JP2004276400A - Printer and printing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To determine whether printing is stopped or continued by making a decision whether a head is facing a medium or the medium is drawn out. <P>SOLUTION: In an impact printer comprising a paper sensor for detecting presence of a paper and performing printing on a paper by repeating an operation for carrying the paper in the carrying direction and an operation for printing on the paper by moving a head in the scanning direction alternately, and stopping print operation if the output from the paper sensor varies when the carrying operation is not performed, a decision is made that the rear end of the paper slipped down from the paper sensor if the output therefrom varies within a prescribed time after ending the carrying operation and the print operation is not stopped. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a printing apparatus and a printing method for printing on a medium such as paper.
[0002]
[Prior art]
2. Description of the Related Art A serial printer is known as a recording device that records characters and texts on various media (printed materials) such as paper, cloth, and film. In such a serial printer, a transport operation for transporting the medium in the transport direction and a print operation for printing by moving the head in the scanning direction are alternately repeated to form dots on the medium.
[0003]
In a serial printer, a head needs to face a medium during a printing operation. Therefore, a sensor for detecting the presence or absence of a medium is provided in the serial printer, and it is determined whether the head is facing the medium. Normally, when the output of the sensor indicates “no medium”, it is determined that the head is not facing the medium, and the printing operation is stopped.
However, the sensor for detecting the presence or absence of the medium is provided at a position different from the head, and is provided upstream of the head (that is, from the printing position) in the transport direction. When the sensor is arranged in this manner, the head is opposed to the medium even if the output of the sensor indicates “no medium” after the rear end of the medium has passed through the sensor by conveyance. Therefore, in such a case, a printing operation is performed by a predetermined amount even if the output of the sensor indicates “no medium” (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-2-301475
[0005]
[Problems to be solved by the invention]
As a case where the output of the sensor changes from “with medium” to “without medium”, not only when the rear end of the medium passes through the sensor as described above, but also when the medium is pulled out by the user. When the medium is pulled out by the user, the printing operation needs to be stopped because the head is not facing the medium. Therefore, when the output of the sensor changes from “with medium” to “without medium”, the printer needs to distinguish whether the head is facing the medium or the medium is pulled out.
The present invention has been made in view of the above problems, and has as its object to provide a printing apparatus that appropriately performs printing on a medium.
[0006]
[Means for Solving the Problems]
The main invention for achieving the above object is provided with a sensor for detecting the presence or absence of a medium, a transport operation for transporting the medium in a transport direction and a printing operation for printing on the medium by moving a head in a scanning direction. Printing is alternately repeated on a medium, and when the output of the sensor changes to a medium-less output indicating that there is no medium regardless of the transport operation, the printing operation is stopped, and the output of the sensor is changed to the transport A printing apparatus which continues the printing operation in the state of the mediumless output when the state changes to the mediumless output during operation, wherein the printing operation is started in the state of the mediumless output after starting printing of the medium. There is a state in which the printing operation is not stopped even if the output of the sensor changes until the step is continued.
Other features of the present invention will become apparent from the description of the present specification and the accompanying drawings.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
=== Disclosure Overview ===
At least the following matters will be made clear by the description in the present specification and the accompanying drawings.
[0008]
Equipped with a sensor to detect the presence or absence of the medium,
A transport operation for transporting the medium in the transport direction and a printing operation for printing on the medium by moving a head in the scanning direction are alternately repeated, and printing is performed on the medium.
If the output of the sensor has changed to a medium-less output indicating that there is no medium, regardless of the transport operation, the printing operation is stopped,
When the output of the sensor is changed to the medium-less output during the transport operation, a printing apparatus that continues the printing operation in the state of the medium-less output,
From the start of the printing of the medium, until the printing operation is continued in the state of the medium-less output,
The printing apparatus according to claim 1, wherein the printing operation is not stopped even if the output of the sensor changes.
[0009]
According to such a printing apparatus, it is possible to provide a printing apparatus that appropriately performs printing on a medium by distinguishing whether the head is facing the medium or the medium is pulled out.
[0010]
In the printing apparatus, it is preferable that the printing operation is not stopped within a predetermined time after the transport operation even if the output of the sensor changes. Although the posture of the medium immediately after the transport operation is unstable, such a printing apparatus can provide a printing apparatus that appropriately prints on a medium.
[0011]
In the printing apparatus, it is preferable that the printing operation is not stopped within a predetermined time after the printing operation even if the output of the sensor changes. Although the posture of the medium immediately after the printing operation is unstable, such a printing apparatus can provide a printing apparatus that appropriately prints on a medium.
[0012]
In this printing apparatus, it is preferable that the medium has a plurality of sheets and one side of each sheet is bound, and the printing apparatus conveys the medium from the side of the one side. Since such a medium needs to convey a plurality of sheets together, the stiffness of each sheet is weak, and the trailing edge of the sheet easily slips off the sensor. Therefore, according to such a printing apparatus, it is possible to provide a printing apparatus that appropriately performs printing on a medium even with such a medium.
[0013]
In this printing apparatus, it is preferable that the sensor is provided below the medium. In the printing apparatus, it is preferable that the medium be wound around a platen and conveyed, and the sensor be provided on a convex side of the medium when the medium is conveyed. Further, it is preferable that the medium be wound around a platen and conveyed, and that a portion of the contact portion between the medium and the platen close to the sensor be below the sensor. In the printing apparatus, it is preferable that the transport direction of the medium is inclined downward at the detection position of the sensor. According to such a printing apparatus, it is possible to provide a printing apparatus that appropriately prints on a medium although the rear end of the medium easily slides down from the sensor.
[0014]
A sensor for detecting the presence / absence of the medium is provided, and the conveyance operation for conveying the medium in the conveyance direction and the printing operation for moving the head in the scanning direction to perform printing are alternately repeated to perform printing on the medium. A printing device that stops the printing operation if the output of the sensor changes when there is no change, and stops the printing operation if the output of the sensor changes within a predetermined time after finishing the carrying operation or the printing operation. A printing device characterized by not performing. Although the posture of the medium immediately after the transport operation or immediately after the printing operation is unstable, according to such a printing apparatus, it is possible to distinguish whether the head is facing the medium or the medium is pulled out, A printing device that appropriately prints on a medium can be provided.
[0015]
=== Overview of printing device (impact printer) ===
<Structure of impact printer>
An outline of an impact printer as a printing apparatus will be described with reference to FIGS. 1 and 2. FIG. 1 is an explanatory diagram of the overall configuration of the impact printer. FIG. 2 is a block diagram mainly showing a control unit of the impact printer.
The impact printer according to the present embodiment includes a transport unit 10, a head unit 20, a carriage unit 40, and a control unit 60.
[0016]
The transport unit 10 is for feeding a medium (a printing medium), for example, paper, to a printable position, and moving the paper by a predetermined moving amount in a predetermined direction (referred to as a conveying direction) during printing. That is, the transport unit 10 functions as a transport mechanism. The transport unit 10 has at least a transport motor 12 and a platen 14. The transport motor 12 is composed of a step motor, and drives a predetermined number of steps based on a signal input from the control unit 60. The platen 14 is installed rotatably, and is rotated by the transport motor 12. When the transport motor 12 rotates by a predetermined number of steps while the paper is wound around the platen 14, the platen 14 rotates, and the platen 14 transports the paper by a predetermined transport amount in the transport direction.
[0017]
The head unit 20 is for forming dots on paper. FIG. 3 is a perspective view of a cross section of the head unit 20. The head unit 20 includes a plurality of coils 22, a plurality of movable pieces 24, a plurality of wires 26 (a plurality of pins), and a plurality of springs 28. When a drive current is supplied to the coil 22, the movable piece 24 is attracted to the coil side by the magnetic attraction of the coil 22, the wire 26 protrudes toward the platen 14, and the wire 26 impacts the paper via the ink ribbon. To form (dot) ink marks on the paper. When the drive current to the coil 22 stops, the movable piece 24 returns to the original position by the force of the spring 28, and the wire 26 also returns to the original position. As described above, since the wire 26 reciprocates with a predetermined stroke, the head unit 20 is lubricated with lubricating oil. Then, the wire 26 reciprocates in a substantially horizontal direction in order to prevent the lubricating oil from leaking from the wire projecting side surface. Therefore, when dots are formed on the paper, the printing surface is almost vertical. In the present embodiment, the number of the wires 26 is 24, and the wire protrusions are arranged in two rows along the transport direction on the wire protrusion side (12 wire × 2 rows of wire protrusions are arranged in a staggered row). (Alternately).)
[0018]
The carriage unit 40 scans the head unit 20 in a predetermined direction (scanning direction). The carriage unit 40 includes a carriage 41, a carriage motor (hereinafter, referred to as a CR motor) 42, a pulley 44, and a timing belt 46. The carriage 41 is movable in the scanning direction and fixes the head unit 20 (therefore, the head unit 20 intermittently forms dots on paper while moving along the scanning direction). The CR motor 42 is a motor for moving the carriage 41 in the scanning direction, and is constituted by a DC motor. The pulley 44 is attached to a rotation shaft of the CR motor 42. The timing belt 46 is driven by the pulley 44.
[0019]
The control unit 60 controls the printer. The control unit 60 has a CPU 61, an interface unit 62, and a memory 63. The CPU 61 controls the entire printer. The interface unit 62 transmits and receives data to and from the outside. The memory 63 is for securing an area for storing programs, a work area, and the like, and has storage means such as a RAM and an EEPROM. Note that a program related to a printing operation described later is stored in the memory 63. The transport motor control circuit 66 outputs a drive signal to the transport motor 12 based on a command from the CPU 61. The head control circuit 67 supplies a drive current to the coil 22 based on a command from the CPU 61. The CR motor control circuit 68 outputs a drive signal to the CR motor based on a command from the CPU 61. Note that the CPU 61 gives instructions to each control circuit according to a program stored in the memory 63.
[0020]
Note that various sensors 50 are provided in the printer. The outputs of these sensors are input to the control unit 60 and monitored by the CPU 61. Such a sensor includes a paper detection sensor 52 described later.
[0021]
=== Overview of print processing ===
FIG. 4 is a flowchart of a printing process when printing on paper. Various operations of the printer described below are realized by the CPU 61 controlling each unit based on a program stored in the memory 63 in the printer. Further, this program is composed of codes for performing various operations described below.
First, before printing on paper, the printer starts feeding paper (S101). The paper feeding operation is an operation of setting paper at a position facing the head (that is, a printable position). As the sheet feeding operation, the sheet is fed to a position where the sheet comes into contact with the platen 14 by a sheet feeding mechanism (not shown) or by a user's hand. Then, from the state where the paper is in contact with the platen 14, the transport motor 12 is driven to transport the paper, and the paper is transported to a position facing the head. The position of the paper at the end of the paper feeding operation is also referred to as a “start position”.
[0022]
Next, the printer performs a printing operation (S102). The printing operation is an operation in which the head unit 20 moves in the scanning direction, hits a wire on the paper during the movement, and forms dots on the paper. To perform the printing operation, the CPU 61 outputs a command to the carriage control circuit and also outputs a command to the head control circuit 67. Then, the head unit 20 intermittently protrudes the wire based on the drive signal from the head control circuit 67 while moving in the scanning direction by the CR motor, thereby forming one row of dots. Note that one printing operation is also called a “pass”.
[0023]
Next, the printer determines whether the printing process has been completed (S103).
If the printing process has not been completed, a transport operation is performed (S104). The transport operation is an operation of transporting the paper in the transport direction by the transport unit. In order to carry out the carrying operation, the CPU 61 outputs a command to carry out carrying for one line to the carrying motor control circuit, and the carrying motor control circuit carries the paper by the carrying amount for one line.
The printer repeats the printing operation and the transporting operation alternately, prints one line at a time on paper, and forms character strings and figures on the paper. Then, when there is no more data to be printed, the printer ends the printing process (S103).
[0024]
=== Transport Operation of the Present Embodiment ===
5A to 5F are explanatory diagrams of the transport path. In the figure, the same components as those in the above-described embodiment are denoted by the same reference numerals, and the description thereof will be omitted. It should be noted that the scanning direction is a direction perpendicular to the paper surface in FIG.
In the figure, 16A and 16B are paper pressing rollers for pressing the paper. When the paper holding rollers 16A and 16B press the paper toward the platen 14, and the platen 14 rotates, the paper is rotated and transported together with the platen. 18A and 18B are tension rollers. By rotating the tension rollers 18A and 18B, tension is applied to the paper wound around the platen 14, and the paper surface facing the head 20 is stabilized. The paper is guided by a guide (not shown) so as to be transported along the transport path.
[0025]
52 is a paper detection sensor of the present embodiment. The paper detection sensor 52 is a sensor for detecting the presence or absence of paper in the transport path. The paper detection sensor 52 has a lever (not shown) provided on the transport path. When the leading edge of the paper is fed and the paper is pressed down, the paper detection sensor 52 outputs a signal indicating “paper present”. Is output. Conversely, since the paper is not in contact with the lever, if the lever is raised, the paper detection sensor 52 outputs a signal indicating "no paper". 5A to 5F, a symbol ▲ indicates that the paper detection sensor 52 outputs a signal indicating “no paper”, and a symbol Δ indicates that the paper detection sensor 52 outputs a signal indicating “paper present”. ing. The paper detection sensor is provided so as to be located on the upstream side of the transport path (transport direction) with respect to the head.
[0026]
5A to 5C are explanatory diagrams of the position of the paper during the paper feeding operation. The paper is fed to a position where it comes into contact with the platen 14 by a paper feeding mechanism (not shown) or by a user's hand. While the paper is being fed, the leading end of the paper pushes down the lever of the paper detection sensor 52, and the output of the paper detection sensor 52 changes from “no paper” to “paper present”. After the output of the paper detection sensor 52 changes, the CPU 61 gives a command corresponding to a predetermined paper feed amount to the conveyance motor control circuit 66, and the conveyance motor control circuit 66 outputs a drive signal of the number of steps corresponding to the command from the CPU 61. Output to the transport motor 12, the transport motor 12 rotates the platen by the number of steps corresponding to the drive signal from the transport motor control circuit 66, and the platen 14 transports the paper by a predetermined paper feed amount. When the platen 14 conveys the paper by a predetermined paper feed amount, the paper has been conveyed to a position facing the head (a cueing position), and thus the paper feeding operation ends. Conversely, the CPU 61 gives a command to the transport motor control circuit 66 so that the paper is at such a position at the end of the paper feeding operation.
[0027]
5C to 5F are explanatory diagrams of the position of the paper during the printing operation. The printer repeats the printing operation and the conveying operation alternately from the state of the cueing position (FIG. 5C) to print on paper. During the printing process, the conveyance unit 10 (platen 14) intermittently conveys the paper by the conveyance amount for one line, and during the intermittent conveyance, the head unit 20 scans and strikes the wire against the paper. Form dots on paper. When the transport unit 10 repeats intermittent transport, the rear end of the paper passes through a lever (not shown) of the paper detection sensor 52, the lever is raised, and the output of the paper detection sensor 52 changes from “paper present” to “paper out”. No Paper ".
[0028]
If the printing operation is terminated (stopped) when the output of the paper detection sensor 52 changes to "no paper", the paper detection sensor 52 is provided on the upstream side of the transport path with respect to the head. However, the margin at the trailing edge of the paper becomes large. That is, when the printing operation is completed when the output of the paper detection sensor 52 changes to “no paper”, the paper is moved from the portion facing the head to the rear end of the paper when the output of the paper detection sensor 52 changes. Since the range up to is not printable, it becomes a margin (see FIG. 5E).
[0029]
Therefore, when the output of the paper detection sensor 52 changes to “no paper” due to the transport operation, the CPU 61 determines that the remaining predetermined number of lines can be printed, and the output of the paper detection sensor 52 becomes “ Even if "no paper", printing is to be continued. As a result, the printer can perform printing up to the last edge of the paper (see FIG. 5F). When the output of the paper detection sensor 52 changes (see FIG. 5E), the range from the portion facing the head to the rear end of the paper is also called a “forms override area”.
[0030]
=== Paper pull-out detection ===
The case where the output of the paper detection sensor 52 changes from “with paper” to “without paper” includes not only the case where the trailing edge of the paper has passed the sensor due to the transport operation, but also the case where the paper is pulled out by the user. In some cases. When the paper is pulled out by the user, the print operation needs to be stopped because the head is not facing the paper. On the other hand, simply terminating the printing operation when the output of the paper detection sensor 52 is “no paper” causes no printing in the forms override area, and thus the margin at the rear end of the paper increases. Therefore, when the output of the paper detection sensor changes from “paper present” to “paper out”, the printer needs to distinguish whether the head is facing the paper or the paper is pulled out. is there.
[0031]
The pull-out detection process in the printer according to the present embodiment will be described below.
6 and 7 are flowcharts of the printing process according to the present embodiment. Various operations of the printer described below are realized by the CPU 61 controlling each unit based on a program stored in the memory 63 in the printer. Further, this program is composed of codes for performing various operations described below.
[0032]
FIG. 6 is a flowchart relating to the processing of the output of the paper detection sensor. When the output of the paper detection sensor 52 changes, the process branches from the main flow (see FIG. 4) and the paper detection sensor process is started. As shown in the drawing, when the output of the paper detection sensor 52 changes from “no paper” to “paper present”, the printer displays an error because the leading edge of the paper has passed the paper detection sensor 52. The printing process is continued without any further processing. When the output of the paper detection sensor 52 changes from “with paper” to “without paper”, the printer is in a state where the head is facing the paper or a state where the paper is pulled out. In the present embodiment, a “flag” described later is set in order to determine which state is in which state. If the “flag” indicates “TRUE”, the printer determines that the head is facing the paper, and continues the printing process without displaying an error. Note that the printing process in this case is a printing process for the override area. On the other hand, if the “flag” indicates “FALSE”, the printer determines that the paper has been pulled out, displays an error, and ends the printing process. The determination as to whether the “flag” is “TRUE” or “FALSE” is made by determining whether a predetermined area of the memory 63 is “1” or “0”.
[0033]
Why it can be determined that the head is facing the paper if the "flag" indicates "TRUE", and why the paper is pulled out if the "flag" indicates "FALSE" It will be clear from the following description whether or not it can be determined.
[0034]
FIG. 7 is a flowchart relating to the transport operation. FIG. 11 is a diagram for describing the transport operation of the main flow (FIG. 4) in detail. First, the CPU 61 sets the “flag” to “TRUE” before driving the transport motor 12 (S141). When the CPU 61 changes the predetermined area of the memory 63 from “0” to “1”, the “flag” is changed from “FALSE” to “TRUE”.
[0035]
Next, the CPU 61 commands the transport motor control circuit 66 to transport X steps corresponding to the transport amount for one row (S142). Each time the transport motor is driven by one step, the transport motor control circuit 66 counts down the instructed X steps (S143), and drives the transport motor until the counter reaches 0 (S144). By S142 to S144, the transport operation for one line is processed.
[0036]
In the present embodiment, while the transport operation is being performed (S142 to S144), the “flag” indicates “TRUE”. Therefore, even if the output of the paper detection sensor changes from “with paper” to “without paper” during the transport operation, the printer does not determine that the paper has been pulled out. This is because the platen 14 is rotating and the paper is moving while the transport motor is being driven, and the user does not pull out the paper in such a state. That is, it is expected that an error will occur if the user pulls out the paper while the paper is moving, and the user does not pull out the paper in such a case. Therefore, if the output of the paper detection sensor changes from “paper present” to “paper out” during the transport operation, the printer has a head with the rear end of the paper passing through the paper detection sensor due to the transport operation. It is determined that the sheet is facing the paper, the printing process is continued, and the printing process for the override area is performed.
[0037]
In the present embodiment, the CPU 61 sets a waiting time of several ms to several hundred ms after the transport operation (S145). Then, the CPU 61 counts down the set waiting time according to a timer (not shown) in the control unit 60 (S146), and after the waiting time elapses (S147), causes the “flag” to indicate “FALSE” ( S148). When the CPU 61 changes the predetermined area of the memory 63 from “1” to “0”, the “flag” is changed from “TRUE” to “FALSE”.
[0038]
That is, in the present embodiment, the “flag” indicates “TRUE” during a predetermined time after the transport operation (S145 to S147). Therefore, even if the output of the paper detection sensor changes from “with paper” to “without paper” during this waiting time, the printer does not determine that the paper has been pulled out. The reason will be described below.
[0039]
FIG. 8A is an explanatory diagram of a state immediately before the trailing end of the paper passes the paper detection sensor (that is, FIG. 8A is an explanatory diagram of a state immediately before FIG. 5E described above). FIG. 8B is an explanatory diagram of a state where the rear end of the paper has slipped off the paper detection sensor.
As a result of continuing the intermittent transport operation, after a certain transport operation is completed, the paper detection sensor 52 supports the rear end of the paper several mm (closer to the rear end of the paper). When the paper detection sensor 52 supports a portion near the rear end of the paper from below, the rear end of the paper may slide down from the paper detection sensor due to the bending of the paper. In particular, in the case of weak paper, the paper bends greatly, so that the trailing edge of the paper easily slides down from the paper detection sensor 52. Then, when the trailing edge of the paper slides down from the paper detection sensor 52, the lever pressed down by the paper rises, and the output of the paper detection sensor 52 indicates "no paper". In other words, the output of the paper detection sensor 52 may change from "paper present" to "paper out" while the platen 14 is stopped (the transport operation is stopped).
[0040]
In the present embodiment, the above-described waiting time is set so that when the output of the paper detection sensor 52 changes due to such a bending of the paper, the printer does not determine that the paper has been pulled out. That is, the phenomenon that the trailing edge of the paper slides down from the paper detection sensor 52 occurs in a time zone immediately after the transport operation in which the posture of the paper is not stable. That is, if the output of the paper detection sensor 52 changes from “with paper” to “without paper” when the posture of the paper is unstable, the printer determines that the trailing edge of the paper has slipped off the paper detection sensor 52. Judge, and do not judge that the paper is pulled out.
[0041]
If the paper does not slip off the paper detection sensor 52 even after the waiting time, it is considered that the paper does not slip off the paper detection sensor 52 until the platen starts rotating again afterwards because the posture of the paper is already stable. (In this case, the paper strain is considered strong). Therefore, when the output of the paper detection sensor 52 changes from “with paper” to “without paper” when the posture of the paper is stable, it is considered that the paper has been pulled out by the user. For this reason, in the present embodiment, the printer returns the “flag” to “FALSE” after the time during which the posture of the paper is stabilized (S148). Therefore, if the output of the paper detection sensor 52 changes from “with paper” to “without paper” thereafter, the printer determines that the paper has been pulled out by the user and displays an error.
[0042]
As described above, in the present embodiment, it is possible to distinguish whether the paper is pulled out by the user or whether the rear end of the paper has slipped off the paper detection sensor 52.
[0043]
Since the paper strain varies depending on the paper, if the waiting time can be set according to the type of paper to be printed, the waiting time can be reduced and the error display error can be reduced. In this case, the user may input the information of the printing paper into the printer, or the printer may determine the type of the printing paper based on the printing paper information included in the header of the received print data.
[0044]
As can be seen from FIG. 8B, the phenomenon that the trailing edge of the paper slides down from the paper detection sensor 52 occurs when the paper detection sensor 52 is provided below the paper. Further, the phenomenon in which the trailing edge of the paper slides down from the paper detection sensor 52 is likely to occur when the printing surface side of the paper is convex when the paper is wound around a platen and conveyed. The phenomenon that the trailing edge of the paper slides down from the paper detection sensor 52 is likely to occur when the paper is conveyed and the paper detection sensor 52 is provided on the convex side of the paper. In addition, the phenomenon that the trailing edge of the paper slides down from the paper detection sensor 52 is caused by the portion of the contact portion between the paper and the platen that is close to the paper detection sensor (the portion between the paper pressing roller 16A closest to the paper detection sensor 52 and the platen 14). If the contact portion) is lower than the paper detection sensor 52, it easily occurs. The phenomenon in which the trailing edge of the paper slides down from the paper detection sensor 52 is likely to occur when the paper conveyance direction is inclined downward at the detection position of the paper detection sensor 52. When the printing surface is vertical, the above-described configuration is likely to be obtained.
[0045]
=== Other Embodiments ===
In the above description, a printer is mainly described, but the disclosure of a printing device, a printing method, a program, a storage medium, a printing system, a method of manufacturing a printed matter, a recording device, and the like is included. Needless to say.
Also, a printer or the like has been described as an example, but the above-described embodiment is for facilitating understanding of the present invention, and is not for limiting and interpreting the present invention. The present invention can be modified and improved without departing from the spirit thereof, and it goes without saying that the present invention includes its equivalents.
[0046]
<About printing paper>
According to the above-described embodiment, printing is performed on a single-sheet print sheet. However, printing paper is not limited to this.
FIG. 9A is an explanatory diagram of a copy sheet. The copy paper has one cover and a plurality of pressure-sensitive papers, and one side (top) of each paper is bound with glue. Such copy paper is often used for slips and the like. When copying paper with an impact printer, the cover is printed directly by wire and the pressure-sensitive paper under the cover is printed by the pressure received through the cover. In order to print a copy sheet, a plurality of sheets need to pass through the transport path at a time, and therefore, the cover sheet and the pressure-sensitive sheet constituting the copy sheet are made of thin paper. In other words, each of the sheets constituting the copy sheet is weak.
[0047]
FIG. 9B is an explanatory diagram when a copy sheet is transported. When the printer conveys the copy paper, the printer conveys the copy paper from the top side to prevent a paper jam. On the other hand, when the copy paper is conveyed in this manner, since the rear end side of the copy paper is not bound with glue, each copy paper is easily turned over. When the trailing edge of the copy paper is supported by the paper detection sensor 52, the trailing edge of each paper slips down from the paper detection sensor 52.
According to the paper pullout detection of the present embodiment, even when such a copy paper is printed, the paper pullout can be correctly detected.
[0048]
<About waiting time 1>
According to the above-described embodiment, the waiting time is counted after the transport operation. However, the timing of the waiting time is not limited to this. In short, a waiting time may be provided when the posture of the paper is unstable.
FIG. 10 is a flowchart illustrating the printing operation. FIG. 7 is a diagram for explaining in detail the printing operation of the main flow (FIG. 4). Various operations of the printer described below are realized by the CPU 61 controlling each unit based on a program stored in the memory 63 in the printer. Further, this program is composed of codes for performing various operations described below.
[0049]
First, before driving the CR motor 42, the CPU 61 sets the “flag” to “TRUE” (S121). When the CPU 61 changes the predetermined area of the memory 63 from “0” to “1”, the “flag” is changed from “FALSE” to “TRUE”. Next, the CPU 61 drives the CR motor 42 to accelerate the carriage (S122). Then, while the carriage 41 is scanning, the wires are intermittently projected to form dots on the printing paper (S123). After the dot formation, the carriage 41 is decelerated and stopped (S124). Through these steps S122 to S124, the printing operation for one line (one pass) is processed.
[0050]
In the present embodiment, during the scanning movement of the carriage (S122 to S124), the “flag” indicates “TRUE”. Therefore, even if the output of the paper detection sensor 52 changes from “with paper” to “without paper” during the scanning movement, the printer does not determine that the paper has been pulled out. This is because the user will not pull out the paper while the carriage is moving. That is, it is expected that an error will occur if the paper is pulled out while the carriage is moving, so that the user does not pull out the paper at such time. Therefore, even if the output of the paper detection sensor changes from “with paper” to “without paper” during the scanning movement of the carriage, the printer does not determine that the paper has been pulled out.
[0051]
In the present embodiment, the CPU 61 sets a waiting time of several ms to several hundred ms after the scanning movement of the carriage (S125). Then, the CPU 61 counts down the set waiting time according to a timer (not shown) in the control unit 60 (S126), and sets the “flag” to “FALSE” after the waiting time has elapsed (S127). (S128). When the CPU 61 changes the predetermined area of the memory 63 from “1” to “0”, the “flag” is changed from “TRUE” to “FALSE”. That is, in the present embodiment, the “flag” indicates “TRUE” during a predetermined time after the transport operation (S145 to S147). Therefore, even if the output of the paper detection sensor changes from “with paper” to “without paper” during this waiting time, the printer does not determine that the paper has been pulled out.
[0052]
As described above, in the present embodiment, even if the output of the paper detection sensor changes from “paper present” to “paper out” during the scanning movement of the carriage and during the waiting time after the scanning movement, the printer draws paper. It does not judge that it is in the state of being pulled out. This is because the entire printer vibrates when the carriage scans, and if the rear end of the paper is supported by the paper detection sensor 52, the posture of the paper becomes unstable, and This is because the edge may slide down from the paper detection sensor.
According to the present embodiment, it is possible to distinguish whether the user has pulled out the paper or whether the rear end of the paper has slipped off the paper detection sensor 52 due to the vibration of the carriage movement.
[0053]
<About waiting time 2>
According to the above-described embodiment, a certain waiting time is set after the transport operation or after the scanning movement of the carriage. However, the waiting time is not limited to this.
For example, the length of the waiting time after the transport operation may be different from the length of the waiting time after the scanning movement of the carriage. This makes it possible to set a waiting time according to each event, so that it is possible to detect withdrawal of the paper with high accuracy.
[0054]
<About the printer>
According to the above-described embodiment, the printer is an impact printer that forms an ink mark on printing paper by projecting a wire. However, the printer is not limited to this. The printer may be a serial printer, such as an ink jet printer, that performs an intermittent transport operation during printing.
[0055]
【The invention's effect】
According to the present invention, it is possible to provide a printing apparatus that appropriately performs printing on a medium by distinguishing whether the head is facing the medium or the medium is pulled out.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an overall configuration of an impact printer.
FIG. 2 is a block diagram of a control unit and the like of the impact printer.
FIG. 3 is a perspective view of a cross section of the head unit.
FIG. 4 is a flowchart of a printing process when printing on paper.
FIG. 5A to FIG. 5F are explanatory diagrams of a transport path.
FIG. 6 is a flowchart of an output process of a paper detection sensor.
FIG. 7 is a flowchart of a transport operation.
FIG. 8A is an explanatory diagram of a state immediately before a trailing edge of a paper passes a paper detection sensor. FIG. 8B is an explanatory diagram of a state where the rear end of the paper has slipped off the paper detection sensor.
FIG. 9A is an explanatory diagram of a copy sheet. FIG. 9B is an explanatory diagram of copying paper conveyance.
FIG. 10 is a flowchart of a printing operation.
[Explanation of symbols]
10 Transport unit
20 head unit
40 carriage unit
50 Various sensors, 52 Paper detection sensor
60 control unit

Claims (10)

Equipped with a sensor to detect the presence or absence of the medium,
A transport operation for transporting the medium in the transport direction and a printing operation for printing on the medium by moving a head in the scanning direction are alternately repeated, and printing is performed on the medium.
If the output of the sensor has changed to a medium-less output indicating that there is no medium, regardless of the transport operation, the printing operation is stopped,
When the output of the sensor is changed to the medium-less output during the transport operation, a printing apparatus that continues the printing operation in the state of the medium-less output,
From the start of the printing of the medium, until the printing operation is continued in the state of the medium-less output,
The printing apparatus according to claim 1, wherein the printing operation is not stopped even if the output of the sensor changes. The printing device according to claim 1,
Within a predetermined time after the transport operation, the printing operation is not stopped even if the output of the sensor changes. The printing device according to claim 1, wherein:
Within a predetermined time after the printing operation, the printing operation is not stopped even if the output of the sensor changes. The printing device according to claim 1,
The medium has a plurality of sheets, and has one side of each sheet bound,
The printing device conveys the medium from the one side. The printing device according to any one of claims 1 to 4,
The sensor is provided below the medium. The printing device according to claim 1, wherein:
The medium is transported by being wound around a platen,
The sensor is provided on a convex side of the medium when the medium is conveyed. The printing apparatus according to any one of claims 1 to 6,
The medium is transported by being wound around a platen,
A portion of the contact portion between the medium and the platen close to the sensor is below the sensor. The printing device according to any one of claims 1 to 7,
At the detection position of the sensor, the transport direction of the medium is inclined downward. Equipped with a sensor to detect the presence or absence of the medium,
The printing operation is performed by alternately repeating the transport operation for transporting the medium in the transport direction and the printing operation for printing by moving the head in the scanning direction, and printing on the medium.
A printing apparatus that stops the printing operation when the output of the sensor changes when the transport operation is not performed,
If the output of the sensor changes within a predetermined time after finishing the transport operation or the printing operation, the printing operation is not stopped. The presence or absence of the medium is detected by the sensor,
A transport operation for transporting the medium in the transport direction and a printing operation for printing on the medium by moving a head in the scanning direction are alternately repeated, and printing is performed on the medium.
If the output of the sensor has changed to a medium-less output indicating that there is no medium, regardless of the transport operation, the printing operation is stopped,
When the output of the sensor is changed to the medium-less output during the transport operation, a printing method that continues the printing operation in the state of the medium-less output,
From the start of the printing of the medium, until the printing operation is continued in the state of the medium-less output,
A printing method, wherein the printing operation is not stopped even if the output of the sensor changes.

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