recording medium by the unit 16 is completed, the set tray 12, 44 or the recording unit 16 is moved only in one direction in which the set tray 12, 44 or the recording unit 16 was moved at the time of the detection.

In this embodiment, the printer 10 according to the present invention is applied to an ink jet printer as an example of a recording apparatus. However, the present invention can be applied to other liquid ejecting apparatuses in general.
Here, the liquid ejecting apparatus uses an ink jet recording head, and is not limited to a recording apparatus such as a printer, a copier, and a facsimile machine that discharges ink from the recording head to perform recording on a recording medium. And a device for ejecting a liquid corresponding to the application from a liquid ejecting head corresponding to the ink jet recording head to an ejected medium corresponding to the recording medium, and attaching the liquid to the ejected medium.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the invention described in the claims, and these are also included in the scope of the present invention. Needless to say.

10 printer, 12, 44 set tray, 14 moving mechanism, 16 recording unit, 18, 18a, 18b, 18c position detection sensor, 20, 48 floating check sensor, 22 control unit, 24 display unit, 26 operation unit, 28 rail, 30 stages, 32 flag sections, 34, 46 recording head, 36 light projecting section, 38 light receiving section, 40 first recording head, 42 second recording head, L, L1, L2, L3, L4, L5, L6 L7, L8 Movement distance before start, Y1, Y2, Y3 reference position, Ye recording end position, Yh standby position, Yset set position

Claims (8)

A recording apparatus that performs overlay recording by recording a plurality of times on a recording medium,
A set tray for placing the recording medium;
A recording unit for recording on the recording medium placed on the set tray;
A moving mechanism capable of moving the set tray relative to the recording unit in a first direction for recording;
A plurality of sensors provided at intervals along the first direction and detecting a position of the set tray with respect to the recording unit or a position of the recording unit with respect to the set tray;
A recording apparatus. The recording apparatus according to claim 1,
A control unit for controlling the moving mechanism and the recording unit;
A reference position of a position in the first direction of the set tray or the recording unit at the time of recording is determined corresponding to each of the positions detected by the plurality of sensors,
The control unit performs recording by controlling a moving position of the set tray or the recording unit in the first direction based on the reference position determined corresponding to a sensor to be used.
A recording apparatus. The recording apparatus according to claim 2,
The recording apparatus, wherein the control unit switches a sensor to be used in accordance with a size of the set tray in the first direction. The recording apparatus according to claim 2 or 3,
The control unit switches a sensor to be used in accordance with a position in the first direction of a recording image of each overlap recording. The recording apparatus according to any one of claims 2 to 4,
The recording unit is provided in a first recording head that is movable in a second direction intersecting the first direction, and is provided in the first recording head so as to be movable in the second direction. A second recording head spaced apart in the first direction,
The controller is configured to detect the position of the set tray or the position of the first recording head when the first recording head records on the recording medium, and the second recording head to detect the target. Switching between a sensor for detecting the position of the set tray or the position of the second recording head when recording on a recording medium;
A recording apparatus. The recording apparatus according to any one of claims 2 to 5,
The control unit detects the position of the set tray or the position of the recording unit by any one of the plurality of sensors and then completes the recording operation on the recording medium by the recording unit. The tray or the recording unit is moved only in one direction in which the set tray or the recording unit was moved at the time of the detection.
A recording apparatus. A method of manufacturing a recorded matter in which recording is performed on a recording medium by performing multiple recordings on the recording medium,
Relatively moving a set tray on which the recording medium is placed to a recording unit for recording on the recording medium along a first direction;
The position of the set tray or the recording unit that moves along the first direction is detected by a plurality of sensors arranged at intervals along the first direction, and the position corresponding to the detected position is detected. Determining a reference position of the position in the first direction of the set tray or the recording unit at the time of recording execution;
A step of performing recording by controlling a moving position of the set tray or the recording unit in the first direction based on the reference position;
A method for producing a recorded matter comprising: In the manufacturing method of the recorded matter according to claim 7,
After the position of the set tray or the position of the recording unit is detected by any one of the plurality of sensors, until the recording operation to the recording medium by the recording unit is completed, the set tray or the recording unit Is moved only in one direction in which the set tray or the recording unit was moved at the time of the detection,
A method for producing recorded matter.

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