JP5755415B2 - Image recording apparatus and drying control method - Google Patents

Description

  The present invention relates to an image recording apparatus and a drying control method.

  2. Description of the Related Art Conventionally, in an image recording apparatus that records character information or an image on a recording medium by transporting a recording medium such as recording paper in the transport direction and ejecting ink droplets or the like from a head facing the recording surface, inkjet recording In the process of drying the subsequent sheet, it is necessary to stably dry the sheet in a short time without deforming the sheet.

  It is generally known that the dryness of paper greatly depends on the basis weight of the paper (for example, 100 to 300 gsm) and the amount of ink droplets applied to the paper. The device has been devised to ensure the drying property in the case of drying conditions.

  On the other hand, when thin paper is used as the paper, under the drying conditions established based on thick paper that is difficult to dry, the paper deformation (cuckling) increases due to the excessive drying capacity, which may hinder backside paper passing Therefore, it is necessary to set the conditions of the drying apparatus in accordance with each condition.

  That is, when drying thick paper, a large-capacity heater is required to heat up to the paper temperature required to obtain the required film strength. On the other hand, in the case of drying thin paper, the drying device that supports thick paper heats the paper too much, and deformation of the paper cannot be suppressed, and there is a possibility that the rear surface transport reliability may be impaired.

  For example, based on prepress data, a digital printing machine characterized by drying control in which only a necessary portion of LEDs is turned on for a plurality of ultraviolet irradiation LEDs arranged in the width direction is disclosed (for example, Patent Documents) 1).

JP 2010-89455 A

  However, the method as described in Patent Document 1 performs drying control by turning ON / OFF the UV ink using an LED light source, and is not applicable to normal aqueous ink using water as a solvent. There is a risk of increasing the size and cost. This is also a unique ON / OFF control of drying (heat source), and there is no example that can be realized at a low cost for fine drying control especially when using thin paper.

  In general, the impression cylinder method is used for sheet-fed printing. However, when the impression cylinder rotating at high speed is used to dry the paper, the surface temperature is reduced when the surface heat is removed only from the part that is in contact with the paper. Since the next sheet is conveyed before being uniformed, it becomes more difficult to control the drying of the sheet and the drum temperature.

  Furthermore, since the film surface temperature (front surface) of a sheet during continuous JOB (such as continuous 200 sheets) also changes in the JOB, it is difficult to control the sheet surface temperature with a uniform temperature setting. Further, since the temperature change changes not only with the basis weight of the paper, but also with the paper type and environment, and also with the amount of ink ejected, drying control becomes more difficult with a uniform temperature setting.

  In view of the above facts, the present invention has an object to provide an image recording apparatus and a drying control method that perform optimal drying control according to the type of paper while preventing excessive drying of the paper by measuring the paper surface temperature. To do.

The image recording apparatus according to claim 1 is rotatably supported about an axis, a drum which image holds the paper sheet which has been recorded conveyed sheet to said drum Thus the paper is conveyed conveyed and a sheet temperature measuring means for the temperature of the sheet was measured to measure the surface temperature of the central portion in the axial direction of the drum when the other in sheet conveying said sheet is not being conveyed by the drum when in the previous SL a drum temperature measuring means for measuring the paper surface temperature of the axial end portion which is not in contact of the drum, a heating means for heating to dry the sheet being conveyed together to heat the surface of the drum, in the sheet conveyance , said controlling the heating means according to the temperature of the sheet as measured by the sheet temperature measuring means, at times other than during the previous SL for paper transport, the front of the drum measured at the drum temperature measuring means when And the surface temperature of the axial ends, characterized by comprising a temperature control means for controlling said heating means in accordance with the surface temperature of the axial center portion of the measured said drum by said sheet temperature measuring means .

  According to the above invention, it is possible to provide an image recording apparatus that performs optimum drying control according to the type of paper while preventing excessive drying of the paper by measuring the paper surface temperature.

An image recording apparatus according to claim 2, wherein the temperature control means controls the length of the ON · OFF time of the heating means according to the temperature of the sheet measured at the sheet temperature measuring means, performs duty control It is characterized by that.

  According to the invention described above, it is possible to provide an image recording apparatus that prevents excessive drying of paper even in a drying section having an excessive drying capability.

An image recording apparatus according to claim 3, in the configuration of claim 2, wherein the temperature control means, for a preset upper limit temperature and the lower limit temperature for the temperature of the sheet, the sheet temperature measurement when the temperature of the sheet as measured by means exceeds the upper limit temperature is more time to OFF the heating means, is turned oN the heating means when the temperature of the paper is below the lower limit temperature performs control to increase the time for the temperature of the paper measured by the sheet temperature measuring means, is weighted according to the difference of the paper target temperature to be the intermediate value between the upper limit temperature and the lower limit temperature is made It is characterized by performing feedback control.

According to the above invention, it is possible to provide an image recording apparatus that performs optimum drying control according to the type of paper while preventing excessive drying of the paper by measuring the paper surface temperature .

An image recording apparatus according to claim 4, in the structure according to any one of claims 1 to 3, wherein the temperature control means, the time the drum does not hold the paper said heating means Is turned off.

According to the above invention, since the paper is not dried during the time when the paper is not held on the impression cylinder, the paper overheating means is turned off to prevent the apparatus from overheating and to reduce the power consumption .

The image recording apparatus according to claim 5, in the structure according to any one of claims 1 to 4, before Symbol pressurized heat means is characterized by an IR carbon heater.

According to the above invention, the infrared light peak emitted by the IR carbon heater overlaps with the peak of the absorption wavelength of water, so that the water-based ink can be efficiently dried .

According to a sixth aspect of the present invention, in the configuration of any one of the first to fifth aspects, the sheet temperature measuring means is a non-contact type radiation thermometer .

According to the above invention, since there is no possibility of contact or interference with the paper or the impression cylinder by using the non-contact type thermometer, temperature measurement can be performed without affecting the paper transportability .

The drying control method according to claim 7, wherein the heating means for heating the surface of the drum and heating and drying the paper being transported is configured such that when the paper is being transported by the drum, the shaft of the drum is being transported. ON / OFF control according to the temperature of the paper measured by the paper temperature measuring means for measuring the surface temperature of the central portion in the direction, and when the paper is not being conveyed by the drum, the axis direction of the drum and the surface temperature of the drum measured at drum temperature measuring means for measuring the surface temperature of the end portion, the temperature control means for ON · OFF controlled in accordance with the temperature of the paper measured by the sheet temperature measuring means, the sheet The temperature of the paper measured by the paper temperature measuring means exceeds the upper limit temperature with respect to the preset upper limit temperature and lower limit temperature. In this case, the time for turning off the heating means is increased, and when the temperature of the paper is lower than the lower limit temperature, the time for turning on the heating means is increased, and the temperature of the paper and the upper limit temperature are controlled. and have line feedback control weighting is performed corresponding to the difference between the paper target temperature to be the intermediate value between the lower limit temperature, the heating when it exceeds a preset drum target temperature for the surface temperature of the drum increase the time OFF means, said when below the drum target temperature by controlling the pre-Symbol pressurized thermal means so as to increase the time of oN of said heating means, is and pre SL temperature control means of the sheet surface finish, the basis weight of the paper, the temperature and humidity inside the apparatus, and the is discharged to the surface of the paper sheet transport environment is at least one of the ejection amount of ink for recording an image And sets the paper target temperature I.

  According to the above invention, by performing DUTY control of the heater temperature between the target management upper limit temperature and the target management lower limit temperature, an image that performs optimal drying control according to the paper type while preventing excessive drying of the paper. It can be set as a recording device.

According to an eighth aspect of the present invention, there is provided the drying control method according to the seventh aspect, wherein the temperature control means uses the detection means for automatically detecting the paper conveyance environment, and the temperature control means is in accordance with the paper conveyance environment detected by the detection means. The sheet target temperature is set.

According to the above invention, the detection unit detects the paper conveyance environment , and the target temperature is set according to the detection so that the image recording apparatus performs optimum drying control according to the paper type and output content. Can do.

According to a ninth aspect of the present invention, there is provided the drying control method according to the seventh aspect, wherein the temperature control unit sets the paper target temperature in accordance with the paper conveyance environment input by a user.

According to the above invention, the user inputs the paper transport environment , and the target temperature is set according to the input, so that the image recording apparatus performs optimal drying control according to the paper type and output content. it can.

  Since the present invention is configured as described above, it is possible to provide an image recording apparatus and a drying control method that perform optimal drying control according to the type of paper while preventing excessive drying of the paper by measuring the paper surface temperature.

1 is a conceptual diagram illustrating an entire image recording apparatus according to an embodiment of the present invention. 1 is a conceptual diagram illustrating a main part of an image recording apparatus according to an embodiment of the present invention. It is a conceptual diagram which shows the drying part of the image recording apparatus which concerns on embodiment of this invention. It is a perspective view which shows the example of arrangement | positioning of IR heater and a warm air heater in the drying part of the image recording device which concerns on embodiment of this invention. It is a conceptual diagram which shows the relationship between DUTY control of IR heater and paper temperature in the drying control method which concerns on embodiment of this invention.

Hereinafter, an exemplary embodiment according to the present invention will be described with reference to the drawings.
<Overall configuration>

  Hereinafter, with reference to FIGS. 1 and 2, a configuration example of an ink jet image recording apparatus for carrying out the image recording method of the present invention will be described. FIG. 1 is a conceptual diagram (side surface) showing the entire apparatus, and FIG. 2 is a conceptual diagram (side surface) in which a heater and a temperature sensor are mainly described.

  The inkjet recording apparatus 1 forms a desired color image by ejecting a plurality of colors of ink from inkjet heads 172M, 172K, 172C, and 172Y onto a recording medium 122 held on the impression cylinder (drawing drum 170) of the drawing unit 114. An impression cylinder direct drawing type ink jet recording apparatus, which applies a treatment liquid onto the recording medium 122 before ink ejection and causes the treatment liquid and ink to react to form an image on the recording medium 122 (aggregation). ) Method is an on-demand type image forming apparatus.

  The ink jet recording apparatus 1 mainly includes a paper feeding unit 110, a processing liquid application unit 112, a drawing unit 114, a drying unit 116, a fixing unit 118, and a paper discharge unit 120.

  The paper supply unit 110 is a mechanism that supplies the recording medium 122 to the treatment liquid application unit 112, and the recording medium 122 that is a sheet is stacked on the paper supply unit 110. The paper feeding unit 110 is provided with a paper feeding tray 150, and the recording medium 122 is fed from the paper feeding tray 150 to the processing liquid application unit 112 one by one. In the inkjet recording apparatus 1, a plurality of types of recording media 122 having different paper types and sizes (medium sizes) can be used as the recording medium 122. In the present embodiment, a case where a sheet (cut sheet) is used as the recording medium 122 will be described.

  The processing liquid application unit 112 is a mechanism that applies the processing liquid to the recording surface of the recording medium 122. The treatment liquid contains a color material aggregating agent that agglomerates the color material in the ink applied by the drawing unit 114. When the treatment liquid and the ink come into contact with each other, the ink is separated from the color material and the solvent. Promoted.

  As shown in FIGS. 1 and 2, the processing liquid application unit 112 includes a paper feed cylinder 152, a processing liquid drum 154, and a processing liquid coating device 156. The treatment liquid drum 154 is a drum that holds the recording medium 122 and rotates and conveys it. The processing liquid drum 154 includes a claw-shaped holding means (gripper) on the outer peripheral surface thereof, and the recording medium 122 is sandwiched between the claw of the holding means and the peripheral surface of the processing liquid drum 154 so that the tip of the recording medium 122 is positioned. It can be held.

  The treatment liquid drum 154 may be provided with a suction hole on the outer peripheral surface thereof and connected to a suction unit that performs suction from the suction hole. As a result, the recording medium 122 can be held in close contact with the peripheral surface of the treatment liquid drum 154.

  A treatment liquid coating device 156 is provided outside the treatment liquid drum 154 so as to face the peripheral surface thereof. The processing liquid coating device 156 is in pressure contact with the processing liquid container in which the processing liquid is stored, the anilox roller partially immersed in the processing liquid in the processing liquid container, and the recording medium 122 on the anilox roller and the processing liquid drum 154. And a rubber roller that transfers the measured processing liquid to the recording medium 122. According to the processing liquid coating apparatus 156, the processing liquid can be applied to the recording medium 122 while being measured.

  The recording medium 122 to which the processing liquid is applied by the processing liquid applying unit 112 is transferred from the processing liquid drum 154 to the drawing drum 170 of the drawing unit 114 via the intermediate transport unit 124. The drawing unit 114 includes a drawing drum 170 and inkjet heads 172M, 172K, 172C, and 172Y. Similar to the treatment liquid drum 154, the drawing drum 170 includes a claw-shaped holding means (gripper) on its outer peripheral surface. The recording medium 122 fixed to the drawing drum 170 is conveyed with the recording surface facing outward, and ink is applied to the recording surface from the inkjet heads 172M, 172K, 172C, 172Y.

  The inkjet heads 172M, 172K, 172C, and 172Y are full-line inkjet recording heads (inkjet heads) each having a length corresponding to the maximum width of the image forming area on the recording medium 122. Is formed with a nozzle row in which a plurality of nozzles for ink ejection are arranged over the entire width of the image forming area. Each inkjet head 172M, 172K, 172C, 172Y is installed so as to extend in a direction orthogonal to the conveyance direction of the recording medium 122 (the rotation direction of the drawing drum 170).

  The droplets of the corresponding color ink are ejected from the respective ink jet heads 172M, 172K, 172C, 172Y toward the recording surface of the recording medium 122 held in close contact with the drawing drum 170, whereby the processing liquid application unit 112 The ink comes into contact with the treatment liquid previously applied to the recording surface, and the pigment and resin particles dispersed in the ink are aggregated to form aggregates. As a result, pigment flow or the like on the recording medium 122 is prevented, and an image is formed on the recording surface of the recording medium 122.

  The recording medium 122 on which an image is formed by the drawing unit 114 is transferred from the drawing drum 170 to the drying drum 176 of the drying unit 116 via the intermediate conveyance unit 126. The drying unit 116 is a mechanism that dries moisture contained in the solvent separated by the aggregating action. As shown in FIG. 1, the drying unit 176, a plurality of IR heaters (carbon heaters) 178, and each IR heater 178. And a hot air heater 180 disposed between the two.

  Similar to the treatment liquid drum 154, the drying drum 176 includes a claw-shaped holding unit (gripper) on its outer peripheral surface, and the holding unit can hold the leading end of the recording medium 122. The temperature and amount of warm air blown from the warm air heater 180 toward the recording medium 122, and the temperature of each IR heater are detected by a temperature sensor described later, and are sent as temperature information to a control unit (not shown). Based on the temperature information, the controller appropriately adjusts the temperature and air volume of the warm air and the temperature of each IR heater, thereby realizing various drying conditions.

  The surface temperature of the drying drum 176 is set to 50 ° C. or higher. Drying is accelerated by heating from the back surface of the recording medium 122, and image destruction during fixing can be prevented. The upper limit of the surface temperature of the drying drum 176 is not particularly limited, but from the viewpoint of safety of maintenance work such as cleaning ink adhering to the surface of the drying drum 176 (preventing burns due to high temperatures). It is preferably set to 75 ° C. or lower (more preferably 60 ° C. or lower).

  Further, as described above, it has been found that the higher the drying drum temperature (the surface temperature of the drying drum 176) (the stronger the drying), the less the expansion and contraction of the recording medium 122, so that the above-described safety is not impaired. The higher the surface temperature of the drying drum 176, the less the influence of cockle.

  The recording drum 122 is held on the outer peripheral surface of the drying drum 176 so that the recording surface of the recording medium 122 faces outward (that is, in a state where the recording surface of the recording medium 122 is convex), and is dried while being rotated and conveyed. By doing so, it is possible to prevent the recording medium 122 from being wrinkled or lifted, and to prevent drying unevenness caused by these.

  The recording medium 122 that has been dried by the drying unit 116 is transferred from the drying drum 176 to the fixing drum 184 of the fixing unit 118 via the intermediate conveyance unit 128. The fixing unit 118 includes a fixing drum 184, a first fixing roller 186, a second fixing roller 188, and an inline sensor 190.

  Like the processing liquid drum 154, the fixing drum 184 includes a claw-shaped holding unit (gripper) on the outer peripheral surface thereof, and the holding unit can hold the leading end of the recording medium 122. By the rotation of the fixing drum 184, the recording medium 122 is conveyed so that the recording surface faces outward. The fixing process by the first fixing roller 186 and the second fixing roller 188 and the inline sensor 190 are performed on the recording surface. Inspection is performed.

  The first fixing roller 186 and the second fixing roller 188 are roller members for welding resin particles (particularly self-dispersing polymer particles) in the ink by heating and pressurizing the ink to form a film of the ink. The recording medium 122 is configured to be heated and pressurized.

  Specifically, the first fixing roller 186 and the second fixing roller 188 are arranged so as to be in pressure contact with the fixing drum 184 and constitute a nip roller with the fixing drum 184. Yes. As a result, the recording medium 122 is sandwiched between the first fixing roller 186 and the second fixing roller 188 and the fixing drum 184 and is nipped at a predetermined nip pressure (for example, 0.15 MPa) to perform the fixing process. It is.

  Further, the first fixing roller 186 and the second fixing roller 188 are configured by a heating roller in which a halogen lamp is incorporated in a metal pipe such as aluminum having good thermal conductivity, and have a predetermined temperature (for example, 60 to 80 ° C.). Controlled.

  By heating the recording medium 122 with these heating rollers, thermal energy equal to or higher than the Tg (glass transition temperature) of the resin particles contained in the ink is applied, and the resin particles are melted so that the unevenness of the recording medium 122 is formed. While pressing and fixing are performed, unevenness on the surface of the image is leveled and gloss is obtained.

  The in-line sensor 190 is a measuring unit for measuring a check pattern, a moisture content, a surface temperature, a glossiness, and the like for an image fixed on the recording medium 122, and a CCD line sensor or the like is applied.

  According to the fixing unit 118, the resin particles in the thin image layer formed by the drying unit 116 are heated and pressurized by the fixing roller 188 and melted, and can be fixed to the recording medium 122. Further, the surface temperature of the fixing drum 184 is set to 50 ° C. or higher, and the drying is promoted by heating the recording medium 122 held on the outer peripheral surface of the fixing drum 184 from the back surface, thereby preventing image destruction during fixing. The image intensity can be increased by the effect of increasing the image temperature.

  As shown in FIG. 1, a paper discharge unit 120 is provided downstream of the fixing unit 118 in the recording medium conveyance direction. The paper discharge unit 120 includes a discharge tray 192. Between the discharge tray 192 and the fixing drum 184 of the fixing unit 118, a transfer drum 194, a conveying belt 196, and a stretching roller 198 are in contact with each other. Is provided. The recording medium 122 is sent to the transport belt 196 by the transfer drum 194 and discharged to the discharge tray 192.

  Further, the discharge tray 192 is provided with a cold air ejection nozzle 199, and the recording medium 122 can be cooled by blowing cold air from the cold air ejection nozzle 199.

  Although not shown in FIG. 1, in addition to the above-described configuration, the inkjet recording apparatus 1 performs processing on the ink storage tank that supplies ink to the inkjet heads 172M, 172K, 172C, and 172Y, and the treatment liquid application unit 112. In addition to a means for supplying liquid, the head maintenance unit that cleans each ink jet head 172M, 172K, 172C, 172Y (wiping, purging, nozzle suction, etc. of the nozzle surface) and the position of the recording medium 122 on the medium transport path A position detection sensor for detecting, a temperature sensor for detecting the temperature of each part of the apparatus, and the like are provided.

  When forming images on both sides, in the inkjet recording apparatus 1 of FIG. 1, after forming an image on one side (front side) of the recording medium, seasoning is performed for a predetermined time by a seasoning device (not shown). Then, the seasoned recording medium bundle is returned to the paper feeding unit 110, and further image formation is performed on the back surface. Thereby, good double-sided printing can be realized in a short time.

  The ink jet recording apparatus 1 shown in FIG. 1 may include a plurality of seasoning devices used for the discharge tray 192, and each seasoning device may be movable between the paper discharge unit 120 and the paper supply unit 110.

<Details of drying section>
3 and 4 show details of the drying unit 116. FIG. As described above, the drying unit 116 is a mechanism for drying the water contained in the solvent separated by the aggregating action. As shown in the drawing, the drying unit 116 is interposed between the drying drum 176, the IR heater 178, and each IR heater 178. A hot air heater 180 is provided.

  As an example, as shown in FIG. 3, the recording medium 122 is transferred from the drawing drum 170 to the drying drum 176 of the drying unit 116 via the intermediate conveyance unit 126 (the transfer cylinder 130). A hot air heater 180 and an IR heater 178 are provided along the outer peripheral surface of the drying drum 176 to heat the drying drum 176 and the recording medium 122 being conveyed.

  The IR heater 178 may be, for example, a rod-like carbon heater that is extended along the outer peripheral surface of the drying drum 176 while maintaining a predetermined distance. The reason why carbon is used as an IR (infrared) heater is that the radiation peak is 2000 to 4000 nm in the far infrared region, and the absorption peak (near 3000 nm) overlaps with water used as a solvent for water-based ink. The point which can be overheated well is mentioned.

  Moreover, the structure of the warm air heater 180 sends hot air to the drying drum 176 by placing the hot air heater 280 in the air flow generated by the axial fan 282, for example. At this time, a temperature sensor 284 may be provided to prevent heating.

  As described above, various conditions such as the thickness and surface finish of the recording medium 122 can be obtained by appropriately adjusting the temperature and air volume of the hot air blown from the hot air heater 180 toward the recording medium 122 and the temperature of each IR heater. A variety of drying conditions can be realized.

  At this time, parameters such as the type of the recording medium 122 are automatically detected by various detection means such as an optical sensor and a thickness sensor (not shown) provided in the apparatus, and may be sent to the control means as condition parameters. It may be configured to determine and manually input to the control means. Further, for example, environmental conditions such as temperature and humidity in the apparatus detected by a temperature / humidity sensor (not shown) provided in the drying unit 116 are sent to the control means as condition parameters, and the temperature and volume of the hot air and the temperature of each IR heater are sent. It may be one of the condition factors when adjusting the value.

<Features and effects of this application>
As described above, the drying is accelerated by heating from the back surface of the recording medium 122, and the surface temperature of the drying drum 176 is set to 50 ° C. or more by the IR heater 178 in order to prevent image destruction at the time of fixing. Further, it has been found that the higher the drying drum temperature (the surface temperature of the drying drum 176) is (the stronger the drying is), the less the expansion and contraction of the recording medium 122, and therefore the surface of the drying drum 176 is not damaged. The higher the temperature, the less the influence of the cockle can be suppressed. Therefore, it is necessary to keep the surface temperature of the drying drum 176 within a predetermined range.

  However, when the recording medium 122 is thick, it is necessary to have the capacity of the hot air heater 180 and the IR heater 178 sufficient to increase the sheet temperature in order to obtain the required film strength. When there is not enough room, it is always necessary to drive at the capacity limit.

  On the other hand, when the recording medium 122 is thin and thin paper is used, the recording medium 122 is heated too much with the capacity of the warm air heater 180 and the IR heater 178 corresponding to the above thick paper, and the deformation of the sheet cannot be suppressed. There is a risk of failure in transport reliability.

  Further, even during 1 JOB, the film surface temperature (front side) of the recording medium 122 (sheet paper) during continuous conveyance changes within the JOB. For this reason, even if the drying temperature setting of the drying drum 176 is a uniform temperature setting, it is difficult to control the drying temperature to be equal at the start and end of the process.

  The drying condition of the recording medium 122 varies depending not only on the basis weight of the paper but also on the environment such as the paper type and temperature / humidity, and also on the droplet ejection amount. For this reason, even more uniform temperature setting makes it difficult to control the drying temperature to be equal at the start and end of the process.

  For this reason, the present invention monitors the surface temperature of the recording medium 122 (drying drum 176) with respect to the above-mentioned paper types, the drying stability during 1 JOB, and various influencing factors, and then drying under various conditions. The IR heater 178 is DUTY controlled so as to be optimized.

  That is, as shown in FIGS. 3 and 4, a temperature measuring device 290 that measures the temperature of the drying drum 176 and a temperature measuring device 292 that measures the surface temperature of the recording medium 122 are provided in the drying unit 116.

  The temperature measuring device 290 measures the surface temperature of the portion of the drying drum 176 that is not in contact with the recording medium 122, that is, the axial end portion, while the temperature measuring device 292 measures the recording medium 122 (the shaft of the drying drum 176 except during conveyance). Measure the temperature at the center of the direction). The temperature detected by each temperature measuring instrument is sent as temperature data to a control unit (not shown). The control unit performs DUTY control that finely controls the capability by turning ON / OFF the IR heater 178 finely in consideration of the above-mentioned condition factors such as the paper type and the temperature and humidity in the apparatus.

  FIG. 5 shows the DUTY control of the IR heater 178. That is, as shown in FIGS. 5A and 5B, the IR heater 178 is turned off when the temperature exceeds an upper limit with respect to the preset target management upper limit temperature and target management lower limit temperature for the recording medium 122. When the time is increased and the temperature falls below the lower limit, the temperature difference Δt is controlled by controlling the driving time so as to increase the time to turn on the IR heater 178, and between the target management upper limit temperature and the target management lower limit temperature. The surface temperature of the recording medium 122 is stored.

  At this time, feedback control may be performed in which weighting is performed according to the difference between the measured surface temperature of the recording medium 122 and the sheet target temperature that is an intermediate value between the target management upper limit temperature and the target management lower limit temperature. .

  For example, due to changes in temperature and humidity in the apparatus, the target temperature of the recording medium 122 (or the drying drum 176) may not be reached or overheated even when the same amount of heat is applied. Therefore, PI control that controls the amount of heat applied by integrating the deviation (residual deviation) between the target temperature and the measured temperature in the time axis direction, or PID control that takes into account the rate of change obtained by differentiating the change in measured temperature with time, etc. It may be used. Specifically, as shown in FIG. 5C, it is effective for a situation in which the target temperature is excessively overshooted or cannot be maintained even when the target temperature is reached.

  As described above, in the present invention, the IR heater 178 is subjected to DUTY control (duty correction ratio is determined) while measuring the surface temperature of the recording medium 122. Further, the DUTY target value (target temperature) is determined in accordance with the basis weight of the recording medium 122, the paper type, the environment such as temperature and humidity, the droplet ejection amount, and the like.

  Further, the IR heater 178 is controlled according to the temperature of the recording medium 122 measured by the temperature measuring device 292 while the paper is being conveyed, and the IR heater 178 is controlled according to the temperature of the drying drum 176 when the paper is not being conveyed. In addition, by comparing and monitoring the temperature of the portion of the drying drum 176 that does not come into contact with the recording medium 122 measured by the temperature measuring device 290, the heat of the surface of the drying drum 176 taken away by the recording medium 122 is calculated, and continuous JOB is calculated. Stable temperature control is performed even when conditions are unstable such as inside.

  Accordingly, when the thin recording medium 122 is dried while using the drying unit 116 having a drying capacity sufficient to dry the thick recording medium 122, there is no excessive drying, and there are various conditions. 8) The drying capacity of the drying unit 116 can be adjusted to an optimum state according to the basis weight of the recording medium 122, the type of paper, the environment such as temperature and humidity, the amount of droplet ejection, and the like.

<Others>
As mentioned above, although the Example of this invention was described, it cannot be overemphasized that this invention is not limited to said Example at all, and can implement in a various aspect in the range which does not deviate from the summary of this invention.

  For example, in the above embodiment, an ink jet type image recording apparatus using water-based ink using water as a solvent has been described as an example. However, the liquid to be ejected is not limited to ink for image recording / character printing, but a recording medium. Any liquid that uses a solvent or a dispersion medium soaking into the liquid can be applied to various discharge liquids.

1 Inkjet recording device 116 Drying unit 122 Recording medium 176 Drying drum (drum)
178 IR heater (heating means)
180 Hot air heater 280 Hot air heater 282 Axial fan 284 Temperature sensor 290 Temperature measuring device (drum temperature measuring means)
292 Temperature measuring instrument (paper temperature measuring means)

Claims (9)

A drum that is supported rotatably about an axis and holds and conveys a sheet of paper on which an image is recorded;
The temperature of the sheet was measured when in sheet conveyance in the drum Thus the paper is conveyed, the paper by the drum in the axial direction central portion of the drum when the other in sheet conveying non-transferred A paper temperature measuring means for measuring the surface temperature ;
A drum temperature measuring means for measuring the paper surface temperature of the axial end portion which is not in contact before Symbol drum,
Heating means for heating the surface of the drum and heating and drying the paper being conveyed;
Wherein when during sheet conveyance, the controls said heating means in accordance with the measured temperature of the said sheet at a sheet temperature measuring means, at times other than during the previous SL for paper transport is measured at the drum temperature measuring means Temperature control means for controlling the heating means according to the surface temperature of the axial end of the drum and the surface temperature of the axial center of the drum measured by the paper temperature measuring means ;
An image recording apparatus comprising: The said temperature control means performs duty control which controls the length of ON / OFF time of the said heating means according to the temperature of the said paper measured by the said paper temperature measurement means. Image recording device. Said temperature control means, for a preset upper limit temperature and the lower limit temperature for the temperature of the paper, when the temperature of the sheet measured at the sheet temperature measuring means exceeds the upper limit temperature is the more time for the heating means to OFF, along with when the temperature of the paper is below the lower limit temperature performs control to increase the time to oN the heating means, the sheet measured by the sheet temperature measuring means and the temperature of the image recording apparatus according to claim 2, characterized in that performing feedback control weighting according to the difference is made of paper target temperature to be the intermediate value between the upper limit temperature and the lower limit temperature. Said temperature control means, the time the drum does not hold the sheet image recording apparatus according to any one of claims 1 to 3, characterized in that the OFF the heating means. The image recording apparatus according to the prior SL pressurized heat means any one of claims 1 to 4, characterized in that the IR carbon heater.   The image recording apparatus according to claim 1, wherein the sheet temperature measuring unit is a non-contact type radiation thermometer. Heating means for heating the surface of the drum and heating and drying the paper being conveyed, when the paper is being conveyed by the drum, the paper temperature for measuring the surface temperature of the central portion in the axial direction of the drum Drum temperature measurement that controls ON / OFF according to the temperature of the paper measured by the measuring means, and measures the surface temperature of the axial end of the drum when the paper is not being conveyed by the drum. Temperature control means for performing ON / OFF control according to the surface temperature of the drum measured by the means and the temperature of the paper measured by the paper temperature measuring means ,
With respect to the upper limit temperature and the lower limit temperature set in advance for the temperature of the paper, when the temperature of the paper measured by the paper temperature measurement means exceeds the upper limit temperature, the time for turning off the heating means is increased, When the temperature of the sheet falls below the lower limit temperature, control is performed to increase the time for turning on the heating means, and the sheet temperature and a sheet target temperature that is an intermediate value between the upper limit temperature and the lower limit temperature, There line feedback control weighting is performed in accordance with the difference,
When it exceeds pre-set drum target temperature for the surface temperature of the drum increases the OFF time of the heating means, so when below the drum target temperature increase time of ON of said heating means controls before Symbol pressurized thermal means,
Is and pre SL temperature control means, at least one of the surface finish of paper, the basis weight of the paper, the ink ejection amount for recording is an image discharged to temperature and humidity, and the surface of the paper in the apparatus A drying control method characterized in that the target paper temperature is set according to a paper transport environment. Using detection means for automatically detecting the paper transport environment,
8. The drying control method according to claim 7, wherein the temperature control unit sets the sheet target temperature according to the sheet conveyance environment detected by the detection unit. 8. The drying control method according to claim 7 , wherein the temperature control unit sets the paper target temperature in accordance with the paper conveyance environment input by a user.

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