JP2005138481A - Inkjet printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inkjet printer capable of performing normal image recording by preventing ink from curing defects due to variation in ambient humidity. <P>SOLUTION: The inkjet printer 1 comprising a mechanism 3 for carrying a recording medium 99 in a specified carrying direction A, and a carriage 11 movable in the scanning direction B intersecting the carrying direction perpendicularly while mounting recording heads 5, 6, 7 and 8 ejecting UV-curing ink toward the recording medium and irradiators 9 and 10 for irradiating ink impacting on the recording medium with UV-rays is further provided with a humidity detector 13 for detecting ambient humidity, and a control section 20 for varying the moving speed of the carriage depending on the humidity detected by the humidity detector. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an ink jet printer, and more particularly to an ink jet printer using an ink that is cured by irradiation with ultraviolet rays.

  In recent years, the ink jet recording method can create images more easily and cheaply than the gravure printing method, and thus has been applied to various printing fields such as special printing such as photography, various printing, marking, and color filters. In particular, in the ink jet recording method, an ink jet printer that discharges and controls fine dots, an ink with improved color reproduction range, durability, and discharge suitability, ink absorptivity, color material coloring, and surface gloss. It is also possible to obtain image quality comparable to silver salt photography by combining with special paper that has been improved dramatically.

  In a conventional ink jet printer, a line for performing image recording by ejecting ink from a line head in which a plurality of ejection openings arranged in a direction orthogonal to the transport direction is formed on a recording medium transported in the transport direction. There is a serial method in which image recording is performed by moving a recording head mounted on a carriage in a scanning direction orthogonal to the conveyance direction of the recording medium and ejecting ink from an ejection port of the recording head while the recording head is moving.

Inkjet printers can be classified by ink type. In other words, conventional ink jet printers include a phase change ink jet method using a solid wax ink at room temperature, a solvent ink jet method using an ink mainly composed of a fast-drying organic solvent, and an ultraviolet curable ink that cures when irradiated with ultraviolet light. UV curable ink jet method using Among these, the ultraviolet curable ink jet method is attracting attention because it has a relatively low odor compared to other recording methods, and can be recorded on a recording medium that does not have quick-drying and ink absorbability other than dedicated paper (for example, patents). Reference 1).
JP 2001-310454 A

By the way, conventionally, a cation polymerization type ultraviolet curable ink containing a cation polymerizable compound may be used as an ink used in an ultraviolet curable ink jet type ink jet printer. Since this cationic polymerization type UV curable ink has the property that water becomes a polymerization inhibitor, it becomes difficult for the ink to harden even when irradiated with the same amount of UV light when the ambient humidity is high, resulting in ink curing. Defects may occur.
However, in the conventional ink jet printer, the ink is cured with a certain amount of ultraviolet light capable of curing the ink in a humidity environment within a predetermined range. Insufficient ink curing may occur due to shortage, and there is a possibility that normal image recording cannot be performed.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an ink jet printer that can prevent ink curing failure due to changes in ambient humidity and can perform normal image recording.

The invention described in claim 1
A recording medium transport mechanism for transporting the recording medium in a predetermined transport direction;
A recording head for ejecting ink that is cured by irradiating ultraviolet rays onto the recording medium and an ultraviolet irradiating device that irradiates the ink that has landed on the recording medium with ultraviolet rays are mounted and moved in a scanning direction perpendicular to the transport direction. A free carriage,
An inkjet printer comprising:
A humidity detector that detects ambient humidity;
A controller that changes the moving speed of the carriage according to the humidity detected by the humidity detector;
It is characterized by having.

As described above, according to the first aspect of the present invention, the apparatus includes the humidity detection device that detects the ambient humidity and the control unit that changes the moving speed of the carriage according to the humidity detected by the humidity detection device. By changing the moving speed of the carriage according to the ambient humidity, it is possible to change the amount of ultraviolet light irradiated to the ink landed on the recording medium from the ultraviolet irradiation device mounted on the carriage.
For example, if the ambient humidity is high, the ink is difficult to cure.In such a case, by controlling the carriage moving speed to be slow, ultraviolet rays are applied to the ink that has landed on the recording medium for a longer time. Irradiation can be performed, and the amount of ultraviolet light irradiated can be increased.
On the other hand, since the ink is easily cured when the ambient humidity is low, the amount of ultraviolet light necessary for ink curing may be small. In such a case, it is possible to record an image on the recording medium earlier by controlling the carriage moving speed to be faster and shortening the time for irradiating the ink landed on the recording medium with ultraviolet rays.

The invention according to claim 2 is the inkjet printer according to claim 1,
The controller is
When the humidity detected by the humidity detector is high, the carriage is controlled to be slowed down.

  As described above, according to the second aspect of the invention, the control unit controls the carriage moving speed to be slow when the humidity detected by the humidity detecting device is high. In the case of high humidity that is difficult to perform, the ink that has landed on the recording medium can be irradiated with ultraviolet rays for a longer time, and the amount of irradiated ultraviolet light can be increased.

The invention according to claim 3
A recording medium transport mechanism for transporting the recording medium in a predetermined transport direction;
A line head that discharges ink that is cured by irradiating ultraviolet rays onto the recording medium;
An ultraviolet irradiation device for irradiating the ink landed on the recording medium with ultraviolet rays;
An inkjet printer comprising:
A humidity detector that detects ambient humidity;
A control unit that changes the conveyance speed of the recording medium according to the humidity detected by the humidity detection device;
It is characterized by having.

Thus, according to the third aspect of the present invention, the apparatus includes the humidity detection device that detects the ambient humidity and the control unit that changes the conveyance speed of the recording medium according to the humidity detected by the humidity detection device. By changing the conveyance speed of the recording medium in accordance with the ambient humidity, it is possible to change the amount of ultraviolet light irradiated from the ultraviolet irradiation device to the ink landed on the recording medium.
For example, if the ambient humidity is high, the ink is difficult to cure. In such a case, the ink that has landed on the recording medium for a longer period of time is controlled by reducing the conveyance speed of the recording medium. Can be irradiated, and the amount of irradiated ultraviolet light can be increased.
On the other hand, since the ink is easily cured when the ambient humidity is low, the amount of ultraviolet light necessary for ink curing may be small. In such a case, it is possible to record an image on the recording medium more quickly by controlling the conveyance speed of the recording medium to be high and shortening the time for irradiating the ink landed on the recording medium with ultraviolet rays. .

The invention according to claim 4 is the ink jet printer according to claim 3,
The controller is
When the humidity detected by the humidity detector is high, control is performed such that the conveyance speed of the recording medium is reduced.

  Thus, according to the fourth aspect of the present invention, when the humidity detected by the humidity detection device is high, the control unit controls the recording medium to be transported at a low speed. In the case of high humidity that is difficult to cure, the ink that has landed on the recording medium can be irradiated with ultraviolet rays for a longer period of time, and the amount of irradiated ultraviolet light can be increased.

According to the first aspect of the present invention, the moving speed of the carriage is changed according to the ambient humidity, and the amount of ultraviolet light applied to the ink landed on the recording medium is changed from the ultraviolet irradiation device mounted on the carriage. For example, when the ambient humidity is high, by controlling the carriage to move at a slower speed, the ink that has landed on the recording medium is irradiated with ultraviolet light for a longer period of time. The amount of light can be increased, and as a result, ink curing failure can be prevented and normal image recording can be performed.
Also, when the ambient humidity is low, control is performed to increase the carriage moving speed, and the time for irradiating the ink that has landed on the recording medium with ultraviolet light is shortened, thereby recording an image on the recording medium more quickly. As a result, productivity when recording an image on a recording medium can be improved.

  According to the second aspect of the present invention, when the ink is hard to be hardened, the amount of the irradiated ultraviolet light can be increased by irradiating the ink that has landed on the recording medium with ultraviolet rays for a longer time. Therefore, it is possible to prevent ink curing failure and perform normal image recording.

According to the third aspect of the invention, since the conveyance speed of the recording medium can be changed according to the ambient humidity, the amount of ultraviolet light irradiated from the ultraviolet irradiation device to the ink landed on the recording medium can be changed. For example, when the ambient humidity is high, the recording medium conveyance speed is controlled to be slowed down so that the ink that has landed on the recording medium is irradiated with ultraviolet rays for a longer period of time, thereby increasing the amount of irradiated ultraviolet light. As a result, ink curing failure can be prevented and normal image recording can be performed.
In addition, when the ambient humidity is low, the recording medium is controlled so as to increase the conveyance speed, and the time for irradiating the ink that has landed on the recording medium with ultraviolet light is shortened, thereby recording an image on the recording medium more quickly. As a result, productivity when recording an image on a recording medium can be improved.

  According to the fourth aspect of the present invention, when the ink is hard to be cured, it is possible to irradiate the ink that has landed on the recording medium with ultraviolet rays for a longer period of time, thereby increasing the amount of irradiated ultraviolet rays. Therefore, it is possible to prevent ink curing failure and perform normal image recording.

  Hereinafter, embodiments of an inkjet printer according to the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the illustrated examples.

[First embodiment]
First, a first embodiment of an ink jet printer according to the present invention will be described with reference to FIGS. 1 and 2.
FIG. 1 is a diagram showing a schematic configuration of the ink jet printer according to the first embodiment of the present invention, and FIG. 2 is a control block diagram showing a main control configuration of the ink jet printer according to the first embodiment.

  As shown in FIG. 1, the ink jet printer 1 is a serial type ink jet printer, and includes a flat platen 2 that supports a non-recording surface on the back side of a recording surface of a recording medium 99. Conveying rollers 3a and 3b of the recording medium conveying mechanism 3 are disposed before and after the platen 2, respectively. The conveying rollers 3a and 3b are coupled by a conveying belt 3c and rotate in a predetermined direction around the axis before and after the platen 2, and the recording medium 99 is conveyed along with the rotation of the conveying rollers 3a and 3b. It is conveyed along the direction A.

  Above the platen 2, an image recording unit 4 that records an image on the recording surface of the recording medium 99 is disposed. The image recording unit 4 includes a guide member 12 extending in a direction orthogonal to the conveyance direction A (hereinafter referred to as “scanning direction B”), and a carriage 11 is supported on the guide member 12. The carriage 11 is reciprocally movable along the scanning direction B while being guided by the guide member 12 by driving of the carriage driving mechanism 11a.

  Four recording heads 5 and 6 eject inks of process colors of yellow (Y), magenta (M), cyan (C), and black (K) toward the recording surface of the recording medium 99 on the carriage 11, respectively. , 7 and 8 are mounted, and the four recording heads 5, 6, 7 and 8 can be simultaneously moved by the reciprocating movement of the carriage 11. A plurality of nozzles (not shown) for ejecting ink as droplets are disposed on the sides of the recording heads 5, 6, 7, 8 facing the recording surface of the recording medium 99. The plurality of nozzles are arranged along the conveyance direction A of the recording medium 99 for each of the recording heads 5, 6, 7, and 8 to form nozzle rows (not shown), and the recording head having the nozzle outlets A surface facing the recording surface of the recording medium 99 in 5, 6, 7, and 8 is a nozzle surface (not shown).

  Further, on both ends of the carriage 11 in the scanning direction B, ultraviolet irradiation devices 9 and 10 for irradiating the ink landed on the recording medium 99 with ultraviolet rays are mounted, respectively. Similar to 6, 7 and 8, the carriage 11 can be moved by reciprocating movement. Each ultraviolet irradiation device 9, 10 is provided with an ultraviolet light source (not shown), and each ultraviolet irradiation device 9, 10 emits ultraviolet light toward the recording surface of the recording medium 99 when the ultraviolet light source is turned on. Can be irradiated. As the ultraviolet light source, a high pressure mercury lamp, a low pressure mercury lamp, a metal halide lamp, a black light, a hot cathode tube, a cold cathode tube, an LED (Light Emitting Diode), or the like is applied.

  In addition, a humidity sensor 13 is provided at a predetermined position of the inkjet printer 1 as a humidity detection device that detects ambient humidity. In the first embodiment, the humidity sensor 13 is arranged at a position in the platen 2 that does not contact the recording medium 99, and detects the humidity near the recording medium 99 every predetermined period or at all times. The detected humidity is transmitted as information to the control unit 20. The position at which the humidity sensor 13 is disposed is not limited to the platen 2 described above. For example, the humidity sensor 13 may be disposed at a predetermined position of the carriage 11.

Next, the control configuration in the first embodiment will be described with reference to FIG.
In the first embodiment, the inkjet printer 1 is provided with a control unit 20 that controls each drive unit as shown in FIG. The control unit 20 includes a CPU 21, a RAM 22, a ROM 23, and the like. The control unit 20 is connected to the recording medium transport mechanism 3, the recording heads 5, 6, 7, 8 and ultraviolet rays via an interface (not shown). The devices 9 and 10, the carriage drive mechanism 11a, the humidity sensor 13 for detecting the humidity in the vicinity of the recording medium 99, and the input unit 14 for inputting an instruction at the time of image recording such as the type of the recording medium 99 are electrically connected. Yes. In addition to the above, each drive unit of the inkjet printer 1 is connected to the control unit 20.

The control unit 20 reciprocates the carriage 11 in the scanning direction B and repeats conveyance and stop of the recording medium 99 in accordance with the operation of the carriage 11 so that the recording medium 99 is intermittently conveyed in the conveyance direction A. The operation of the carriage drive mechanism 11a and the recording medium transport mechanism 3 is controlled.
The control unit 20 controls the ultraviolet irradiation devices 9 and 10 to generate ultraviolet rays.

  Further, the control unit 20 is connected to an input unit 14 and a recording head 5, 6, 7, 8 including a host computer and a scanner for inputting image information, a keyboard for inputting image recording conditions, and the like. Is configured to operate the recording heads 5, 6, 7 and 8 on the basis of a predetermined signal input from the input unit 14 and to eject a ink onto the recording medium 99 to record a predetermined image.

Further, the control unit 20 receives the humidity in the vicinity of the recording medium 99 detected by the humidity sensor 13 as information, and controls the carriage drive mechanism 11a so as to change the moving speed of the carriage 11 correspondingly. It has become.
For example, if the ambient humidity is higher than a predetermined high humidity reference value (for example, when the absolute humidity is 0.02 g / g), the ink is difficult to cure, so the carriage drive mechanism 11a is controlled. Thus, the moving speed of the carriage 11 is set to a predetermined amount slower than the standard speed (for example, 300 mm / s) (for example, 180 mm / s). As a result, the time for which the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays becomes longer, and the amount of ultraviolet light irradiated to the ink is increased. As a result, the ink can be reliably cured.
In contrast, when the ambient humidity is lower than a predetermined low humidity reference value (for example, when the absolute humidity is 0.012 g / g), the ink is easily cured. By controlling, the moving speed of the carriage 11 is increased by a predetermined amount from the standard speed (for example, 600 mm / s). As a result, the time for which the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays is shortened, and the amount of ultraviolet rays irradiated to the ink is reduced. As a result, an image can be recorded on the recording medium 99 earlier.
By performing such control, the ink can be irradiated with an ultraviolet light amount corresponding to the ambient humidity with simple control.
Note that the reference value of humidity for changing the moving speed of the carriage 11 may be set to an appropriate number of 1 or more as necessary.

Further, as described above, when the ambient humidity is higher or lower than a predetermined reference value of humidity, the carriage drive mechanism 11a is controlled to slow down or increase the moving speed of the carriage 11 by a predetermined amount. In addition, the following control can be considered.
That is, as the ambient humidity increases, the carriage drive mechanism 11a is controlled to gradually reduce the moving speed of the carriage 11. As a result, the time for which the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays gradually increases, and the amount of ultraviolet rays irradiated to the ink gradually increases.
Further, as the ambient humidity decreases, the carriage driving mechanism 11a is controlled to gradually increase the moving speed of the carriage 11. As a result, the time for which the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays is gradually shortened, and the amount of ultraviolet rays irradiated to the ink is gradually reduced.
By performing such control, the ink can be irradiated with an accurate amount of ultraviolet light corresponding to the ambient humidity.

Next, “ink” used in the first embodiment will be described.
The ink used in the first embodiment is an ultraviolet curable ink that is cured by irradiation with ultraviolet light as light. The main component is a polymerizable compound (including a known polymerizable compound), a photoinitiator. And at least a coloring material.

  The ultraviolet curable ink is roughly classified into a radical polymerization type ink containing a radical polymerizable compound and a cationic polymerization type ink containing a cationic polymerizable compound as a polymerizable compound, and is used in the first embodiment. As the ink, a cationic polymerization ink can be applied. Note that the cationic polymerization ink has higher sensitivity to ultraviolet rays and less inhibition of the polymerization reaction by oxygen than the radical polymerization ink, and can reduce the illuminance necessary for curing the ink. In addition, since the cationic polymerization type ink has a characteristic that water becomes a polymerization inhibitor, the ink is difficult to be cured even when irradiated with the same amount of ultraviolet light when the ambient humidity is high.

Next, the operation of the ink jet printer 1 in the first embodiment will be described.
When an operator sets the recording medium 99 in the ink jet printer 1 and the power of the ink jet printer 1 is turned on, the ultraviolet light source is turned on to irradiate ultraviolet rays toward the recording surface of the recording medium 99 on which ink droplets land. To do.

When image information is sent from the input unit 14 to the control unit 20 of the inkjet printer 1 and setting information for various image recording conditions is sent, the control unit 20 starts image recording.
During the operation of the ink jet printer 1, on the other hand, the transport rollers 3 a and 3 b are operated and rotated, and the recording medium 99 is transported in the transport direction A from the rear to the front with the non-recording surface supported by the platen 2. It is conveyed along. On the other hand, the carriage 11 is operated to reciprocate along the scanning direction B immediately above the recording medium 99, and the four recording heads 5, 6, 7, 8 and the two ultraviolet irradiation devices 9 mounted on the carriage 11. , 10 also move as the carriage 11 reciprocates.

  During the movement of the carriage 11, the four recording heads 5, 6, 7, and 8 eject ink from the nozzles toward the recording surface of the recording medium 99, and the two ultraviolet irradiation devices 9 and 10 include the recording medium 99. Irradiate ultraviolet rays toward the recording surface. In this embodiment, since the respective ultraviolet light sources of the two ultraviolet irradiation devices 9 and 10 are always in the on state, the ink ejected from the respective recording heads 5, 6, 7, and 8 Immediately after landing on the recording medium 99 by the ultraviolet irradiation device on the downstream side of the recording heads 5, 6, 7, and 8 with respect to the moving direction, the ultraviolet rays are irradiated and cured immediately. Further, since the carriage 11 is reciprocated, the ultraviolet rays are irradiated a plurality of times from the two ultraviolet irradiation devices 9 and 10 to the same portion, so that the ink is reliably fixed on the recording surface of the recording medium 99.

  Thereafter, the inkjet printer 1 repeats the above operations, and a desired image composed of a plurality of dots of each process color is sequentially recorded on the recording surface of the recording medium 99.

  Here, in the ink jet printer 1 of the first embodiment, the humidity sensor 13 detects the humidity in the vicinity of the recording medium 99 every predetermined period or at all times. The detected humidity is transmitted as information to the control unit 20, and the control of the control unit 20 that has received the information changes the driving state of the carriage driving mechanism 11a in accordance with the humidity near the recording medium 99, so that the carriage 11 moving speed is changed.

For example, a reference value for high humidity is determined in advance as a case where the absolute humidity is 0.02 g / g, and a reference value for low humidity is determined as a case where the absolute humidity is 0.012 g / g. When the detected humidity is not less than 0.012 g / g and not more than 0.02 g / g, the carriage 11 moves at a standard speed (for example, 300 mm / s). In addition, when the detected humidity is higher than 0.02 g / g, the ink is hard to be cured, so that the moving speed of the carriage 11 is slower than the standard speed by a predetermined amount (for example, 180 mm / s), and the ultraviolet irradiation device 9 and 10 increase the time for which the ink landed on the recording medium 99 is irradiated with ultraviolet rays by a predetermined time, and increase the amount of ultraviolet rays irradiated to the ink by a predetermined amount.
On the other hand, when the detected humidity is lower than 0.012 g / g, the ink is easily cured, so that the moving speed of the carriage 11 is faster than the standard speed by a predetermined amount (for example, 600 mm / s), and the ultraviolet irradiation device. 9 and 10 reduce the time for which the ink landed on the recording medium 99 is irradiated with ultraviolet rays by a predetermined time, and reduce the amount of ultraviolet rays irradiated to the ink by a predetermined amount.

In addition to the operation pattern in which the reference value of humidity is set in advance as described above, and the ambient humidity is higher or lower than the reference value, the movement speed of the carriage 11 is reduced or increased by a predetermined amount. The following operation pattern is also conceivable.
In other words, as the ambient humidity increases, the moving speed of the carriage 11 gradually decreases, and accordingly, the time for which the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays. Is a pattern that gradually increases the amount of ultraviolet light irradiated to the ink.
In other words, as the ambient humidity decreases, the moving speed of the carriage 11 gradually increases, whereby the ultraviolet irradiation devices 9 and 10 irradiate the ink landed on the recording medium 99 with ultraviolet rays. It can be said that this is a pattern in which the time is gradually shortened and the amount of ultraviolet light applied to the ink is gradually reduced.

  As the timing for changing the moving speed of the carriage 11 corresponding to the humidity detected by the humidity sensor 13, for example, when the humidity changes, the moving speed may be changed correspondingly during image recording. The moving speed may be determined at the start of image recording in accordance with the humidity at that time, and the moving speed may not be changed until the end of the image recording even if the humidity changes during image recording. .

As described above, according to the ink jet printer of the first embodiment, the humidity detection device that detects the ambient humidity, and the control unit that changes the moving speed of the carriage according to the humidity detected by the humidity detection device; Therefore, the amount of ultraviolet light applied to the ink landed on the recording medium can be changed from the ultraviolet irradiation device mounted on the carriage by changing the moving speed of the carriage according to the ambient humidity.
For example, if the ambient humidity is high, the ink is difficult to cure.In such a case, by controlling the carriage moving speed to be slow, ultraviolet rays are applied to the ink that has landed on the recording medium for a longer time. Irradiation can be performed, and the amount of ultraviolet light irradiated can be increased. As a result, ink curing failure can be prevented and normal image recording can be performed.
On the other hand, since the ink is easily cured when the ambient humidity is low, the amount of ultraviolet light necessary for ink curing may be small. In such a case, it is possible to record an image on the recording medium earlier by controlling the carriage moving speed to be faster and shortening the time for irradiating the ink landed on the recording medium with ultraviolet rays. As a result, productivity when recording an image on a recording medium can be improved.

[Second Embodiment]
Next, a second embodiment of the ink jet printer according to the present invention will be described with reference to FIGS. 3 and 4. The ink used in the second embodiment is the same as the ink used in the first embodiment, and a detailed description thereof will be omitted.
FIG. 3 is a diagram showing a schematic configuration of the ink jet printer according to the second embodiment of the present invention, and FIG. 4 is a control block diagram showing a main control configuration of the ink jet printer according to the second embodiment.

  As shown in FIG. 3, the ink jet printer 100 is a line-type ink jet printer, and includes a flat platen 102 that supports a non-recording surface on the back side of the recording surface of the recording medium 199. Conveying rollers 103a and 103b of the recording medium conveying mechanism 103 are disposed before and after the platen 102, respectively. The conveying rollers 103a and 103b are coupled by a conveying belt 103c and rotate in a predetermined direction around the axis before and after the platen 102, and the recording medium 199 is conveyed along with the rotation of the conveying rollers 103a and 103b. It is conveyed along the direction P.

  An image recording unit 104 that records an image on the recording surface of the recording medium 199 is disposed above the platen 102. The image recording unit 104 includes four line heads 105 that discharge yellow (Y), magenta (M), cyan (C), and black (K) process color inks toward the recording surface of the recording medium 199, respectively. , 106, 107, 108 are arranged from the upstream side to the downstream side in the conveyance direction P of the recording medium 199. Each of the line heads 105, 106, 107, 108 is a recording head that extends in a direction Q (hereinafter referred to as “orthogonal direction Q”) orthogonal to the transport direction P over substantially the entire width of the recording medium 199. A plurality of nozzles (not shown) for ejecting ink as droplets over substantially the entire width of the nozzles are arranged along the orthogonal direction Q so that ink can be ejected as fine droplets from each nozzle.

  Further, on the downstream side of each of the line heads 105, 106, 107, and 108 in the conveyance direction P of the recording medium 199, ultraviolet rays that irradiate ultraviolet rays onto ink that extends over the entire width of the recording medium 199 and landed on the recording medium 199. Irradiation devices 109, 110, 111, and 112 are provided, respectively. Each ultraviolet irradiation device 109, 110, 111, 112 is provided with an ultraviolet light source (not shown), and each ultraviolet irradiation device 109, 110, 111, 112 turns on the recording medium 199 by turning on the ultraviolet light source. Each of the recording surfaces can be irradiated with ultraviolet rays. As the ultraviolet light source, a high pressure mercury lamp, a low pressure mercury lamp, a metal halide lamp, a black light, a hot cathode tube, a cold cathode tube, an LED (Light Emitting Diode), or the like is applied. However, in the second embodiment, as shown in FIG. 3, the four ultraviolet irradiation devices 109 and 110 are arranged by arranging the ultraviolet irradiation devices immediately downstream of the respective line heads 105, 106, 107 and 108. , 111, 112 are used, but there may be a case where only the ultraviolet irradiation device 112 arranged on the most downstream side in the conveyance direction P of the recording medium 199 is provided.

  In addition, a humidity sensor 113 is provided at a predetermined position of the ink jet printer 100 as a humidity detection device that detects ambient humidity. In the second embodiment, the humidity sensor 113 is disposed at a position where the platen 102 does not contact the recording medium 199, and detects the humidity near the recording medium 199 every predetermined period or at all times. The detected humidity is transmitted as information to the control unit 120. The position at which the humidity sensor 113 is disposed is not limited to the platen 102 described above, and for example, the line heads 105, 106, 107, 108 and the ultraviolet irradiation devices 109, 110, 111, 112 are disposed. The humidity sensor 113 may be arranged at a predetermined position of the image recording unit 4.

Next, the control configuration in the second embodiment will be described with reference to FIG.
In the second embodiment, the inkjet printer 100 is provided with a control unit 120 that controls each drive unit as shown in FIG. The control unit 120 includes a CPU 121, a RAM 122, a ROM 123, and the like. The control unit 120 is connected to the recording medium transport mechanism 103, the line heads 105, 106, 107, and 108, and the ultraviolet irradiation via an interface (not shown). The devices 109, 110, 111, and 112, a humidity sensor 113 that detects humidity in the vicinity of the recording medium 199, and an input unit 114 that inputs an instruction at the time of image recording such as the type of the recording medium 199 are electrically connected. . In addition to the above, each drive unit of the inkjet printer 100 is connected to the control unit 120.

The control unit 120 controls the operation of the transport rollers 103a and 103b of the recording medium transport mechanism 103 so that the recording medium 199 is transported in the transport direction P.
The control unit 120 controls the ultraviolet irradiation devices 109, 110, 111, and 112 to generate ultraviolet rays.

  Further, the control unit 120 is connected to an input unit 114 and a line head 105, 106, 107, 108 including a host computer and scanner for inputting image information, a keyboard for inputting image recording conditions, and the like. Is configured to operate the line heads 105, 106, 107, and 108 based on a predetermined signal input from the input unit 114, and to eject a ink onto the recording medium 199 to record a predetermined image.

Further, the control unit 120 receives the humidity in the vicinity of the recording medium 199 detected by the humidity sensor 113 as information, and controls the recording medium conveyance mechanism 103 so as to change the conveyance speed of the recording medium 199 correspondingly. It is like that.
For example, when the ambient humidity is higher than a predetermined high humidity reference value (for example, when the absolute humidity is 0.02 g / g), the ink is difficult to cure, so the recording medium conveyance mechanism 103 is controlled. Thus, the conveyance speed of the recording medium 199 is set to a predetermined amount slower than the standard speed (for example, 150 mm / s) (for example, 90 mm / s). As a result, the time for the ultraviolet irradiation devices 109, 110, 111, and 112 to irradiate the ink landed on the recording medium 199 with ultraviolet light becomes longer, and the amount of ultraviolet light irradiated to the ink is increased. As a result, the ink can be reliably cured.
On the other hand, the ink is easily cured when the ambient humidity is lower than a predetermined low humidity reference value (for example, when the absolute humidity is 0.012 g / g). Is controlled so that the conveyance speed of the recording medium 199 is increased by a predetermined amount from the standard speed (for example, 300 mm / s). As a result, the time for the ultraviolet irradiation devices 109, 110, 111, and 112 to irradiate the ink landed on the recording medium 199 with the ultraviolet rays is shortened, and the amount of ultraviolet rays applied to the ink is reduced. As a result, an image can be recorded on the recording medium 199 earlier.
By performing such control, the ink can be irradiated with an ultraviolet light amount corresponding to the ambient humidity with simple control.
Note that the humidity reference value for changing the conveyance speed of the recording medium 199 may be set to an appropriate number of 1 or more as necessary.

In addition, when the ambient humidity is higher or lower than a predetermined reference value of humidity as described above, the recording medium transport mechanism 103 is controlled to decrease or increase the transport speed of the recording medium 199 by a predetermined amount. In addition to control, the following control is also conceivable.
That is, as the ambient humidity increases, the recording medium conveyance mechanism 103 is controlled to gradually decrease the conveyance speed of the recording medium 199. As a result, the time for which the ultraviolet irradiation devices 109, 110, 111, and 112 irradiate the ink that has landed on the recording medium 199 gradually increases the amount of ultraviolet light applied to the ink.
Further, as the ambient humidity decreases, the recording medium conveyance mechanism 103 is controlled to gradually increase the conveyance speed of the recording medium 199. As a result, the time for which the ultraviolet irradiation devices 109, 110, 111, and 112 irradiate the ink landed on the recording medium 199 with ultraviolet light is gradually shortened, and the amount of ultraviolet light applied to the ink is gradually reduced.

Next, the operation of the inkjet printer 100 in the second embodiment will be described.
When an operator sets the recording medium 199 in the ink jet printer 100 and the power of the ink jet printer 100 is turned on, the ultraviolet light source is turned on to irradiate ultraviolet rays toward the recording surface of the recording medium 199 on which the ink droplets land. To do.

When image information is sent from the input unit 114 to the control unit 120 of the inkjet printer 100 and setting information for various image recording conditions is sent, the control unit 120 starts image recording.
During the operation of the ink jet printer 100, the transport rollers 103 a and 103 b are operated and rotated, and the recording medium 199 is supported from the rear to the front along the transport direction P with the non-recording surface supported by the platen 102. Conveyed continuously.

  In this state, the four line heads 105, 106, 107, 108 eject ink as fine droplets from the nozzles toward the recording surface of the recording medium 199, respectively, and the ultraviolet irradiation units 109, 110, Since each of the ultraviolet light sources 111 and 112 is always lit, every time the recording medium 199 passes through each of the line heads 105, 106, 107 and 108, the recording surface of the recording medium 199 has Y, M, C , K inks land and immediately after the ink is irradiated with ultraviolet rays, the inks are immediately cured and fixed on the recording surface of the recording medium 199.

  Thereafter, the inkjet printer 100 repeats the above operations, and a desired image composed of a plurality of dots of each process color is sequentially recorded on the recording surface of the recording medium 199.

  Here, in the ink jet printer 100 of the second embodiment, the humidity in the vicinity of the recording medium 199 is detected every predetermined period or always by the humidity sensor 113 as in the first embodiment. The detected humidity is transmitted as information to the control unit 120, and the control state of the control unit 120 that has received the information changes the driving state of the recording medium transport mechanism 103 corresponding to the humidity near the recording medium 199. The conveyance speed of the recording medium 199 is changed.

For example, a reference value for high humidity is determined in advance as a case where the absolute humidity is 0.02 g / g, and a reference value for low humidity is determined as a case where the absolute humidity is 0.012 g / g. When the detected humidity is 0.012 g / g or more and 0.02 g / g or less, the recording medium 199 is conveyed at a standard speed (for example, 150 mm / s). In addition, when the detected humidity is higher than 0.02 g / g, the ink is hard to be cured. Therefore, the conveyance speed of the recording medium 199 is slower than the standard speed by a predetermined amount (for example, 90 mm / s), and ultraviolet irradiation is performed. The devices 109, 110, 111, and 112 increase the time for which the ink landed on the recording medium 199 is irradiated with ultraviolet rays by a predetermined time, and increase the amount of ultraviolet rays irradiated to the ink by a predetermined amount.
On the other hand, when the detected humidity is lower than 0.012 g / g, the ink is easily cured, so that the conveyance speed of the recording medium 199 is faster than the standard speed by a predetermined amount (for example, 300 mm / s), and ultraviolet irradiation is performed. The apparatus 109, 110, 111, 112 shortens the time for irradiating the ink landed on the recording medium 199 with ultraviolet light by a predetermined time, and decreases the amount of ultraviolet light irradiated to the ink by a predetermined amount.

In addition to an operation pattern in which a humidity reference value is set in advance as described above, and the ambient humidity is higher or lower than the reference value, the conveyance speed of the recording medium 199 is decreased or increased by a predetermined amount. The following operation pattern is also conceivable.
That is, as the ambient humidity increases, the conveyance speed of the recording medium 199 is gradually decreased. As a result, the ultraviolet irradiation devices 109, 110, 111, and 112 are applied to the ink that has landed on the recording medium 199. In this pattern, the time for irradiating ultraviolet rays is gradually increased, and the amount of ultraviolet rays irradiated to the ink is gradually increased.
In other words, as the ambient humidity decreases, the conveyance speed of the recording medium 199 gradually increases, so that the ink irradiated by the ultraviolet irradiation devices 109, 110, 111, and 112 on the recording medium 199 is increased. It can be said that the time for irradiating the ink with ultraviolet light is gradually shortened, and the amount of ultraviolet light with which the ink is irradiated is gradually reduced.

  The timing for changing the conveyance speed of the recording medium 199 corresponding to the humidity detected by the humidity sensor 113 is, for example, even if the conveyance speed is changed correspondingly during image recording when the humidity changes. Even if the conveyance speed is determined corresponding to the humidity at the start of image recording, and the humidity changes during the image recording, the conveyance speed is not changed until the image recording is completed. good.

As described above, according to the ink jet printer of the second embodiment, the humidity detection device that detects the ambient humidity, and the control unit that changes the conveyance speed of the recording medium according to the humidity detected by the humidity detection device. Therefore, the amount of ultraviolet light irradiated from the ultraviolet irradiation device to the ink landed on the recording medium can be changed by changing the conveyance speed of the recording medium according to the ambient humidity.
For example, if the ambient humidity is high, the ink is difficult to cure. In such a case, the ink that has landed on the recording medium for a longer period of time is controlled by reducing the conveyance speed of the recording medium. Can be irradiated, and the amount of irradiated ultraviolet light can be increased. As a result, ink curing failure can be prevented and normal image recording can be performed.
On the other hand, since the ink is easily cured when the ambient humidity is low, the amount of ultraviolet light necessary for ink curing may be small. In such a case, it is possible to record an image on the recording medium more quickly by controlling the conveyance speed of the recording medium to be high and shortening the time for irradiating the ink landed on the recording medium with ultraviolet rays. . As a result, productivity when recording an image on a recording medium can be improved.

  The present invention is not limited to the first embodiment and the second embodiment described above, and various improvements and design changes may be made without departing from the spirit of the present invention.

1 is a diagram illustrating a schematic configuration of an ink jet printer according to a first embodiment of the present invention. It is a control block diagram which shows the main control structures of the inkjet printer in 1st embodiment. It is a figure which shows schematic structure of the inkjet printer in 2nd embodiment. It is a control block diagram which shows the main control structures of the inkjet printer in 2nd embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,100 Inkjet printer 3,103 Recording medium conveyance mechanism 5, 6, 7, 8 Recording head 9, 10, 109, 110, 111, 112 Ultraviolet irradiation apparatus 11 Carriage 13, 113 Humidity detection apparatus 20, 120 Control part 99, 199 Recording medium 105, 106, 107, 108 Line head A, P Conveyance direction B Scanning direction Q Orthogonal direction

Claims (4)

A recording medium transport mechanism for transporting the recording medium in a predetermined transport direction;
A recording head for ejecting ink that is cured by irradiating ultraviolet rays onto the recording medium and an ultraviolet irradiating device that irradiates the ink that has landed on the recording medium with ultraviolet rays are mounted and moved in a scanning direction perpendicular to the transport direction. A free carriage,
An inkjet printer comprising:
A humidity detector that detects ambient humidity;
A controller that changes the moving speed of the carriage according to the humidity detected by the humidity detector;
An ink jet printer comprising: The inkjet printer according to claim 1, wherein
The controller is
An ink jet printer, wherein when the humidity detected by the humidity detection device is high humidity, control is performed so as to reduce a moving speed of the carriage. A recording medium transport mechanism for transporting the recording medium in a predetermined transport direction;
A line head that discharges ink that is cured by irradiating ultraviolet rays onto the recording medium;
An ultraviolet irradiation device for irradiating the ink landed on the recording medium with ultraviolet rays;
An inkjet printer comprising:
A humidity detector that detects ambient humidity;
A control unit that changes the conveyance speed of the recording medium according to the humidity detected by the humidity detection device;
An ink jet printer comprising: The inkjet printer according to claim 3.
The controller is
An ink jet printer that controls to reduce the conveyance speed of the recording medium when the humidity detected by the humidity detector is high.

Images