JP2009096074A - Image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To conduct a plurality of utilization methods in each of which a required image maintenance time is different from one another concerning a sheet which can make a record of the image by making a developing solution adhere and used repeatedly, using a smaller number of kinds of developing solutions smaller than the number of the plurality of the methods. <P>SOLUTION: An image forming device is equipped with two developing solution tanks 120A and 120B for individually storing two kinds of developing solutions whose evaporation rates differ from each other, delivering heads 110A and 110B which discharge two kinds of the developing solutions supplied from the developing solution tanks to the same part on a coloring sheet 400 based on image information, and a delivering output control part 130 for changing the amount of the developing solution discharged by each delivering head. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  In the present invention, when a liquid such as water adheres, a difference in color develops between the portion where the liquid is attached and the portion where the liquid is not attached, and an image is recorded, and the attached liquid is evaporated. Thus, the present invention relates to an image forming apparatus that forms an image on a reusable sheet from which an image is erased by eliminating a difference in color development between a developer-attached portion and a developer-non-attached portion.

  As for this type of sheet, for example, a brush-colored paper disclosed in Patent Document 1 is known. This water brush coloring paper is a specially processed paper whose purpose is that the surface of the paper is processed to allow repeated brushstroke writing. When this water brush color paper is written with a water brush, only the portion wetted with water is colored black or red, so that an image such as a written character is recorded on the paper surface. When the color disappears due to spontaneous disappearance of water by absorption or evaporation after a certain time, the image is erased from the paper surface and restored to the original paper surface. This water-colored color paper can be used repeatedly because it can be re-recorded by re-writing with a water brush after restoring the original paper surface.

  The sheet described above can be used in various ways by forming an image by attaching a visible liquid such as water using an image recording method such as an ink jet method. For example, if an image formed on a sheet as described above is used as a meeting material, a meeting can be held while viewing the image on the sheet during the meeting, and the image on the sheet disappears spontaneously after the meeting ends. A usage method that can ensure security can be considered.

Japanese Patent Publication No. 50-5097

However, the time that an image can be maintained when the image is recorded with water on the water-coloring paper is 90 seconds to 580 seconds at the maximum as described in Patent Document 1, and is limited to a very short time. . For this reason, the method of recording an image with water on a water-colored color paper cannot be applied to a usage method in which the image needs to be maintained for a longer time.
On the other hand, as a method of maintaining an image for a longer time than when recording an image with water, a method of recording an image using a visible liquid (e.g., acetone) having an evaporation rate slower than that of water is conceivable. According to this method, it is possible to maintain the image for a longer time (1000 seconds or more) than when the visible liquid is water. However, this method, on the contrary, cannot be applied to a usage method in which an image needs to be lost in a shorter time.
Of course, if a suitable visual solution is prepared for each usage method and image formation is performed using the same, it is possible to realize an image maintenance time suitable for each usage method. However, such a method is inconvenient in practice because it is necessary to stock a number of image liquids corresponding to the number of use methods having different required image maintenance times.

  The present invention has been made in view of the above background, and the object of the present invention is to provide a plurality of types of usage methods having different required image maintenance times for the above-described sheets, which are less than the number of methods. It is an object to provide an image forming apparatus that can be used with a visible liquid.

In order to achieve the above object, the invention of claim 1 records an image by causing a difference in color between a developer-attached portion and a developer-non-attached portion by attaching a developer. When the attached liquid is evaporated, there is no difference in coloration between the part where the liquid is attached and the part where the liquid is not attached. An image forming apparatus that forms an image according to image information on the sheet by performing a plurality of storage units that individually store a plurality of types of image liquids having different evaporation rates, and the plurality of storages An application unit that applies two or more types of visible liquids supplied from at least two of the units to the same location on the sheet based on image information, and the two or more types of developed images by the application unit With an application amount changing means for changing each application amount of the liquid It is characterized in.
The invention according to claim 2 is the image forming apparatus according to claim 1, wherein the applying unit includes a plurality of applying units that individually apply the developing solution supplied from the storage units to the same location on the sheet. The application amount changing means is characterized in that the application amount of the developer by each application unit that applies the two or more types of developer is changed.
According to a third aspect of the present invention, there is provided the image forming apparatus according to the first aspect, wherein the applying unit mixes the two or more types of developer before the two or more types of developer are applied to the sheet. The application means is for applying the image liquid mixed by the mixing means to the sheet, and the application amount changing means is the mixing ratio of the two or more types of the image liquid in the mixing means. It is characterized by being changed.
According to a fourth aspect of the present invention, in the image forming apparatus according to any one of the first to third aspects, the two or more types of visible liquids are compatible. is there.
According to a fifth aspect of the present invention, there is provided the image forming apparatus according to any one of the first to fourth aspects, wherein the applying unit discharges a droplet of a visible liquid based on image information. It is a discharge means for applying a liquid to a sheet.
According to a sixth aspect of the present invention, in the image forming apparatus according to any one of the first to fifth aspects, the erasing liquid is applied to the entire region including the image portion of the sheet to which the visible liquid is attached, the visible liquid. It is characterized by having an image erasing means for erasing an image by providing
According to a seventh aspect of the present invention, in the image forming apparatus according to the sixth aspect, the image erasing unit has the fastest evaporation rate among the visible image liquids stored in the plurality of storage units as the erasing liquid. A liquid having an evaporation rate equal to or faster than the evaporation rate of the visible liquid is used.
The invention according to claim 8 is the image forming apparatus according to any one of claims 1 to 5, wherein the visible image liquid adhering to the sheet is disposed on the upstream side in the sheet conveying direction with respect to the applying unit. And an image erasing means for erasing the image after erasing the image.
According to a ninth aspect of the present invention, in the image forming apparatus according to the eighth aspect, the image erasing means is an evaporation promoting means for accelerating the evaporation of the visible liquid adhering to the sheet.

  In the present invention, by changing the volume ratio of two or more types of the visible liquids with different evaporation rates applied to the same location on the sheet, the image of the location to which the two or more types of the visible solution are applied. The maintenance time can be controlled. Normally, the image retention time can be extended by increasing the volume ratio of a type of liquid that has a low evaporation rate, and conversely, the image can be maintained by increasing the volume ratio of a type of liquid that has a high evaporation rate. The time can be lengthened. According to the present invention, three or more different image maintaining times can be realized by at least two types of the visible liquids.

  As described above, according to the present invention, there is an excellent effect that it is possible to cope with a plurality of usage methods having different necessary image maintenance times for the above-described sheets even with a smaller number of developer liquids.

Embodiment 1
Hereinafter, an embodiment in which the present invention is applied to a printer as an image forming apparatus employing an ink jet recording method (hereinafter, this embodiment is referred to as “Embodiment 1”) will be described. In the first embodiment, an ink jet recording method is taken as an example, but other recording methods such as an electrophotographic method may be used as long as the image liquid can be applied to the sheet to form an image according to the image information. .

FIG. 1 is an explanatory diagram illustrating a schematic configuration of a printer according to the first embodiment.
The printer conveys an image recording unit 100, a sheet storage unit 200 that stores a large number of color sheets, and a single color sheet stored in the sheet storage unit so as to pass through the recording area of the image recording unit 100. And a sheet conveying unit 300.

  The image recording unit 100 records an image on a sheet by an ink jet recording method, and is connected to each of the two ejection heads 110A and 110B as the application unit constituting the application unit and each of the ejection heads 110A and 110B. It is composed of two developer tanks 120A and 120B as storage means and a discharge amount control unit 130 as adhesion amount changing means. The two developer tanks 120A and 120B contain two kinds of developer solutions having different evaporation rates. These image liquids have different boiling points. Each of the ejection heads 110A and 110B includes one or more ejection ports for ejecting the visible liquid stored in the visible liquid tanks 120A and 120B, respectively. Each of the ejection heads 110 </ b> A and 110 </ b> B reciprocates in a direction (sheet width direction) perpendicular to the sheet conveyance direction of the color developing sheet 400 by a driving force from a driving source (not shown). When the color developing sheet 400 fed from the sheet storage unit 200 is conveyed by the sheet conveying unit 300 to the recording area (droplet ejection area) facing the ejection heads 110A and 110B, the recording surface (see FIG. The image recording process by the ejection heads 110A and 110B is performed while the back side of the surface facing the middle upper side is guided by the print guide plate 301. In the image recording process, the ejection heads 110A and 110B are moved in the sheet width direction, and the liquid developer is appropriately ejected from the ejection ports of the ejection heads 110A and 110B. As a result, on the recording surface of the color developing sheet 400, the portion to which the developer is attached is colored to form an image corresponding to the image information.

  The discharge amount control unit 130 changes the application amount of the visible liquid by each discharge head 110A, 110B by controlling the number of droplets that are ejected from each discharge head 110A, 110B to one dot on the color developing sheet 400. is there. However, the configuration for changing the application amount of the visible liquid by the respective ejection heads 110A and 110B is not limited to such a configuration. For example, as long as it is a configuration that can change the amount of liquid droplets ejected by each of the ejection heads 110A and 110B, a configuration in which the application amount of the visible liquid is changed by controlling the appropriate amount of the liquid can be adopted. In the present embodiment, when the user performs an operation for designating an image maintenance time on an operation panel (not shown), the operation information is sent to the discharge amount control unit 130, and the discharge amount control unit 130 relates to the operation information. The number of droplets that are ejected from each of the ejection heads 110A and 110B onto one dot on the color developing sheet 400 is controlled so that the image maintenance time is reached. Details of the control of the image maintenance time will be described later.

FIG. 2 (a) is an explanatory view showing a cross section of the color developing sheet 400 in a state in which no visible liquid is attached, and FIG. 2 (b) is a color developing sheet 400 in which a visible liquid is partially attached. It is explanatory drawing which shows the cross section of.
The color developing sheet 400 causes a difference in color between the visible image liquid adhering portion and the visible image liquid non-adhering portion due to the adherence of the visible liquid, and an image is recorded, and the adhering visible image liquid evaporates. This is a sheet that can be used repeatedly, in which the image is erased by eliminating the difference in coloration between the portion where the developer is attached and the portion where the developer is not attached. The coloring sheet 400 used in the present embodiment is obtained by forming an absorption layer 402 having a hue different from that of a base material on a base material (base paper) 401 as a colored layer. When the color developing sheet 400 adheres to the visible liquid from the ejection heads 110A and 110B and is absorbed by the absorption layer 402, the light refractive index of the absorption layer 402 is indicated by symbol G in FIG. Changes to a transparent state. Thereby, the color of the base material 401 under the absorption layer 402 becomes visible from the absorption layer side in the visible image liquid adhering portion. As a result, the color of the portion where the developer is attached is visually recognized by the color of the base material 401, while the color of the portion where the developer is not attached is visually recognized by the color of the absorbing layer 402. Occurs. As a result, the image liquid adhering portion forms an image as a visible image, and the image is recorded on the color developing sheet 400.

On the other hand, when the visible image liquid adhering to the color developing sheet 400 evaporates and disappears from the absorbing layer 402 of the color developing sheet 400, the recording surface is visually recognized by the color of the absorbing layer 402 as shown in FIG. As a result, the image disappears.
In addition, after the image disappears in this manner, the image can be recorded by attaching the visible liquid again by the ejection heads 110A and 110B.

  As the color developing sheet 400 that can be used in the present embodiment, for example, a water brush coloring paper disclosed in Patent Document 1 can be used. Specifically, for example, a black colorant coated with a binder and dried is used as a base material 401, and a low refractive index pigment (for example, a white pigment) is coated with a binder and dried on the base material. What formed the absorption layer 402 can be used. In the color developing sheet 400, the recording surface is uniformly white in a state in which no visible liquid is attached, but when the visible liquid from the ejection heads 110A and 110B is attached, the visible liquid attached portion is the base material. Since black color is generated at 401, a black image can be recorded on a white background. When the visible image liquid that has permeated the absorption layer 402 evaporates and disappears from the absorption layer 402, the recording surface of the color developing sheet 400 becomes uniformly white again, and the black image disappears.

Next, an example of the developer used in the present embodiment will be described.
In the present embodiment, two types of visible liquids having different volatilization rates are used. Specifically, one of the visible liquids is water, and the other of the visible liquids is a liquid that is compatible with water and has a slower evaporation rate than water. As the other visible image liquid, for example, 1-3 butanediol, propylene glycol, ethylene glycol, or the like can be used. It should be noted that the two types of the visible liquids do not necessarily have compatibility, but the compatibility is easier to control the image maintenance time. Further, it is not always necessary to use water as the developing solution.

[Experimental Example 1]
Next, an experiment (hereinafter, this experiment is referred to as “Experimental Example 1”) conducted by the present inventors in order to confirm the relationship between the type of the developing solution and the image maintenance time will be described.
The image maintenance time is not only the type (volatilization rate) of the developer applied to the color developing sheet 400, but also the amount of the developer applied per unit area, the usage environment (temperature and humidity), the recording surface of the color developing sheet 400. It also varies depending on properties (such as the material and thickness of the absorbent layer 402 and surface smoothness) and the type of base agent (base paper) (such as paper or film). Therefore, in this Experimental Example 1, the same conditions are used except for the type of the visible liquid, and the image maintenance time for each visible liquid is measured.
The coloring sheet 400 used in this Experimental Example 1 is obtained by placing 100 parts by weight of a polynorbornene resin solution (Norex NSX-L: Zeon Kasei Co., Ltd.) on a base material 401 made of a black PET film having a thickness of 100 [μm]. The product obtained by adding 400 parts by weight of toluene to the product and stirring well is applied with an applicator and dried in a dryer at 100 [° C.] for 3 minutes to a thickness of 0.5 to 1 [μm]. A layer having an absorption layer 402 is used. In addition, when the thickness of the absorption layer 402 is too thick, the coloring of the base material 401 is deteriorated and the sharpness of the image is deteriorated. Therefore, in Experimental Example 1, the thickness of the absorption layer 402 is 0.5 to 1. [Μm].
In this Experimental Example 1, various image liquids using an Ricoh IPSIO (GX5000) ink jet printer and having a temperature of 20 [° C.] and a humidity of 65 [%] and a liquid temperature of 20 [° C.]. Was used to write a predetermined image on the color-developing sheet described above, and the time until the image disappeared completely after the sheet was discharged was measured as the image maintenance time.

The results of Experimental Example 1 are shown in Table 1 below.

  By properly using these developer solutions, the image maintenance times listed in Table 1 can be realized. However, it is not possible to realize an image maintenance time other than the image maintenance times listed in Table 1, for example, an image maintenance time of 30 minutes, by using each of these developer solutions alone. As a result of intensive studies, the present inventors have found that by changing the volume ratio of the two types of developer applied to the same location on the color developing sheet 400, the image maintenance time at that location can be controlled. This is the same even when the volume ratio of three or more types of the visible liquid is changed.

FIG. 3 shows an image disappearance time at the location when the volume ratio is changed when two types of image liquids having image retention times t _A and t _B are applied to the same location of the color developing sheet 400, respectively. It is a graph for demonstrating the outline | summary of a change of.
In this graph, the total amount of the two types of visible liquid applied to the location is made constant.

[Experiment 2]
Next, an experiment (hereinafter, this experiment is referred to as “Experimental Example 2”) measured for the image disappearance time at the location when the volume ratio of the two types of the visible liquid applied to the same location of the color developing sheet 400 is changed. ).
In this Experimental Example 2, one of the two types of visible liquids is water, and the other visible liquid (second visible liquid) is ethylene glycol, propylene glycol, 1-3 butanediol and Glycerin was used. Further, in this Experimental Example 2, the total amount of the two types of visible liquids having a liquid temperature of 20 to 22 [° C.] is not changed in an environment where the temperature is 20 [° C.] and the humidity is 48 [%]. The volume ratio was changed and applied to the color developing sheet 400, and the time until the image completely disappeared was measured as the image maintenance time. The coloring sheet 400 used in this experimental example 2 is the same as in the above experimental example 1.

The results of Experimental Example 2 are shown in Table 2 below.
It was confirmed from this experimental example 2 that the image retention time can be changed in multiple stages by changing the volume ratio of the two types of the visible liquid applied to the same portion of the color developing sheet 400.

[Example 1]
Next, an example of the present invention (hereinafter referred to as “Example 1”) will be described.
In Example 1, an Ricoh IPSIO (GX5000) inkjet printer is used, and in a temperature of 20 [° C.] and a humidity of 65 [%], two types of liquid crystals having a liquid temperature of 20 [° C.] are used. A predetermined image was written on the color developing sheet 400 using the image liquid, and the time until the image completely disappeared after the paper discharge was measured as an image maintenance time. The color developing sheet 400 used in Example 1 is the same as that in Experimental Example 1. In the first embodiment, one of the two types of image liquid is water (the image retention time of a single unit is 1 minute), and the other liquid is propylene glycol (the image retention time of a single unit). 94 minutes). A predetermined image is first formed on the color developing sheet 400 with an appropriate amount of water, and then an image is formed with the same amount of propylene glycol so as to overlap the image on the color developing sheet 400. did. That is, the volume ratio is 1: 1. As a result, similar to the experimental result of Experimental Example 2, the image maintenance time could be about 30 minutes. Note that the total amount of the two types of developer applied to the color developing sheet 400 per unit area was the same as the normal amount applied, and no problems such as blurring or thickening of the image occurred.

[Embodiment 2]
Next, as in the case of the first embodiment, another embodiment in which the present invention is applied to a printer as an image forming apparatus that employs an inkjet recording method (hereinafter, this embodiment is referred to as “second embodiment”). ).
Even if an image whose image maintenance time is controlled is formed on the color developing sheet 400 using the printer of Embodiment 1 described above, after the image is formed, the image maintenance time is not changed as it is. Meanwhile, an image remains on the color developing sheet 400. However, for example, for security reasons, there are cases where it is desired to erase an image earlier than the initial image maintenance time elapses after image formation. In this case, even in the printer of the first embodiment, the color developing sheet 400 to be erased is set in the sheet storage unit 200, and a solid image is formed so as to overlap the image on the color developing sheet. It is possible to erase the image. However, it takes time to form a solid image using the ejection heads 110A and 110B, and the image erasing process cannot be performed quickly.
The second embodiment provides a printer that can perform image erasing processing quickly.

FIG. 4 is an explanatory diagram illustrating a schematic configuration of the printer according to the second embodiment.
The basic configuration of this printer is the same as that of the printer of the first embodiment, but the image erasing unit 500 is added downstream of the image recording unit 100 in the conveyance direction of the color developing sheet 400. It differs from that of Form 1. Hereinafter, only this difference will be described, and other description will be omitted.

  The image erasing unit 500 according to the second embodiment erases an image by applying an erasing liquid to the entire region including the image portion of the color developing sheet 400. The image erasing unit 500 includes an erasing liquid tank 501 containing an erasing liquid, a pumping roller 502 disposed so as to be immersed in the erasing liquid in the erasing liquid tank 502, and a pumping roller 502 in contact with the surface of the pumping roller 502. An intermediate roller 503 that receives the erasing liquid attached to the surface of the sheet, and an application that receives the erasing liquid that contacts the surface of the intermediate roller 503 and that adheres to the surface of the intermediate roller 503 and applies the erasing liquid to the recording surface of the color sheet 400 And a roller 504. The application roller 504 applies the erasing liquid attached to the surface thereof to the recording surface of the color developing sheet 400 that passes between the application roller 505 and the erasing liquid to adhere to the entire recording surface of the color developing sheet 400. it can. As a result, the recording surface of the discharged color developing sheet 400 is uniformly the color of the base material 401, and the image formed on the recording surface is erased. According to this configuration, it is possible to perform the image erasing process much faster than when erasing an image by forming a solid image using the ejection heads 110A and 110B.

Here, when the image erasing process is performed according to the second embodiment, the erasing liquid disappears from the absorbing layer 402 of the color developing sheet 400 together with the visible image liquid, so that the color developing sheet 400 can be reused. . However, in the method of erasing an image by applying an erasing liquid as in Embodiment 2, the time required until the color developing sheet 400 can be reused depends on the volatilization rate of the erasing liquid. .
Therefore, as the erasing liquid, it is preferable to use a liquid having an evaporation rate that is equal to or faster than the evaporation rate of the image solution having the fastest evaporation rate among the image solutions used in the printer. As a result, the image is erased in a time earlier than the image maintenance time of the image by applying the erasing liquid on the image of the color developing sheet 400 that has been image-formed by the printer using two types of developing liquids. It becomes possible.

  For example, even when the image is erased by applying water to the entire surface of the coloring sheet 400 formed with ethylene glycol alone, which has an image retention time longer than that of water, only the water evaporates first and the ethylene glycol The situation of remaining does not happen. On the contrary, it has been confirmed that the same is true even when the image is erased by applying ethylene glycol to the entire surface of the color developing sheet 400 formed with water. Further, the present inventors can reduce the image maintenance time by applying an erasing liquid having a higher evaporation rate to the developing solution that adheres to the color developing sheet 400 as compared with the case where the erasing liquid is not applied. It has been confirmed by the experiment. However, it is desirable to use an erasing solution that is compatible with the developer that adheres to the color developing sheet 400. In the second embodiment, water is used as the erasing liquid.

As described above, according to the printer of the second embodiment, it is possible to reduce the time required for reusing the color forming sheet on which the image is formed. Therefore, it is possible to sufficiently respond to a request for reusing the color developing sheet earlier than the image maintenance time originally assumed.
Further, according to the printer of the second embodiment, it is possible to form an image so that the image maintenance time is relatively long and to quickly erase the image from the color developing sheet after use. Fine control over the volume ratio of the two types of the visible liquid at 100 is not necessary.

[Embodiment 3]
Next, as in the case of the first and second embodiments, another embodiment in which the present invention is applied to a printer as an image forming apparatus that employs an inkjet recording method (hereinafter, this embodiment is referred to as “third embodiment”). Will be described.
The printer according to the third embodiment includes an image erasing unit similar to the printer according to the second embodiment, but the arrangement and configuration of the image erasing unit are different. Hereinafter, only this difference will be described, and other description will be omitted.

FIG. 5 is an explanatory diagram illustrating a schematic configuration of the printer according to the third embodiment.
The image erasing unit 600 according to the third embodiment erases the image by erasing the visible image liquid adhering to the color developing sheet 400 from the absorption layer 402. The image erasing unit 600 is a fan 601 serving as a blowing unit that blows air toward the recording surface of the coloring sheet 400 that passes through the opposite area, and a heating unit positioned between the fan 601 and the recording surface of the coloring sheet 400. And a heater 602. According to this configuration, hot air can be applied to the recording surface of the color developing sheet 400 on which an image is formed by the developer, and thereby evaporation of the developer attached to the color developing sheet 400 can be promoted. . Specifically, the vapor pressure of the visible image liquid adhering to the color developing sheet 400 is increased by the heating by the image erasing unit 600 to promote evaporation, and the vaporized visible liquid in the vicinity is always scattered by blowing air. It is made to become below the saturated vapor pressure. According to the third embodiment, as compared with the case where the color developing sheet is left as it is, the visible liquid adhering to the color developing sheet 400 can be evaporated earlier, and the image can be erased quickly. Specifically, with the use of hot air at 50 ° C., it was possible to reduce the image maintenance time of 94 minutes, which is normally 94 minutes, to 5 minutes.

In the third embodiment, the time required for the image erasing process is longer than that in the second embodiment, but the color developing sheet 400 can be reused immediately after erasing the image, so that the color developing sheet 400 can be reused. Time to become is shortened.
In particular, in the third embodiment, the image erasing unit 600 is arranged on the upstream side in the conveyance direction of the color developing sheet 400 with respect to the image recording unit 100. As a result, the color developing sheet 400 on which an image is formed with the developing solution is set in the sheet storage unit 200, and the image on the color developing sheet 400 is erased by the image erasing unit 600, and then the image recording unit 100 continues to the next. An operation of forming an image becomes possible. Therefore, according to the third embodiment, it is not necessary to wait until the coloring sheet 400 can be reused. However, in the image erasing process by the image erasing unit 600 in the third embodiment, since the color developing sheet 400 is heated, even if an image is formed with a visible liquid immediately after the image erasing process, the image is maintained longer than the desired image maintaining time. Time will be shortened. Therefore, in this case, for example, the color-developing sheet after image erasing is stocked in the printer for a while and then cooled, and then the image is recorded on the color-developing sheet.

In the third embodiment, a combination of heating and air blowing is employed as the image erasing unit 600, but an image may be erased by either heating or air blowing.
Further, the image erasing unit 600 according to the third exemplary embodiment may be replaced with or in addition to the configuration thereof, for example, by heating the color developing sheet 400 by bringing a heat roller into contact with the color developing sheet 400 to erase the image. You may employ | adopt the structure to do.

  As the image erasing units 500 and 600 in the second and third embodiments, instead of the configuration or in addition to the configuration, for example, the visible image liquid adhering to the color developing sheet 400 is sucked by a liquid absorbing means such as a nonwoven fabric. What deletes an image can also be adopted.

In addition to the coloring sheet 400 used in Experimental Example 1 described above, water brush paper manufactured by Mishima Paper Co., Ltd., a blue drawing sheet manufactured by Pilot Co., Ltd., titanium oxide as an inorganic filler in α-methylstyrene was applied to the film with a wire bar. In any of the colored sheets, the same effects as those in the above-described embodiments were obtained.
Further, in addition to the color developing sheet 400 used in Experimental Example 1 described above, no change was observed even when image formation with a developer and image erasure by natural drying were repeated 50 times for these color developing sheets. . As long as these coloring sheets are not bent or scratched, it seems that they can withstand repeated use several hundred to several thousand times.

As described above, in the printers according to the first to third embodiments, when the developer is attached, the color difference is generated between the portion where the developer is attached and the portion where the developer is not attached. When the image liquid evaporates, there is no difference in color development between the portion where the developer is attached and the portion where the developer is not attached. By attaching, an image corresponding to the image information can be formed on the color developing sheet 400. This printer is supplied from a plurality of developer tanks 120A and 120B as a plurality of storage units for individually storing two types of developer solutions having different evaporation rates, and these developer tanks 120A and 120B. Discharge heads 110A and 110B as applying means for applying two types of developer to the same location on the color developing sheet 400 based on image information, and the amount of the developer applied by each of the discharge heads 110A and 110B is changed. It has a discharge amount control unit 130 as application amount changing means. Thereby, an image can be formed on the color developing sheet 400 so as to have various image maintenance times.
Further, according to the first to third embodiments, the ejection heads 110A and 110B individually apply the visible liquid supplied from the visible liquid tanks 120A and 120B to the color developing sheet 400, and the ejection amount control. The unit 130 changes the application amount of the visible liquid by the ejection heads 110A and 110B. With this configuration, it is possible to change the volume ratio of the two types of the visible liquid between a plurality of locations on the single color developing sheet 400. As a result, it is possible to vary the image maintenance time for images formed at different locations on the single color developing sheet 400. Therefore, an image in which an image to be erased early and an image to be kept for a long time can be formed on a single color developing sheet 400.
In place of the configurations of the first to third embodiments, a mixing unit that mixes two types of the developer supplied from each of the developer tanks 120A and 120B is provided. Two types of image liquids applied to the same location on the color developing sheet 400 by controlling the change of the mixing ratio of the two types of image developing liquids in the mixing means, with the configuration of applying from the discharge head to the color developing sheet 400. The volume ratio may be changed. In this case, it is not necessary to prepare a discharge head for each visible liquid, and complicated control of changing the amount of the visible liquid applied by the discharge head is not necessary. The configuration can be greatly simplified.
Further, according to the first to third embodiments, since the two types of the visible liquids have compatibility, it is easy to control the image maintenance time.
Further, according to the first to third embodiments, an image is ejected by the ejection heads 110 </ b> A and 110 </ b> B as ejection means for applying the visible liquid to the color sheet 400 by ejecting the liquid droplet of the visible liquid based on the image information. The ink jet recording method to be formed is adopted. Thereby, the technology such as an existing ink jet printer can be used.
Further, the printer according to the second embodiment provides an image as an image erasing unit that erases an image by applying an erasing liquid to the entire region including the image portion of the color developing sheet 400 to which the liquid is adhered. The erasing unit 500 is provided separately from the image recording unit 100. As a result, the image erasing process can be performed quickly.
In particular, the image erasing unit 500 in the printer of the second embodiment is equivalent to the evaporation speed of the visible liquid having the fastest evaporation speed among the visible liquids stored in the visible liquid tanks 120A and 120B as the erasing liquid. Since a liquid (pure water) having an evaporation rate faster than that is used, the image is erased in a time earlier than the image maintenance time of the image of the color developing sheet 400 formed using two types of developer liquids with this printer. It becomes possible to do.
Further, in the printer of the third embodiment, the image liquid that disappears from the color developing sheet 400 and erases the image on the upstream side in the conveyance direction of the color developing sheet 400 with respect to the ejection heads 110A and 110B. It has an image erasing unit 600 as erasing means. As a result, the color developing sheet 400 can be reused immediately after erasing the image, so that it is possible to shorten the time until the color developing sheet 400 can be reused. Further, since the image erasing unit 600 is arranged on the upstream side in the conveyance direction of the color developing sheet 400 with respect to the image recording unit 100, the color developing sheet 400 on which an image is formed with the developer is set in the sheet storage unit 200, After the image on the color developing sheet 400 is erased by the image erasing unit 600, the image recording unit 100 can continuously perform the next image forming operation. Therefore, it is not necessary to wait until the coloring sheet 400 can be reused.
In particular, the image erasing unit 600 in the printer of the third embodiment is an evaporation promoting unit that promotes evaporation of the visible image liquid attached to the color developing sheet 400. Thereby, it is possible to erase the image with a simple configuration.

In the present embodiment, the case where the image formed on the recording surface of the color developing sheet 400 is only the image formed with the visible liquid has been described. However, the image forming may be performed with toner or ink. In this case, an image in which an image that does not disappear semipermanently by toner or ink and an image that disappears in a relatively short time by the developer can be formed on the color developing sheet 400.
Further, in the present embodiment, the description has been given by taking as an example a color developing sheet on which an image is recorded by making the portion transparent and the background color appear when the developer is attached, but the developer is attached. As a result, a difference in color develops between the portion where the developer is attached and the portion where the developer is not attached, and an image is recorded, and the attached developer and the developer are not attached as the attached developer evaporates. The sheet is not limited to this as long as it is a reusable sheet that eliminates the difference in coloring between the portions and erases the image. Therefore, for example, the developing solution itself attached to the sheet may be colored, or the portion to which the developing solution is attached may be colored.
In addition, if the type of the color developing sheet 400 to be used is changed, specifically, the thickness of the absorbing layer 402 is different and the amount of the visible liquid that can be held is different from each other, or between the absorbing layer 402 and the visible liquid. If a plurality of types of sheets having different bonding forces are used, the image retention time can be changed even when the same volume ratio is set with the same two types of developer. By changing the type of sheet used in this way, the image maintenance time can be controlled more finely.

FIG. 2 is an explanatory diagram illustrating a schematic configuration of a printer according to the first embodiment. (A) is explanatory drawing which shows the cross section of the color development sheet in the state where the visual image liquid has not adhered, (b) is explanatory drawing which shows the cross section of the color development sheet in the state where the visual observation liquid has adhered to a part. . An outline of the change in the image disappearance time at the location when the volume ratio is changed in the case where two types of developing solutions having image maintenance times of t _A and t _B are applied to the same location of the color developing sheet, respectively. It is a graph for demonstrating. FIG. 6 is an explanatory diagram illustrating a schematic configuration of a printer according to a second embodiment. FIG. 10 is an explanatory diagram illustrating a schematic configuration of a printer according to a third embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Image recording part 110A, 110B Discharge head 120A, 120B Visual liquid tank 130 Discharge amount control part 200 Sheet accommodating part 300 Sheet conveyance part 400 Color developing sheet 401 Base material 402 Absorbing layer 500,600 Image erasing part 501 Erasing liquid tank 504 Application Roller 601 Fan 602 Heater

Claims (9)

Due to the adherence of the visible liquid, a color difference occurs between the visible liquid and the non-visible liquid, and an image is recorded. The image according to the image information is applied on the sheet by attaching the developer to the reusable sheet that eliminates the color difference between the non-adherent part and the non-developing part and the image is erased. An image forming apparatus for forming,
A plurality of storage means for individually storing a plurality of types of image liquids having different evaporation rates;
An application unit that applies two or more types of the visible liquids supplied from at least two of the plurality of storage units to the same location on the sheet based on image information;
An image forming apparatus comprising: an application amount changing unit configured to change the application amounts of the two or more types of the visible liquids by the application unit. The image forming apparatus according to claim 1.
The application unit is composed of a plurality of application units that individually apply the visible liquid supplied from the storage units to the same location on the sheet,
The image forming apparatus according to claim 1, wherein the application amount changing means changes the application amount of the visible liquid by the application units that apply the two or more types of the visible liquid. The image forming apparatus according to claim 1.
The application means has a mixing means for mixing the two or more types of the developer before applying the two or more types of the developer to the sheet,
The applying means is for applying the visible liquid mixed by the mixing means to the sheet,
The image forming apparatus according to claim 1, wherein the application amount changing unit changes a mixing ratio of the two or more types of the visible liquids in the mixing unit. The image forming apparatus according to any one of claims 1 to 3,
2. The image forming apparatus according to claim 1, wherein the two or more types of the visible liquids are compatible. The image forming apparatus according to any one of claims 1 to 4, wherein:
The image forming apparatus according to claim 1, wherein the applying unit is a discharging unit that applies the visible liquid to the sheet by discharging a droplet of the visible liquid based on the image information. The image forming apparatus according to any one of claims 1 to 5,
An image forming apparatus comprising image erasing means for erasing an image by applying an erasing liquid to an entire area including an image portion of the sheet to which the liquid is adhered. The image forming apparatus according to claim 6.
The image erasing means is a liquid having an evaporation speed equal to or faster than the evaporation speed of the image liquid having the fastest evaporation speed among the image liquids stored in the plurality of storage means as the erasing liquid. An image forming apparatus using the image forming apparatus. The image forming apparatus according to any one of claims 1 to 5,
An image forming apparatus comprising an image erasing unit for erasing an image by erasing a visible image liquid adhering to a sheet from the sheet on the upstream side in the sheet conveying direction with respect to the applying unit. The image forming apparatus according to claim 8.
The image forming apparatus according to claim 1, wherein the image erasing unit is an evaporation accelerating unit for accelerating the evaporation of the visible liquid attached to the sheet.

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