JP2011121271A - Recording method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recording method that prevents wasteful consumption of a recording medium. <P>SOLUTION: In the recording device of a conveyance path in which a recording sheet is conveyed, the recording method for performing recording processing on the recording sheet includes: a step S1 of selecting kinds of the recording sheet to which the recording processing is preliminarily subjected; steps of S6-S8 that detects whether kinds of the recording sheet P selected or kinds of a recording sheet that is conveyed on the conveyance path and positioned on a recording position are equal; and a step S11 of reports an alert whether recording processing is subjected to the recording sheet P positioned the recording position when a detected result is different. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a recording method.

2. Description of the Related Art Inkjet printers that perform recording processing by intermittently ejecting ink are known as recording apparatuses that perform recording methods for recording characters, images, and the like on various recording media such as paper, cloth, and film.
In this ink jet printer, a recording medium contained in a cassette or the like is sent out to a transport path by a pickup roller or the like, and the recording process is performed by ejecting ink while scanning the ink jet head at a predetermined position of the transport path. ing.
Patent Document 1 below discloses an ink jet printer that includes a sensor capable of detecting an end portion of a recording medium in the scanning direction of an ink jet head, and determines a position to start a recording process based on a detection result of the sensor. .

International Publication No. 2004/018218 Pamphlet

By the way, in recent years, the types (materials, sizes, thicknesses, etc.) of recording media on which recording processing can be performed have been diversified. For this reason, the recording apparatus accommodates a plurality of types of recording media, and the user selects a desired type of recording medium, so that the selected recording medium is sent out to the conveyance path and the recording process is performed. ing.
However, if a configuration in which a plurality of types of recording media are accommodated is employed, the selected recording medium and the type of the recording medium actually sent out may be different. This occurs, for example, when the user performs a process of switching the cassette and replenishing and sending out the remainder when the number of recording media contained in the apparatus is insufficient with respect to the selected number of recording media. easy.
Conventionally, even if a recording medium of a different type (for example, paper size) from the selected recording medium is sent out, the conventional sensor simply determines the position to start the recording process, so the recording process is continued as it is. Therefore, there is a problem that a size unintended by the user is output, and the recording medium and the ink are wasted.

  The present invention has been made in view of the above problems, and an object thereof is to provide a recording method capable of suppressing wasteful consumption of a recording medium.

In order to solve the above-described problems, the present invention provides a recording method for performing a recording process on the recording medium at a predetermined position on a conveyance path along which the recording medium is conveyed, and a type of the recording medium that performs the recording process. A selection step for pre-selecting, a detection step for detecting the difference between the type of the selected recording medium and the type of the recording medium that is transported on the transport path and located at the predetermined position, and a detection result in the detection step And a notification step of notifying whether or not the recording process is to be performed on the recording medium located at the predetermined position.
By adopting such a method, in the present invention, if the type of the recording medium actually sent out at a predetermined position where the recording process is performed is different from that selected, an alert is notified and the recording process is continued as it is. Alternatively, by giving the user the right to select whether to stop the recording process and output a blank sheet, it is possible to prevent the recording process from being continued for a type of recording medium that is not intended by the user.

In the present invention, there is provided a sending step of selecting any one of a plurality of cassettes containing a plurality of the recording media and sequentially sending the recording media from the selected cassettes to the transport path, In the detection step, a method of performing the detection on at least the earliest recording medium sent out from the selected cassette is employed.
By adopting such a method, in the present invention, for example, when the recording medium runs out and the cassette is switched, at least the first recording medium sent out from the cassette is representatively detected for the type. Therefore, the number of times of detection is limited to the necessary limit to shorten the recording processing time.

In the present invention, the detection step employs a method of performing the detection based on the width of the recording medium.
By adopting such a method, in the present invention, the continuation of the recording process to the recording medium of a different size is prevented.

Moreover, in this invention, the alerting | reporting process employ | adopts the method of displaying the said alert on a predetermined | prescribed display part and performing the said alerting | reporting.
By adopting such a method, in the present invention, for example, an alert “Whether the paper size is different but will you continue printing?” Is output to the display unit to alert the user.

In the present invention, the notification step employs a method of waiting the recording medium at the predetermined position until there is a response to the notification.
By adopting such a method, the present invention reliably prevents the continuation of the recording process for the type of recording medium not intended by the user.

1 is a block diagram illustrating a schematic configuration of an ink jet printer according to an embodiment of the present invention. It is a principal part block diagram of the inkjet printer in embodiment of this invention. FIG. 2 is a partial cross-sectional view illustrating an internal configuration of a recording head according to an embodiment of the invention. It is a figure explaining the structure of the paper width detection sensor and carriage in embodiment of this invention. It is a figure explaining the detection structure of the linear encoder in embodiment of this invention. It is a figure explaining the detection structure of the paper width detection sensor in embodiment of this invention. It is a figure explaining the detection operation | movement of the paper width detection sensor in embodiment of this invention. It is a flowchart explaining the recording method in embodiment of this invention.

  Hereinafter, an embodiment of a recording method according to the present invention will be described with reference to the drawings. In each drawing used for the following description, the scale of each member is appropriately changed to make each member a recognizable size. In the present embodiment, an ink jet printer (hereinafter referred to as an ink jet printer) is exemplified as a recording apparatus that performs the recording method according to the present invention.

FIG. 1 is a block diagram illustrating a schematic configuration of an inkjet printer 1 according to an embodiment of the present invention. FIG. 2 is a main part configuration diagram of the ink jet printer 1 according to the embodiment of the present invention. FIG. 3 is a partial cross-sectional view showing the internal configuration of the recording head 5 in the embodiment of the present invention.
In addition, as shown in FIG. 2, an XYZ orthogonal coordinate system may be set and the positional relationship of each component may be described with reference to the XYZ orthogonal coordinate system.

 The ink jet printer 1 performs recording processing (printing processing) for printing predetermined information and images on the recording paper P by ejecting ink (fluid) onto the recording paper P. As shown in FIG. 1, the ink jet printer 1 includes an input device 2, a storage device 3, a control device 4, a recording head 5, a recording paper transport device 6, a recording paper delivery device 7, and a paper edge detection sensor. 8, a paper width detection sensor 9, and an alert notification device 10.

The input device 2 inputs various commands and data related to recording processing from the outside to the control device 4, and ejects ink onto the recording paper P from an operation panel operated by the user or the recording head 5 to obtain a predetermined image. It includes a communication device for inputting image data (pattern data) or the like for forming (pattern) from the outside. The user can select the type of recording paper P (for example, JIS standard A4 size, B4 size, etc.) and the number of printed sheets by operating the operation panel.
The storage device 3 stores operation programs for various components related to recording processing, data input from the input device 2, and the like, and includes a RAM, an EEPROM, and the like.
The control device 4 electrically controls the operation of various components, and includes an input device 2, a storage device 3, a recording head 5, a recording paper transport device 6, a recording paper delivery device 7, a paper edge detection sensor 8, It has various input / output interface circuits that exchange data with the paper width detection sensor 9 and the alert notification device 10, and a CPU, an ASIC, and the like that perform predetermined arithmetic processing based on the data.

  As shown in FIG. 2, the recording head 5 is disposed at a predetermined position (hereinafter referred to as a recording position) on a conveyance path 60 where the recording paper P is conveyed by the recording paper conveyance device 6. The recording head 5 has a nozzle forming surface 21A for ejecting ink, and the nozzle forming surface 21A is arranged to face downward (−Z side). For example, the recording head 5 is configured to be able to eject ink corresponding to each color of yellow (Y), magenta (M), cyan (C), and black (K). The recording head 5 is mounted on the carriage 50 and can reciprocate (scan) in the width direction (Y-axis direction) of the transport path 60.

  As shown in FIG. 3, the recording head 5 includes a head main body 18 and a flow path forming unit 22 connected to the head main body 18. The flow path forming unit 22 includes a vibration plate 19, a flow path substrate 20, and a nozzle substrate 21, and forms a common ink chamber 29, an ink supply port 30, and a pressure chamber 31. Further, the flow path forming unit 22 includes an island portion 32 that functions as a diaphragm portion, and a compliance portion 33 that absorbs pressure fluctuation in the common ink chamber 29. The head main body 18 is formed with an accommodation space 23 for accommodating the drive unit 24 together with the fixing member 26, and an internal flow path 28 for guiding ink to the flow path forming unit 22.

  According to the recording head 5 configured as described above, when a drive signal is input to the drive unit 24 via the cable 27, the piezoelectric element 25 expands and contracts. As a result, the diaphragm 19 is deformed (moved) in a direction toward and away from the cavity. For this reason, the volume of the pressure chamber 31 changes and the pressure of the pressure chamber 31 containing ink fluctuates. Ink is ejected from the nozzles 17 due to this pressure fluctuation.

  As shown in FIG. 2, the recording paper transport device 6 has a plurality of transport rollers 61 that transport the recording paper P sent to the transport path 60 by the recording paper delivery device 7 along the transport path 60. The transport roller 61 is configured to nip and transport the recording paper P by rotating around a rotation axis extending in the Y-axis direction. A rotary encoder (not shown) is provided on the rotation shaft of the transport roller 61 so that the transport position, transport speed, and transport amount of the recording paper P can be controlled.

  The recording paper delivery device 7 has two cassettes 71A and 71B that accommodate the stacked recording paper P. The cassette 71 </ b> A has a pickup roller 72 </ b> A that abuts on the uppermost recording paper P accommodated in the cassette 71 and sends the recording paper P to the transport path 60 by rotating around a rotation axis extending in the Y-axis direction. The cassette 71 </ b> B has a pickup roller 72 </ b> B that abuts on the uppermost recording sheet P accommodated therein and that feeds the recording sheet P to the transport path 60 by rotating around a rotation axis extending in the Y-axis direction.

  The paper end detection sensor 8 is provided on the transport path 60 in front of the recording position where the recording head 5 is provided. The paper edge detection sensor 8 is a sensor that detects the positions of the leading edge and the trailing edge of the recording paper P. In this embodiment, a mechanical sensor that detects the edge of the recording paper P by a mechanical mechanism is used. More specifically, the sheet end detection sensor 8 includes a lever that protrudes on the conveyance path 60 and can rotate about an axis extending in the Y-axis direction, and rotates when the lever contacts the recording sheet P. By detecting this, the edge of the recording paper P is detected.

Next, the configuration of the paper width detection sensor 9 will be described with reference to FIGS.
FIG. 4 is a diagram illustrating the configuration of the paper width detection sensor 9 and the carriage 50 in the embodiment of the present invention. FIG. 5 is a diagram illustrating a detection configuration of the linear encoder 51 in the embodiment of the present invention. FIG. 6 is a diagram illustrating a detection configuration of the paper width detection sensor 9 according to the embodiment of the present invention. FIG. 7 is a diagram illustrating a detection operation of the paper width detection sensor 9 in the embodiment of the present invention.

  As shown in FIG. 4, the paper width detection sensor 9 is mounted on the carriage 50. The carriage 50 is configured to reciprocate along a guide rail 52 that extends in the Y-axis direction. The drive mechanism of the carriage 50 includes a carriage motor as a drive source, a carriage motor driver for driving the carriage motor, a pulley attached to the rotation shaft of the carriage motor, a timing belt driven by the pulley (both not shown), and the like. .

The linear encoder 51 detects the position of the carriage 50 in the Y-axis direction, and includes a linear scale 511 and a detection unit 512.
The linear scale 511 is provided with slits at predetermined intervals (for example, 1/180 inch (1 inch = 2.54 cm)), and is fixed to the printer main body side along the guide rail 52. The detection unit 512 is provided at a position where the slit of the linear scale 511 can be detected, and is fixed to the carriage 50 side.

  As shown in FIG. 5, the detection unit 512 includes a light emitting diode 512A, a collimator lens 512B, and a detection processing unit 512C. The detection processing unit 512C includes four photodiodes 512D and a signal processing circuit. 512E and two comparators 512Fa and 512Fb. The light emitting diode 512A emits light when a voltage Vcc is applied through resistances at both ends, and this light enters the collimator lens 512B. The collimator lens 512B converts the incident light into parallel light and irradiates the linear scale 511 with it. The light that has passed through the slit of the linear scale 511 passes through a fixed slit (not shown) and enters each photodiode 512D. The photodiode 512D photoelectrically converts incident light and outputs an electrical signal. The output electric signals are compared in the comparators 512Fa and 512Fb, and the comparison results are output as pulses ENC-A and ENC-B. The position of the carriage 50 in the Y-axis direction is obtained by multiplying the rising edge or falling edge count of the pulse ENC-A or pulse ENC-B by the slit interval.

  As shown in FIG. 6, the paper width detection sensor 9 is a gap sensor that detects a distance (paper gap) PG to the recording paper P and detects the presence or absence of the recording paper P at the recording position based on the distance PG. . The paper width detection sensor 9 detects the both ends of the recording paper P by detecting the presence or absence of the recording paper P along the Y-axis direction, and detects the width (type) of the recording paper P. ing.

  The paper width detection sensor 9 includes a light emitting unit 541, a first light receiving unit 543A, and a second light receiving unit 543B. The light emitting unit 541 includes a light emitting diode, and irradiates the recording position with light. The first light receiving portion 543A and the second light receiving portion 543B are arranged at different positions in the Y-axis direction, receive light reflected by the recording paper P or the platen 14 supporting the recording paper P at the recording position, and perform photoelectric conversion Thus, an electric signal is output. When the recording paper P is on the platen 14, the distance PG is reduced, and the light emitted from the light emitting unit 541 is mainly incident on the first light receiving unit 543A. On the other hand, when there is no recording paper P on the platen 14, the distance PG increases, and the light emitted from the light emitting unit 541 mainly enters the second light receiving unit 543B. The paper width detection sensor 9 is configured to detect the presence or absence of the recording paper P at the recording position by obtaining in advance the relationship between the output signals of the two light receiving portions and the distance PG.

  As shown in FIG. 7, the paper width detection sensor 9 is mounted on the carriage 50. Therefore, the paper width detection sensor 9 can detect the distance PG at a plurality of locations along the Y-axis direction. On the other hand, the position of the carriage 50 in the Y-axis direction can be detected by the linear encoder 51. Therefore, the end of the recording paper P can be detected by detecting the position of the carriage 50 when the distance PG detected by the paper width detection sensor 9 is switched. If the both ends of the recording sheet P are detected, the width (type) of the recording sheet P can be detected.

  Returning to FIG. 1, the alert notification device 10 includes a display unit such as a liquid crystal display or an organic EL display. For example, the display unit is provided on an operation panel provided in the input device 2. The alert notification device 10 is configured to be able to alert the user visually using this display unit. Note that the alert notification device 10 may be configured to alert the user by hearing using a speaker.

Next, a characteristic recording operation (recording method) of the present invention in the inkjet printer 1 having the above-described configuration will be described with reference to FIG.
FIG. 8 is a flowchart for explaining a recording method according to the embodiment of the present invention.

First, the user operates the operation panel of the input device 2 to select the type of recording paper P and the number of prints for printing predetermined image data (step S1: selection step).
In the following description, a case where, in step S1, JIS standard A4 size is selected as the type of recording paper P and the number of printed sheets is selected as 10 will be described as an example.

When the type of the recording paper P and the number of prints are selected in step S1, the control device 4 stores the data in the storage device 3. Then, the control device 4 selects a cassette (for example, the cassette 71A) containing the selected A4 size recording paper P (step S2).
Next, the control device 4 sends a control signal to the recording paper delivery device 7, rotates the pickup roller 72A provided in the cassette 71A, and sends the recording paper P from the cassette 71A to the transport path 60 (sending process). . At the same time, the control device 4 sends a control signal to the recording paper transport device 6 to rotate the transport roller 61 and transport the recording paper P delivered from the cassette 71A along the transport path 60 (step S3).

In step S <b> 4, it is determined whether or not the sheet edge detection sensor 8 has detected the recording sheet P conveyed along the conveyance path 60.
If the paper edge detection sensor 8 detects the leading edge of the recording paper P, the process proceeds to the next step S5. On the other hand, if the paper end detection sensor 8 does not detect the recording paper P even if the pickup roller 72A and the transport roller 61 are rotated for a predetermined time, the control device 4 indicates that the recording paper P is empty in the cassette 71A. The process returns to step S2, and another cassette (for example, cassette 71B) containing the recording paper P is selected, and processing for sending and transporting the recording paper P from the cassette 71B (step S3) is performed.

In step S5, it is determined whether or not the recording sheet P detected by the sheet end detection sensor 8 is the first sheet after selecting the cassette.
If the recording sheet P detected by the sheet end detection sensor 8 is the first sheet after selecting the cassette, the process proceeds to step S6. On the other hand, if the recording sheet P detected by the sheet end detection sensor 8 is not the first sheet after the cassette is selected, the process proceeds to step S9, and the control device 4 causes the recording head 5 to perform a recording process based on the image data.
In step S5, for example, when the recording paper P runs out and the cassette is switched, the detection of the number of times of detection is limited by performing the detection in steps S6 to S8 on the earliest recording paper P sent out from the cassette. To reduce the recording processing time. This process is particularly advantageous in the present embodiment on the assumption that the same type of recording paper P is contained in one cassette.

In steps S6 to S8, the difference between the type of the selected recording paper P and the type of the recording paper P actually transported through the transport path 60 and positioned at the recording position is detected (detection step).
First, in step S6, the paper width of the recording paper P located at the recording position is detected. Specifically, the control device 4 conveys the recording paper P to a recording position where the recording head 5 is disposed, and moves the carriage 50 in the Y-axis direction at the recording position and uses the paper width detection sensor 9. The paper width of the recording paper P is detected.

  Next, in step S7, it is determined whether or not the detected paper width is smaller than the paper width of -4 mm selected in step S1. If the detected paper width is larger than that of the selected paper width of −4 mm, the process proceeds to step S8, and this time, whether or not the detected paper width is larger than that of the paper width selected in step S1 + 4 mm. Determine whether. Here, if the detected paper width is smaller than the selected paper width + 4 mm, the type of the recording paper P actually located at the recording position is the same as that of the A4 size. In step S9, the control device 4 causes the recording head 5 to perform recording processing based on the image data on the recording paper P located at the recording position.

Specifically, in this process, in step S7, the width is smaller than the selected A4 size, for example, B5 size is played, and in step S8, the width is larger than the selected A4 size, for example, B4 size. Only A4 size will be played, and it will transfer to step S9.
Note that the threshold value of the selected paper width ± 4 mm defined in step S7 and step S8 takes into account the deviation in the width direction of the conveyance path 60 of the recording paper P due to an unavoidable guide error, and depends on the specifications of the apparatus. Its value can vary.

  On the other hand, if it is determined in step S7 that the detected paper width is smaller than that of the selected paper width of −4 mm, or in step S8, the detected paper width is greater than that of the selected paper width +4 mm. If it is determined that the recording sheet P is larger, it is determined that the type of the recording sheet P actually located at the recording position is different from the selected recording sheet P, and the process proceeds to step S11.

In step S11, an alert as to whether or not the recording process is to be performed is notified to the recording paper P located at the recording position (notification process).
Specifically, the control device 4 sends a control signal to the alert notification device 10 to display “Whether the paper size is different but will you continue printing?” On the display unit to alert the user. At the same time, the control device 4 performs a process of stopping the rotational driving of the pickup roller 72A and the transport roller 61 and waiting the recording paper P at the recording position until a response is received from the user. This process reliably prevents the continuation of the recording process for the type of recording paper P that is not intended by the user. In step S11, sound notification may be performed together with display on the display unit.

In step S11, when the user operates the operation panel of the input device 2 and selects to cancel the recording process, the process proceeds to step S12, and the control device 4 cancels the job requested in step S1. Then, the control device 4 rotationally drives the transport roller 61 to discharge the recording paper P located at the recording position to the outside of the apparatus (Step S13).
On the other hand, when the user operates the operation panel of the input device 2 and selects the continuation of the recording process in step S11, the process proceeds to step S9, and the control device 4 determines the recording head 5 based on the image data. The recording process is performed on the recording paper P having a different size located at the recording position.

In step S10, the number of printed sheets subjected to the recording process is counted, and it is determined whether or not the counted number has reached the number of printed sheets selected in step S1.
If the count number is less than the selected number of prints (for example, 10) in step S10, the process returns to step S3, and the recording paper P is continuously sent out and conveyed.
On the other hand, if the count in step S10 is the same as the number of prints, the job requested in step S1 is completed, and the recording operation is terminated.

Therefore, according to the above-described embodiment, a recording method for performing recording processing on the recording paper P at the recording position of the conveyance path 60 along which the recording paper P is transported, and the type of the recording paper P to be recorded. Steps S1 to S8, steps S6 to S8 for detecting the difference between the type of the selected recording paper P and the type of the recording paper P conveyed through the conveyance path 60 and positioned at the recording position, and the detection result In a case where the recording process is different, step S11 for notifying whether or not the recording process is to be performed on the recording paper P positioned at the recording position is employed, and the actual recording is performed at the recording position where the recording process is performed. If the type of the recording paper P sent to is different from that selected, an alert is notified and whether to continue the recording process as it is or whether to stop the recording process and output a blank sheet By providing a choice to the user, the user can prevent the continuation of the recording processing for unintended kind of the recording sheet P.
For this reason, misprinting unintended by the user can be reduced, the consumption cost of the recording paper P and ink can be reduced, and the recording processing time can be shortened.

  As mentioned above, although preferred embodiment of this invention was described referring drawings, this invention is not limited to the said embodiment. Various shapes, combinations, and the like of the constituent members shown in the above-described embodiments are examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

For example, in the above-described embodiment, when the paper width detection result is not within the range of the paper width ± 4 mm selected in step S7 and step S8, it has been described that the process proceeds to step S11. It is not limited to.
For example, if the detected paper width is smaller than the paper width selected in step S7, it is determined that the paper widths do not match and an alert (step S11) is issued, but the detected paper width is larger than the paper width selected in step S8. May not adopt an alert even if the paper widths are inconsistent, and may employ a technique for improving productivity by continuing the recording process. That is, if the detected paper width is larger than the selected paper width, the print area (image forming area) does not protrude from the paper width, and print defects do not occur.

  Further, for example, in the above-described embodiment, in step S5, for example, when the recording paper P runs out and the cassette is switched, the first recording paper P sent out from the cassette is representatively shown in steps S6 to S8. It has been described that the detection is performed to reduce the number of detections to the necessary limit and the recording processing time is shortened. For example, even if the detection in steps S6 to S8 is performed for each recording sheet P. Good.

For example, in the above-described embodiment, it has been described that the type of the recording medium is detected based on the width, but the present invention is not limited to this method.
For example, a method of detecting the thickness of the recording medium and detecting the type of the recording medium (plain paper, thick paper, thin paper, etc.) may be used. In this case, for example, a method of identifying the thickness of the recording medium by detecting the distance PG using a gap sensor substantially the same as the above-described paper width detection sensor 9 can be used.
Further, for example, a method of detecting the type of the recording medium (paper, cloth, film, etc.) by detecting the material of the recording medium may be used. In this case, for example, a method of irradiating the recording medium with the detection light, receiving the reflected light reflected by the recording medium, and specifying the material of the recording medium based on the attenuation rate of the detection light can be used. .

  Further, for example, in the above-described embodiment, the case where the recording apparatus is the ink jet printer 1 has been described as an example. However, the recording apparatus is not limited to the ink jet printer, and may be an apparatus such as a copying machine and a facsimile.

  DESCRIPTION OF SYMBOLS 1 ... Inkjet printer, 4 ... Control apparatus, 9 ... Paper width detection sensor, 10 ... Alert notification device, 60 ... Conveyance path, P ... Recording paper (recording medium), S1 ... Step (selection process), S3 ... Step (sending) Step), S6, S7, S8 ... step (detection step), S11 ... step (notification step).

Claims (5)

A recording method for performing a recording process on the recording medium at a predetermined position on a conveyance path along which the recording medium is conveyed,
A selection step of pre-selecting the type of recording medium to be subjected to the recording process;
A detection step of detecting a difference between the type of the selected recording medium and the type of the recording medium that is transported through the transport path and located at the predetermined position;
And a notifying step of notifying an alert as to whether or not the recording process is to be performed on the recording medium located at the predetermined position when the detection result in the detecting step is different. Method. Selecting one of a plurality of cassettes containing a plurality of the recording media, and sequentially sending the recording media from the selected cassettes to the transport path,
The recording method according to claim 1, wherein in the detection step, the detection is performed at least on the earliest recording medium sent out from the selected cassette.   The recording method according to claim 1, wherein in the detection step, the detection is performed based on a width of the recording medium.   The recording method according to claim 1, wherein the notification is performed by displaying the alert on a predetermined display unit in the notification step.   5. The recording method according to claim 1, wherein in the notification step, the recording medium is made to wait at the predetermined position until there is a response to the notification.

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