JP4696499B2 - Inkjet printer - Google Patents

Description

  The present invention relates to a photo-curing type ink jet printer, and relates to a process for selecting / determining recording conditions according to the glossiness and gloss difference of an image.

  Various printers such as ink jet printers, laser printers, thermal transfer printers and the like have been developed as recording terminals connected to word processors, personal computers, and the like. In particular, inkjet printers have become the mainstream printer because they have the advantages of being quieter in recording sound than other printers and capable of performing color-rich recording easily and inexpensively. An inkjet printer ejects ink as fine droplets to form an image with a large number of dots. However, in the inkjet printer, if each dot is uneven or the dot diameter is uneven, the image quality In order to improve the image quality, it is important to make each dot uniform.

  Patent Document 1 discloses a technique that can suppress color unevenness (density unevenness) between dots. Specifically, Patent Document 1 divides image data for one band into areas of a predetermined size, counts the number of dots in each area, predicts whether color unevenness occurs, and responds to the prediction result. Thus, either one-way printing or two-way printing is selected to suppress color unevenness between the dots (see paragraph numbers 0048 to 0061, FIGS. 7 and 8).

By the way, in recent years, a photo-curing type ink jet printer that applies a photo-curable ink as an ink and irradiates the ink with light to cure the ink has appeared. In a normal inkjet printer capable of recording a color image, recording heads capable of ejecting yellow (Y), magenta (M), cyan (C), and black (K) inks are arranged along the carriage scanning direction. However, in a photo-curing ink jet printer, light sources for ink curing are arranged outside both ends of the recording heads, and the carriage is moved while discharging ink from each recording head onto a recording medium during the recording operation. Reciprocal scanning is performed, and in each scanning of the carriage, the light source on the rear side of each recording head in the scanning direction is turned on, and the ink after landing on the recording medium is irradiated with light to record an image. That is, in a photo-curing inkjet printer, the ink is cured while switching the light source to be turned on according to the scanning direction of the carriage.
JP 2003-34021 A

  Here, the photo-curing type inkjet printer has a common problem with a normal inkjet printer in that it is an important issue to improve image quality to make each dot uniform. As described above, in the recording mode in which bidirectional printing is performed while switching the light source to be turned on, the image is uneven. That is, the numbers 1 to 4 are assigned to the recording heads that can eject Y, M, C, and K inks, and the light source is arranged outside the first and fourth recording heads. Assuming that the forward scanning is performed with the first recording head as the head, the ink ejected from the fourth recording head is immediately irradiated with light from the light source adjacent to the fourth recording head.

Conversely, in the backward scan starting with the 4th recording head, the ink ejected from the 4th recording head is a little later than the ink ejected from the 1st to 3rd recording heads. After receiving the light from the light source adjacent to the first recording head. For this reason, with respect to the ink ejected from the fourth recording head, the time from landing on the recording medium until receiving light irradiation differs greatly between the forward scanning and the backward scanning. The image is uneven. This phenomenon is caused by a time lag in the ink curing time between the dots, and is considered to be caused by the ink curing in a state where the dot diameters of the inks landed on the recording medium are different.
An object of the present invention is to suppress unevenness of an image due to a time lag of ink curing time.

In order to solve the above problems, an ink jet printer according to a first aspect of the present invention provides:
A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A control device connected to the recording head, the light source and the carriage;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form Is selected and determined, and when it is determined that both the calculated glossiness and gloss difference are within the threshold range, a recording form for bidirectional printing is selected and determined .

An ink jet printer according to a second aspect of the present invention includes:
A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A control device connected to the recording head, the light source, the carriage, and the heating element;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. The heating element is caused to generate heat at a temperature .

An ink jet printer according to a third aspect of the present invention includes:
A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A control device connected to the recording head, the light source and the carriage;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. Light is emitted from the light source with illuminance .

In the inkjet printer according to the first to third aspect of the present invention,
The control device is
Maximum both calculated gloss and gloss difference upon determination of whether whether it is within a predetermined threshold range, and the minimum value Gl the calculated gloss, a value obtained by adding a gloss difference calculated with respect to the calculated glossiness When the minimum value Gl and the maximum value Gh satisfy both conditions of the following formulas (1) and (2), assuming that the value is Gh, at least one of the calculated glossiness and gloss difference is outside the threshold range. It is characterized by judging that.
Gl ≦ 20 (1)
Gh> Gl × 1.4 (2)

In the inkjet printer according to the first to third aspect of the present invention,
The control device is
Maximum both calculated gloss and gloss difference upon determination of whether whether it is within a predetermined threshold range, and the minimum value Gl the calculated gloss, a value obtained by adding a gloss difference calculated with respect to the calculated glossiness When the minimum value Gl and the maximum value Gh satisfy both conditions of the following formulas (3) and (4), assuming that the value is Gh, at least one of the calculated glossiness and gloss difference is out of the threshold value range. It is characterized by judging that.
Gl> 20 (3)
Gh> Gl × 1.8-8 (4)

In the inkjet printer according to the first to third aspect of the present invention,
The control device is
As a reference for determining whether or not both the calculated gloss level and gloss difference are within the threshold range, the number of times the carriage is scanned to cure the ink that has landed on the recording medium to a desired hardness is determined. It is characterized by determining whether or not it is once.

In the inkjet printer according to the first to third aspect of the present invention,
The ink is a cationic polymerization type ink that is cured by irradiation with ultraviolet rays,
The light source emits ultraviolet rays as the light.

In the ink jet printer according to the first aspect of the present invention, when the unevenness of the image is likely to occur due to the time lag of the curing time of the ink from the calculation result of the glossiness and the gloss difference of the image, the recording condition for the unidirectional printing is set. It is possible to select / determine and irradiate the ink with light under the same conditions every time the carriage scans. Thereby, the time lag of the curing time of ink can be relieved and the unevenness of the image resulting from it can be suppressed.

Specifically, if unevenness of the image is likely to occur from the calculation results of the glossiness and gloss difference of the image, the recording conditions for unidirectional printing are selected and determined, and light is applied to the ink under the same conditions for each carriage scan. On the other hand, when the unevenness of the image is likely to be within the allowable range, the bidirectional printing can be selected and determined, and the image recording can be performed without reducing the image recording amount per unit time.

In the ink jet printer according to the second aspect of the present invention, when the unevenness of the image is likely to occur due to the time lag of the curing time of the ink from the calculation result of the glossiness and the gloss difference of the image, the temperature corresponding to the calculation result Thus, the heating element generates heat, and the dot diameter difference due to the time lag of the ink curing time can be compensated for by different temperatures, and unevenness of the image due to it can be suppressed.

Specifically, when at least one of the calculated glossiness and gloss difference is outside the threshold range and image unevenness is likely to occur due to the time lag of the ink curing time, the heating element generates heat at a temperature lower than a predetermined specified value. Thus, the dot diameter difference due to the time lag of the ink curing time can be compensated for by the temperature decrease.

In the ink jet printer according to the third aspect of the present invention, when the unevenness of the image is likely to occur due to the time lag of the ink curing time from the calculation result of the glossiness and gloss difference of the image, the illuminance corresponding to the calculation result Thus, the light source can irradiate light and the dot diameter difference due to the time lag of the ink curing time can be compensated for by changing the illuminance, and unevenness of the image due to it can be suppressed.

Specifically, when at least one of the calculated glossiness and gloss difference is outside the threshold range and image unevenness is likely to occur due to the time lag of the ink curing time, the light source emits light at an illuminance lower than a predetermined specified value. Thus, the dot diameter difference due to the time lag of the ink curing time can be compensated by the decrease in illuminance.

In the ink jet printer according to the first to third aspects of the present invention, when the light source irradiates the ink with ultraviolet rays, the ink can be cured immediately.

  The best mode for carrying out the present invention will be described below with reference to the drawings. However, the scope of the invention is not limited to the illustrated examples.

[First Embodiment]
FIG. 1 is a plan view showing a schematic configuration of the ink jet printer 1.
As shown in FIG. 1, an inkjet printer 1 according to the present invention has a platen 2 that is rectangular and has a flat plate shape, and the platen 2 supports a recording medium 3. The platen 2 is provided with a heater 4 as a heating element that generates heat to heat the recording medium 3. Conveying rollers 5 and 6 are respectively arranged before and after the platen 2 so that the conveying rollers 5 and 6 rotate in a predetermined direction and convey the recording medium 3 along the conveying direction A from the rear to the front. It has become.

  Above the platen 2 (the front side of the paper surface in FIG. 1), a carriage 10 that is movable along a scanning direction B orthogonal to the transport direction A is disposed. Mounted on the carriage 10 are four recording heads 11 to 14 that discharge ink of each color of yellow (Y), magenta (M), cyan (C), and black (K) toward the recording medium 3. Light sources 15 and 16 for irradiating ultraviolet rays as light toward the recording medium 3 are respectively arranged on the left and right sides of the recording heads 11 to 14 of the carriage 10. Each of the light sources 15 and 16 is for irradiating the ink landed on the recording medium 3 with the ink ejected from the recording heads 11 to 14 and curing the ink.

  An illuminance sensor 20 that detects the illuminance of ultraviolet rays emitted from the light sources 15 and 16 is disposed in the vicinity of the platen 2 and under the movement trajectory of the carriage 10. A temperature / humidity sensor 21 for detecting the temperature and humidity around the image recording area on the recording medium 3 according to 11 to 14 is disposed.

FIG. 2 is a block diagram showing a schematic circuit configuration of the inkjet printer 1.
The control device 30 controls each operation in the ink jet printer 1 in a state of being built in the ink jet printer 1, and includes a general-purpose CPU (Central Processing Unit), RAM (Random Access Memory), ROM (Read Only Memory), and the like. It has the control part 31 comprised from these. The control unit 31 develops a control program recorded in the ROM on the RAM and executes the processing program by the CPU.

  As shown in FIG. 2, the control unit 31 is connected to the heater 4, the transport rollers 5, 6, the carriage 10, the recording heads 11 to 14, and the light sources 15 and 16. The operation of each component is controlled based on the operation status of these members. In particular, the illuminance sensor 20 and the temperature / humidity sensor 21 are connected to the control unit 31, and the control unit 31 selects and determines a recording condition during image recording based on detection results of the illuminance sensor 20 and the temperature / humidity sensor 21. (See below).

  The control unit 31 controls the selection / determination of each item in the recording mode (recording form (front printing or reverse printing), ink lot, type of recording medium 3, scanning speed of the carriage 10, etc.). Is connected to the control unit 31, and the control unit 31 can recognize each item in the recording mode by operating the operation panel 40 by the user.

Here, in addition to the control program, each data table shown in FIGS. 3 to 5 is stored in the ROM of the control unit 31. The first data table shown in FIG. 3 includes an ink lot (Lot (manufacturing time)), the type of the recording medium 3, the scanning speed of the carriage 10 (mm / sec), temperature (° C.), humidity (%), The number of required curing scans corresponding to each element of the illuminance (mJ / cm ² ) of the light sources 15 and 16 is shown, and each element is a factor for calculating and determining the required number of curing scans. In the first data table, the “number of times required for curing” is recorded for each scan with one movement of the carriage 10 from the left to the right in FIG. 1 (or one movement in the opposite direction) as one scan. The number of scans of the carriage 10 necessary to cure the ink ejected from the heads 11 to 14 to a desired hardness is shown.

The second data table shown in FIG. 4 includes the lot of ink, the type of the recording medium 3, the scanning speed of the carriage 10 (mm / sec), the temperature (° C.), the humidity (%), and the illuminance ( The temperature adjustment value and the illuminance adjustment value corresponding to each element of mJ / cm ² ) are shown, and each element is a factor for calculating and determining the temperature adjustment value and the illuminance adjustment value. In the second data table, “temperature adjustment value” indicates a temperature value optimum for image recording as a temperature at which the recording medium 3 during image recording should be held when unevenness is likely to occur in the image. The “illuminance adjustment value” indicates the optimum illuminance value for image recording as the illuminance of ultraviolet rays to be applied to the ink during image recording when unevenness in the image is likely to occur.

The third data table shown in FIG. 5 includes the lot of ink, the type of the recording medium 3, the scanning speed of the carriage 10 (mm / sec), the temperature (° C.), the humidity (%), and the illuminance ( The glossiness and gloss difference corresponding to each element of mJ / cm ² ) are shown, and these elements are factors for predicting and calculating the glossiness and gloss difference. In the third data table, “glossiness” is a value that quantitatively indicates the degree (degree) of glossiness of dots in an image, and specifically, measurement of 60 ° specular glossiness as shown in JIS-Z-8741. (The glossiness can be measured using, for example, a variable angle glossiness meter VGS-1001DP manufactured by Nippon Denshoku Industries Co., Ltd.), and “gloss difference” is the maximum and minimum values of the glossiness. It is a value indicating the difference from the value.

  The values in the first to third data tables shown in FIGS. 3 to 5 correspond to changes in temperature and humidity values, but this is just a part of the data table. In the actual first to third data tables, each element of the ink lot, the type of the recording medium 3, the scanning speed of the carriage 10, the temperature, the humidity, and the illuminance of each of the light sources 15, 16 is shown. The number of required curing scans, temperature adjustment value, illuminance adjustment value, glossiness, and gloss difference corresponding to the change in the are listed.

  The “glossiness” and “gloss difference” in the third data table are the ink lot, the type of the recording medium 3, the scanning speed of the carriage 10, the temperature (° C.), the humidity (%), the light sources 15, The measurement values are accumulated in advance corresponding to each element (each condition) of 16 illuminances, and are predetermined values.

As an example, an ink jet printer having the same configuration as that of the ink jet printer 1 is applied, and an image corresponding to one reciprocating scan of the carriage is recorded with the ink jet printer under a predetermined recording condition. The above three types, the scanning speed of the carriage 10 (mm / sec), the temperature (° C.), the humidity (%), and the illuminance (mJ / cm ² ) of the light sources 15 and 16 are appropriately changed and the same as described above. A third data table can be created by recording an image.

Next, “ink” used in the first embodiment will be described.
As the ink used in the first embodiment, in particular, the “photocuring system” described in “Photocuring technology—selection of resin / initiator and blending conditions and measurement / evaluation of degree of curing— (Technical Association information)”. (Chapter 4) "" Curing system using photoacid / base generator (Section 1) "," Photo-induced alternating copolymerization (Section 2) ", etc. are applicable. You may harden | cure by normal radical polymerization.

  Specifically, the ink used in the first embodiment is a photocurable ink having a property of being cured by irradiation with ultraviolet rays as light, and a polymerizable compound (known polymerizable property) as a main component. Compound), a photoinitiator, and a coloring material, and the monomer compound is converted into a polymer compound and cured by irradiation with ultraviolet rays. However, as the ink used in the first embodiment, the photo-initiator may be excluded when an ink that conforms to the “light-induced alternating copolymerization (section 2)” is used.

  The photocurable inks are roughly classified into radical polymerization inks containing a radical polymerizable compound and cationic polymerization inks containing a cationic polymerizable compound as polymerizable compounds. Each of the inks can be applied as an ink used in this embodiment, and a hybrid ink in which a radical polymerization ink and a cation polymerization ink are combined may be applied as an ink used in the first embodiment.

Next, the “recording medium 3” used in the first embodiment will be described.
Examples of the recording medium 3 used in the first embodiment include various recording papers such as plain paper, recycled paper, and glossy paper that are applied to ordinary inkjet printers, various fabrics, various nonwoven fabrics, resins, metals, glass, and the like. A recording medium made of a material is applicable. As a form of the recording medium 3, a roll shape, a cut sheet shape, a plate shape, or the like is applicable. In the first embodiment, the recording medium 3 is a long and transparent resin film wound in a roll shape.

  Next, the image recording operation of the inkjet printer 1 and the operation at that time will be described.

  First, in a state before the inkjet printer 1 starts image recording, the control unit 31 (CPU) of the control device 30 performs the following “recording condition selection / determination process”. The “recording condition” here refers to a recording form of front or back printing, a recording form of unidirectional printing or bidirectional printing, a heat generation temperature of the heater 4, illuminance of the light sources 15 and 16, and the like. The recording condition selection / determination process is a process for selecting / determining each recording condition during image recording.

FIG. 6 is a flowchart showing each step of the recording condition selection / determination process over time.
When the user operates the operation panel 40 to input each item in the recording mode (recording form (front printing or reverse printing), ink lot, type of the recording medium 3, scanning speed of the carriage 10, etc.) to the control unit 31. As shown in FIG. 6, the control unit 31 recognizes the recording form selected by the user and determines whether one recording condition during image recording is front printing or back printing (step S1). “Front printing” refers to a recording form in which the surface of the recording medium 3 on which ink has landed is the surface of the image, and “back printing” refers to ink landing on both the front and back surfaces of the recording medium 3. A recording form in which the surface is the back surface of the image and the opposite surface (the surface on which ink is not landed) is the surface of the image.

  If it is determined in step S1 that the recording mode selected by the user is reverse printing (step S1; NO), the “bidirectional printing” recording mode is selected and determined as one recording condition during image recording ( Step S2), the recording condition selection / determination process is terminated. On the other hand, if it is determined in the process of step S1 that the recording form selected by the user is front printing (step S1; YES), the lot of ink selected by the user, the type of the recording medium 3, and the scanning speed of the carriage 10 Are recognized (step S3).

  When the process of step S3 is completed, the temperature and humidity sensor 21 is operated to measure the temperature and humidity around the image recording site (step S4). When the process of step S4 is completed, the illuminance sensor 20 is activated and the illuminance of each of the light sources 15 and 16 is measured (step S5).

  When the processing of step S5 is completed, the recognized ink lot, the recognized type of the recording medium 3, the recognized scanning speed of the carriage 10, and the measured temperature using the first data table shown in FIG. The number of required curing scans is calculated from the measured humidity and measured illuminance factors, and it is determined whether the number of required curing scans is one (step S6).

  If it is determined in the process of step S6 that the required number of curing scans is 2 or more (step S6; NO), the process of step S2 is performed, and the recording condition selection / determination process is terminated. For example, in the first data table shown in FIG. 3, the ink is “A”, the recording medium 3 is “resin film”, the scanning speed is “400”, the temperature is “20”, and the humidity is “80”. If the illuminance is “100”, the number of times of curing scanning is calculated as “3 times”, the process of step S2 is performed, and the recording condition selection / determination process is terminated.

  On the other hand, if it is determined in the process of step S6 that the required number of scans is one (step S6; YES), the recognized lot of ink and the recognized ink lot are identified using the second data table shown in FIG. The temperature adjustment value and the illuminance adjustment value corresponding to the factors of the type of the recording medium 3, the scanning speed of the recognized carriage 10, the measured temperature, the measured humidity, and the measured illuminance are calculated (step S7). ).

  When the processing of step S7 is completed, the heater 4 is caused to generate heat at a temperature adjustment value lower than a predetermined temperature regulation value while operating the temperature / humidity sensor 21 as one recording condition during image recording after the recording condition selection / determination process. In addition to performing the process, a process of turning on each of the light sources 15 and 16 with an illuminance adjustment value lower than a predetermined illuminance regulation value while operating the illuminance sensor 20 is performed (step S8). The “predetermined temperature regulation value” is a set value that is set in advance before image recording as a temperature at which the recording medium 3 is to be heated and kept warm during image recording, and is stored in the ROM or RAM of the control unit 31. Yes. On the other hand, the “predetermined illuminance prescribed value” is a setting value set in advance before image recording as the illuminance of ultraviolet rays to be applied to the ink on the recording medium 3 during image recording. Stored in RAM.

For example, in the second data table shown in FIG. 4, the ink is “A”, the recording medium 3 is “resin film”, the scanning speed is “400”, the temperature is “20”, and the humidity is “60”. If the illuminance is “100”, the temperature specified value (default) is “45 (° C.)”, and the illuminance specified value (default) is “100 (mJ / cm ² )”, the temperature adjustment value is set to “30”. And the illuminance adjustment value is calculated as “75”, and as a recording condition during image recording, the temperature is detected by the temperature / humidity sensor 21, and the heater 4 generates heat near 30 ° C. based on the detection result. At the same time, while the illuminance sensor 20 detects the illuminance, the light sources 15 and 16 are turned on at an illuminance of 75 mJ / cm ² based on the detection result.

  In the processes of steps S7 and S8, only the temperature adjustment value may be calculated and the heat generation temperature of the heater 4 may be lowered from the predetermined temperature regulation value to the temperature adjustment value. It is good also as what calculates and reduces the illumination intensity of each light source 15 and 16 from the predetermined illumination intensity regulation value to the said illumination intensity adjustment value.

  When the processing of step S8 is completed, the recognized ink lot, the recognized type of the recording medium 3, the recognized scanning speed of the carriage 10, and the measured temperature are used using the third data table shown in FIG. , Calculated glossiness and gloss difference corresponding to each factor of measured humidity and measured illuminance, respectively, and determines whether both glossiness and gloss difference are within the threshold range (step S9).

  If it is determined in the process of step S9 that both the gloss level and the gloss difference are within the predetermined threshold range (step S9; YES), the process of step S2 is performed, and the recording condition selection / determination process ends.

In the process of step S9, in determining whether both the gloss level and the gloss difference are within a predetermined threshold range, the gloss level calculated from the third data table in FIG. A value obtained by adding the gloss difference calculated from the third data table of FIG. 5 to the minimum value Gl is assumed to be a “maximum value Gh”, and at least one of the minimum value Gl and the maximum value Gh is represented by the following formula (1) and When the condition of Expression (2) is not satisfied, it is determined that both the gloss level and the gloss difference are within a predetermined threshold range. In other words, when both the minimum value Gl and the maximum value Gh satisfy both conditions of the following formulas (1) and (2), both the glossiness and the gloss difference are not within the predetermined threshold range. (At least one of the gloss level and the gloss difference is outside a predetermined threshold range).
Gl ≦ 20 (1)
Gh> Gl × 1.4 (2)

The conditions represented by the above formulas (1) and (2) are stored in the ROM or RAM of the control unit 31 in a preset state before image recording.
Moreover, you may replace the conditions shown by said Formula (1) and Formula (2) with the conditions shown by following formula (3) and (4).
Gl> 20 (3)
Gh> Gl × 1.8-8 (4)

  Regarding the processing in step S9, for example, in the third data table shown in FIG. 5, the ink is “A”, the recording medium 3 is “resin film”, the scanning speed is “400”, and the temperature is “25”. If the humidity is “20” and the illuminance is “100”, the glossiness and the gloss difference are calculated as “27” and “14”, respectively, and the minimum value Gl is set to “27” from the calculation results, and the maximum value. Assuming that Gh is “41 (= 27 + 14)”, the assumed result is compared with the above formula (1) and formula (2). Here, since the minimum value Gl (= 27) does not satisfy the condition of Expression (1), the process of step S2 is performed, and the recording condition selection / determination process is terminated.

  On the other hand, if it is determined in step S9 that at least one of the glossiness and the gloss difference is outside the predetermined threshold range (step S9; NO), that is, the minimum value Gl and the maximum value assumed from the glossiness and the gloss difference. When both Gh satisfy both conditions of the above formulas (1) and (2), the recording mode of “one-way printing” is selected and determined as one recording condition during image recording (step S10), and recording is performed. The condition selection / determination process is terminated. For example, in the third data table shown in FIG. 5, the ink is “A”, the recording medium 3 is “resin film”, the scanning speed is “400”, the temperature is “20”, and the humidity is “60”. If the illuminance is “100”, the glossiness and gloss difference are calculated as “15” and “8”, respectively, and the minimum value Gl is set to “15” and the maximum value Gh is set to “23 (= 15 + 8) ”, and the assumed result is compared with the above formula (1) and formula (2). Here, since the minimum value Gl (= 15) and the maximum value (= 23) satisfy both the expressions (1) and (2), the process of step S10 is performed, and the recording condition selection / determination process ends. .

  When the recording condition selection / determination process is completed, the inkjet printer 1 starts image recording under the recording condition selected in the recording condition selection / determination process. That is, when image recording is started, each of the transport rollers 5 and 6 repeats a predetermined amount of rotation and stop, and intermittently along the transport direction A on the platen 2 with the recording medium 3 supported by the platen 2. Move on.

  Here, in the recording condition selection / determination process, when the control unit 31 selects / determines the recording form of “one-way printing” as one recording form during image recording, each time the transport rollers 5 and 6 are stopped. Further, when the carriage 10 is actuated to move from the left end in FIG. 1 to the right end in FIG. 1 along the scanning direction B and reach the right end in FIG. The original position returns to the left position in FIG. At this time, the four recording heads 11 to 14 and the two light sources 15 and 16 mounted on the carriage 10 also move along the scanning direction B immediately above the recording medium 3 following the movement of the carriage 10. (In the following, in order to make the scanning direction B of the carriage 10 easy to understand, the movement of the carriage 10 from the left to the right in FIG. 1 is called “forward movement”, and the movement of the carriage 10 in the opposite direction is referred to as “forward movement”. This is called “return”.)

  During the forward movement of the carriage 10, the recording heads 11 to 14 eject ink toward the recording medium 33, and the recording heads 11 to 14 in the scanning direction B of the carriage 10 out of the light sources 15 and 16. The rear light source 16 is turned on. When the light source 16 is turned on, the ink immediately after landing on the recording medium 3 is irradiated with ultraviolet rays, and the ink is cured and fixed on the recording medium 3. On the other hand, during the backward movement of the carriage 10, the recording heads 11 to 14 do not eject ink, and return to the left position in FIG. Thereafter, the ink jet printer 1 repeats the above operation to record an image on the recording medium 3.

  On the other hand, when the control unit 31 selects / determines the recording form of “bidirectional printing” as one recording condition during image recording, each of the recording heads 11 to 14 is capable of being recorded on the recording medium 3 even while the carriage 10 is moving backward. In addition, the light source 15 on the rear side of the recording heads 11 to 14 in the scanning direction B of the carriage 10 is turned on among the light sources 15 and 16, and the control unit 31 performs “one-way printing”. The same operation as that in the case of selecting / determining the recording format “is performed. That is, when the control unit 31 selects / determines the “bidirectional printing” recording mode, the recording heads 11 to 14 eject ink during both forward and backward movements of the carriage 10. In addition, the light source 15 or the light source 16 behind the recording heads 11 to 14 in the moving direction is turned on.

  In the first embodiment described above, in the recording condition selection / determination process, the control unit 31 of the control device 30 calculates the glossiness and the gloss difference in the processes of steps S9 and S10, and at least the glossiness and the gloss difference are calculated. If it is determined that one of the values is outside the predetermined threshold range, it is predicted that unevenness will occur in the image, and the recording mode for unidirectional printing is selected and determined as one recording condition during image recording. In this case, during image recording, the ink is irradiated with ultraviolet rays under the same conditions (irradiation timing) every time the carriage 10 is scanned, and therefore the ink curing time of Y, M, C, and K of different colors is different. The time lag can be alleviated, and image unevenness due to the time lag of the ink curing time can be suppressed.

  On the other hand, in the recording condition selection / determination process, the control unit 31 of the control device 30 calculates the glossiness and the gloss difference in the processes of steps S9 and S2, respectively, and both the glossiness and the gloss difference are within a predetermined threshold range. If it is determined that there is unevenness in the image, it is predicted that the unevenness is within an allowable range, and the recording form of bidirectional printing is selected and determined as one recording condition during image recording. . In this case, during image recording, ink is ejected from the recording heads 11 to 14 during both forward and backward movements of the carriage 10, and an image is recorded without reducing the image recording amount per unit time. Can do.

  In the first embodiment, examples of applicable inks include photo-curing inks (including radical polymerization inks, cationic polymerization inks, and hybrid inks) that are cured by irradiation with ultraviolet rays. The ink used in the first embodiment is not necessarily limited to this, and may be cured by irradiation with light other than ultraviolet rays. Here, “light” is light in a broad sense and includes electromagnetic waves such as ultraviolet rays, electron beams, X-rays, visible rays, and infrared rays. That is, the ink used in the first embodiment includes a polymerizable compound that is polymerized and cured with light other than ultraviolet light, and a photoinitiator that initiates a polymerization reaction between the polymerizable compounds with light other than ultraviolet light. May be applied. In the case where a photocurable ink that is cured by light other than ultraviolet light is used as the ink used in the first embodiment, a light source capable of irradiating light other than ultraviolet light instead of the light sources 15 and 16 shown in FIG. Must be applied.

[Second Embodiment]
The inkjet printer 1 according to the second embodiment performs a recording condition selection / determination process that is slightly different from the recording condition selection / determination process described in the first embodiment. The operation and action are all the same as in the first embodiment.
Hereinafter, the difference between the inkjet printer 1 according to the second embodiment and that according to the first embodiment will be described.

FIG. 7 is a flowchart showing each step of the recording condition selection / determination process in the second embodiment over time.
In the recording condition selection / determination process, the control unit 31 sequentially performs the processes of steps S1 to S6 as shown in FIG.

  If it is determined in the process of step S6 that the required number of curing scans is 2 or more (step S6; NO), the process of step S2 is performed, and the recording condition selection / determination process is terminated. On the other hand, if it is determined in the process of step S6 that the number of required curing scans is one (step S6; YES), the same process as in step S9 is performed using the third data table shown in FIG. S20).

  If it is determined in the process of step S20 that both the gloss level and the gloss difference are within a predetermined threshold range (step S20; YES), the process of step S2 is performed, and the recording condition selection / determination process ends. On the other hand, if it is determined in the process of step S20 that at least one of the glossiness and the gloss difference is outside the predetermined threshold range (step S20; NO), the second data table shown in FIG. Each process similar to S8 is performed (steps S21 and S22), the process of step S2 is performed, and the recording condition selection / determination process is terminated.

  In the recording condition selection / determination process according to the second embodiment, the process of step S6 need not be provided. In this case, after the process of step S5 is completed, the process of step S20 may be performed as it is.

  When the recording condition selection / determination process is completed, the inkjet printer 1 starts image recording under the recording condition selected / determined by the recording condition selection / determination process.

  In the second embodiment described above, in the recording condition selection / determination process, the control unit 31 of the control device 30 calculates the glossiness and the gloss difference in steps S20 to S22, and at least the glossiness and the gloss difference are calculated. If it is determined that one of them is outside the predetermined threshold range, the image is unevenly predicted, and the heat generation temperature of the heater 4 and the illuminance of the light sources 15 and 16 are controlled. In this case, during image recording, the recording conditions are such that the glossiness and gloss difference of the image are kept within a predetermined threshold range, and the image recording can be performed in a state where the time lag of the ink curing time is compensated. Thereby, the unevenness of the image due to the time lag of the ink curing time can be suppressed.

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

  For example, instead of calculating the required scanning speed, temperature adjustment value, illuminance adjustment value, glossiness, and gloss difference from all the factors in the first to third data tables shown in FIGS. The value may be calculated from at least one of the plurality of factors. That is, these calculated values may be calculated from only one factor, or may be calculated from two or more factors.

1 is a plan view illustrating a schematic configuration of an inkjet printer 1. 1 is a block diagram illustrating a schematic circuit configuration of an inkjet printer. It is drawing which shows an example of a 1st data table. It is drawing which shows an example of a 2nd data table. It is drawing which shows an example of a 3rd data table. 6 is a flowchart showing each step of recording condition selection / determination processing in the first embodiment over time. It is a flowchart which shows each process of the recording condition selection / decision process in 2nd Embodiment over time.

Explanation of symbols

1 Inkjet printer 2 Platen 3 Recording medium 4 Heater (heating element)
5, 6 Carrying roller 10 Carriage 11-14 Recording head 15, 16 Light source 20 Illuminance sensor 21 Temperature / humidity sensor 30 Control device 31 Control unit 40 Operation panel

Claims (28)

A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A control device connected to the recording head, the light source and the carriage;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range . A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the temperature sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium and the scanning speed of the carriage, receiving the temperature detection result by the temperature sensor, and the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the humidity sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor, the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, and the illuminance sensor;
With
The control device includes a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the detection result of the illuminance of the light source by the illuminance sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the temperature and humidity sensor;
With
The control device has a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the humidity are associated with the corresponding glossiness and gloss difference. Stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the temperature and humidity detection results by the temperature and humidity sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the temperature sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the temperature detection result by the temperature sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the humidity sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the temperature and humidity sensor, and the illuminance sensor;
With
The control device associates the ink lot, the type of the recording medium, the scanning speed of the carriage, temperature, humidity, and the illuminance of the light source with the corresponding glossiness and gloss difference. Stored data table,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the detection result of the temperature and humidity by the temperature and humidity sensor and the detection result of the illuminance of the light source by the illuminance sensor. Calculating the glossiness and gloss difference of the image corresponding to at least one factor from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A control device connected to the recording head, the light source, the carriage, and the heating element;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer , wherein the heat generating element generates heat at a temperature . A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, the heating element, and the temperature sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium and the scanning speed of the carriage, receiving the temperature detection result by the temperature sensor, and the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
A control device connected to the recording head, the light source, the carriage, the heating element, and the humidity sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor, the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the heating element, and the illuminance sensor;
With
The control device includes a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the detection result of the illuminance of the light source by the illuminance sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, the heating element, and the temperature and humidity sensor;
With
The control device has a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the humidity are associated with the corresponding glossiness and gloss difference. Stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the temperature and humidity detection results by the temperature and humidity sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the heating element , the temperature sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the temperature detection result by the temperature sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the heating element , the humidity sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A heating element that generates heat to heat the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the heating element , the temperature / humidity sensor, and the illuminance sensor;
With
The control device associates the ink lot, the type of the recording medium, the scanning speed of the carriage, temperature, humidity, and the illuminance of the light source with the corresponding glossiness and gloss difference. Stored data table,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the detection result of the temperature and humidity by the temperature and humidity sensor and the detection result of the illuminance of the light source by the illuminance sensor. Calculating the glossiness and gloss difference of the image corresponding to at least one factor from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer, wherein the heat generating element generates heat at a temperature. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A control device connected to the recording head, the light source and the carriage;
With
The control device stores a data table in which each factor of the ink lot, the type of the recording medium, the scanning speed of the carriage, and the corresponding glossiness and gloss difference are associated,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium and the scanning speed of the carriage, and calculating the glossiness and gloss difference of the image corresponding to at least one of these factors from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, it is lower than a predetermined specified value. An ink jet printer characterized by irradiating light from the light source with illuminance . A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the temperature sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium and the scanning speed of the carriage, receiving the temperature detection result by the temperature sensor, and the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the humidity sensor;
With
The control device stores a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, and the corresponding glossiness and gloss difference are associated with each other. ,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor, the glossiness and gloss difference of the image corresponding to at least one of these factors Is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, and the illuminance sensor;
With
The control device includes a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the detection result of the illuminance of the light source by the illuminance sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
A control device connected to the recording head, the light source, the carriage, and the temperature and humidity sensor;
With
The control device has a data table in which the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, and the humidity are associated with the corresponding glossiness and gloss difference. Stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of recording medium, and the scanning speed of the carriage, and receiving the temperature and humidity detection results by the temperature and humidity sensor, the glossiness of the image corresponding to at least one of these factors And the gloss difference is calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature sensor for detecting the temperature around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the temperature sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the temperature, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the temperature detection result by the temperature sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A humidity sensor for detecting the humidity around the image recording region of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the humidity sensor, and the illuminance sensor;
With
In the control device, the ink lot, the type of the recording medium, the scanning speed of the carriage, the humidity, the illuminance of the light source, and the corresponding glossiness and gloss difference are associated with each other. Data table is stored,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the humidity detection result by the humidity sensor and the light source illuminance detection result by the illuminance sensor, at least one of these factors The glossiness and gloss difference of the image corresponding to the two factors are calculated from the data table,
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. A recording head that discharges photocurable ink onto a recording medium;
A light source for irradiating the ink landed on the recording medium with light;
A carriage for scanning the recording head and the light source on the recording medium;
A temperature and humidity sensor for detecting the temperature and humidity around the image recording portion of the recording medium;
An illuminance sensor for detecting the illuminance of the light source;
A control device connected to the recording head, the light source, the carriage, the temperature and humidity sensor, and the illuminance sensor;
With
The control device associates the ink lot, the type of the recording medium, the scanning speed of the carriage, temperature, humidity, and the illuminance of the light source with the corresponding glossiness and gloss difference. Stored data table,
Before image recording performed by the carriage scanning the recording head and the light source,
The control device is
Recognizing the lot of ink, the type of the recording medium, and the scanning speed of the carriage, and receiving the detection result of the temperature and humidity by the temperature and humidity sensor and the detection result of the illuminance of the light source by the illuminance sensor. Calculating the glossiness and gloss difference of the image corresponding to at least one factor from the data table;
It is determined whether or not both the calculated glossiness and gloss difference are within a predetermined threshold range, and if it is determined that at least one of the calculated glossiness and gloss difference is outside the threshold range, a one-way printing recording form An ink jet printer that selects and determines a print mode and selects and determines a recording form for bidirectional printing when it is determined that both the calculated glossiness and gloss difference are within the threshold range. In the ink jet printer according to any one of claims 1 to 24 ,
The control device is
Maximum both calculated gloss and gloss difference upon determination of whether whether it is within a predetermined threshold range, and the minimum value Gl the calculated gloss, a value obtained by adding a gloss difference calculated with respect to the calculated glossiness When the minimum value Gl and the maximum value Gh satisfy both conditions of the following formulas (1) and (2), assuming that the value is Gh, at least one of the calculated glossiness and gloss difference is outside the threshold range. An ink jet printer characterized by being determined as follows.
Gl ≦ 20 (1)
Gh> Gl × 1.4 (2) In the ink jet printer according to any one of claims 1 to 24 ,
The control device is
Maximum both calculated gloss and gloss difference upon determination of whether whether it is within a predetermined threshold range, and the minimum value Gl the calculated gloss, a value obtained by adding a gloss difference calculated with respect to the calculated glossiness When the minimum value Gl and the maximum value Gh satisfy both conditions of the following formulas (3) and (4), assuming that the value is Gh, at least one of the calculated glossiness and gloss difference is out of the threshold value range. An ink jet printer characterized by being determined as follows.
Gl> 20 (3)
Gh> Gl × 1.8-8 (4) In the ink jet printer according to any one of claims 1 to 26 ,
The control device is
As a reference for determining whether or not both the calculated gloss level and gloss difference are within the threshold range, the number of times the carriage is scanned to cure the ink that has landed on the recording medium to a desired hardness is determined. An ink jet printer, wherein it is determined whether or not it is once. In the ink jet printer according to any one of claims 1 to 27 ,
The ink is a cationic polymerization type ink that is cured by irradiation with ultraviolet rays,
An ink jet printer, wherein the light source emits ultraviolet rays as the light.

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