JPH0985929A - Image forming device and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming device and its method for successively and cyclically forming a high resolution image. SOLUTION: This device is equipped with an image support 1, on which an image is supported, a liquid film forming means 7 for forming a liquid film on the image support 1 by feeding liquid to the image support 1, a latent image forming means 3 for forming a liquid latent image due to a pattern produced by the absence and presence of the liquid film on the image support 1 by partially removing the liquid film formed on the image support 1 and a developing means 8 for forming the image with developer 4 by feeding the developer 4, the contact with the liquid of which brings the lowering of the viscosity of the liquid, to the liquid latent image.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus and method used in printers, facsimiles, copiers and the like.

[0002]

2. Description of the Related Art Conventionally, as a high resolution image forming apparatus,
Offset printing machines are widely used. Normally, image formation in offset printing is performed in the following order. First, a plate material is prepared by coating a surface of a hydrophilic material with a hydrophobic photosensitive layer. Next, the plate material is exposed by light carrying image information. Next, the plate material after exposure is chemically treated to chemically remove only the photosensitive layer of the non-image area which has not been exposed while leaving the photosensitive layer of the exposed image area to remain. A plate consisting of image areas and hydrophilic non-image areas is formed. Next, the plate is moistened with water to adhere water (fountain solution) to the hydrophilic non-image area, and then a hydrophobic ink is applied to the plate. As a result, due to the repulsive force of water and oil, the non-image area with dampening water repels ink,
Ink is deposited only on the image portion that is not wet with water, and an image is formed.

As described above, in the offset printing plate, since the non-image portion and the image portion have different surface states, blurring of the outline of the image portion hardly occurs, and a high-resolution image can be obtained. However, it is impossible to recycle the offset plate because it is produced by a chemical treatment. Therefore, it is good to print a large number of copies using one plate, but when only a small number of copies is required, the cost of the plate per printed matter becomes high, and the printing cost rises. There is.

Therefore, various methods for forming a high-resolution image without using such a non-recyclable plate have been proposed. For example, Japanese Patent Publication No. 49-4661 discloses the following image forming method. That is,
An image support provided with a photosensitive layer whose conductivity is changed by light is exposed to light and dark patterns to form a pattern due to the change in conductivity, and then an electric field is applied to the image support to make it conductive. An electrostatic latent image is obtained by forming a high electric field in a region having increased electric field and a low electric field in a region having low conductivity. The high electric field region thus formed is easily wetted by the hydrophobic liquid. Therefore, a colorless hydrophobic liquid is supplied in the vicinity of the image support carrying the electrostatic latent image so that only the region where the high electric field is formed is wetted by the hydrophobic liquid, and then the ink composed of the colored hydrophilic liquid is used. Is supplied to the image support and only the region where the low electric field is formed is wetted with the ink to obtain a visible image.

Further, in Japanese Patent Laid-Open No. 1-208144, an ink jet method is used to deposit minute droplets of a hydrophilic or lipophilic liquid so as to correspond to an image, and An image forming method has been disclosed in which a latent image composed of a distribution of lipophilic liquid is formed, and an image is formed by transferring a hydrophilic or lipophilic ink to the latent image by using this latent image as a printing plate.

[0006]

However, in the image forming method disclosed in Japanese Patent Publication No. 49-4661, the surface material of the high electric field region and the low electric field region on the image support are the same. Therefore, the holding power of the hydrophobic liquid and the ink is weak, bleeding easily occurs at the boundary between the region wetted with the hydrophobic liquid and the region wetted with the ink, and the contrast between the high electric field region and the low electric field region is high. In many cases, image fogging occurs and resolution is lowered without sufficient removal.

On the other hand, in the image forming method disclosed in Japanese Patent Application Laid-Open No. 1-208144, the transfer of ink to the latent image is caused by the affinity between the hydrophilic liquid for the latent image and the hydrophilic ink and the latent image. Since it depends only on the affinity between the lipophilic liquid and the lipophilic ink, defective transfer of the ink is likely to occur. In addition, since this method forms a latent image using an inkjet method, the resolution of the image is determined by the thinness of the diameter of the ink jet nozzle, and it is difficult to obtain a high resolution due to restrictions on the processing accuracy of the nozzle. difficult.

In view of the above problems, it is an object of the present invention to provide an image forming apparatus and method capable of forming a high resolution image.

[0009]

According to a first image forming apparatus of the present invention, which achieves the above object, an image support on which an image is supported, and a liquid is supplied to the image support to supply a liquid onto the image support. A liquid image forming means for forming a film and a latent image for forming a liquid latent image on the image support according to the presence or absence of the liquid film by partially removing the liquid film formed on the image support. It is characterized by comprising: forming means; and developing means for supplying a developer whose viscosity is reduced by contact with the liquid to the liquid latent image to form an image by the developer on the image support.

In the first image forming apparatus of the present invention, the developing means supplies the liquid latent image with a developer in which a water-soluble resin and a pigment or a dye are dispersed in water. Is preferred. Further, in the above-mentioned first image forming apparatus of the present invention, the developing means supplies the liquid latent image with a developer whose concentration is reduced by contact with the liquid and whose viscosity is reduced by the concentration decrease. Alternatively, the developing means may supply the liquid latent image with a developer whose pH changes due to contact with the liquid and whose viscosity decreases due to the pH change.

Further, the second image forming apparatus of the present invention which achieves the above object forms an image support on which an image is supported, and a liquid is supplied to the image support to form a liquid film on the image support. A liquid film forming means, and a latent image forming means for forming a liquid latent image on the image support by a pattern of the presence or absence of the liquid film by partially removing the liquid film formed on the image support, By contacting the liquid latent image with a gel-like developer that contains ink and contracts by contact with the liquid, the ink in the developer is supplied to the liquid latent image to form the ink on the image support. And a developing unit for forming an image.

Here, in the second image forming apparatus of the present invention, the image support moves in a predetermined direction, and the developing means carries the film-form developer and carries the image support. It is preferable to provide a developer carrying member which moves at the same speed as the image support in a direction in which the liquid latent image is contacted with the liquid latent image and the relative slip with the image support is prevented.

Further, in the second image forming apparatus of the present invention, the developing means causes a developer contracting due to a change in liquid composition due to contact with the liquid to come into contact with the liquid latent image so that the developer is contained in the developer. May be supplied to the liquid latent image to form an image by the ink on the image support, or the developing means may be
By contacting the liquid latent image with a developer that contracts due to a pH change due to contact with the liquid, the ink in the developer is supplied to the liquid latent image to form an image with the ink on the image support. Further, the developing means brings the ink in the developer into contact with the liquid latent image by bringing the developer, which contracts due to a change in ionic composition due to contact with the liquid, into contact with the liquid latent image. To form an image with the ink on the image support.

Further, in either the first image forming apparatus or the second image forming apparatus, the liquid film forming means supplies a liquid containing water as a main component to the image support. It is preferable that
Further, in either the first image forming apparatus or the second image forming apparatus, the latent image forming unit is
It is preferable that the liquid latent image is formed by irradiating a laser beam on the image support on which the liquid film is formed, or the latent image forming means is
It is also a preferable embodiment that the liquid latent image is formed by partially heating the image support on which the liquid film is formed.

Here, in either the first image forming apparatus or the second image forming apparatus, a predetermined recording medium is supplied and supplied to the image support after the image is formed. It is preferable to provide an image transfer means for transferring the image formed on the image support to the recording medium.
Further, the first image forming method of the present invention for achieving the above object comprises a step of supplying a liquid to an image support on which an image is supported to form a liquid film on the image support, and a step of forming a liquid film on the image support. By partially removing the formed liquid film, a step of forming a liquid latent image on the image support according to a pattern of the presence or absence of the liquid film, and a developer whose viscosity is lowered by contact with the liquid are described above. And a step of supplying the liquid latent image to form an image with the developer on the image support.

Further, the second aspect of the present invention which achieves the above object.
In the image forming method, the step of supplying a liquid to an image support on which an image is supported to form a liquid film on the image support, and partially removing the liquid film formed on the image support. A step of forming a liquid latent image on the image support according to a pattern with or without a liquid film, and bringing a gel developer containing ink and contracting upon contact with the liquid into contact with the liquid latent image. And supplying the ink in the developer to the liquid latent image to form an image by the ink on the image support.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. FIG. 1 is a schematic diagram showing an image forming process according to an embodiment of the present invention. As shown in FIG. 1A, a liquid that reduces the viscosity of the developer 4 by contact with a developer 4 (see FIG. 1C) described later is uniformly applied onto the image support 1 to form a liquid. The film 2 is formed. It is desirable that the thickness of the liquid film 2 be the minimum thickness necessary to reduce the viscosity of the developer 4. Finally, considering the influence on the recording medium, it is 10 μm or less, preferably 0.1 μm or less. It is preferable that the thickness is about 3 μm.

To form the liquid film 2, the liquid may be applied by using a roll, or the film thickness may be regulated by using a blade after supplying the liquid droplets onto the image support 1. Good.
Next, the liquid film 2 is partially removed by using the latent image forming means 3 in accordance with the image information, and as shown in FIG. 1B, a region corresponding to an image portion is formed on the image support 1. Leaving the liquid film 2
The liquid film 2 in the area corresponding to the non-image portion is removed to form a liquid latent image 20 having a pattern including a region 20a where the liquid film 2 exists and a region 20b where the liquid film 2 is removed.

As the latent image forming means 3, it is preferable to use a non-contact type thermal means such as an infrared laser.
The liquid film 2 is not limited to these, and may be a contact type or a non-contact type as long as the liquid film 2 can be removed with high precision and in a short time according to an image, for example, a thermal head,
An air suction head or the like can also be used. Next, FIG.
As shown in (c), the developer 4 is supplied onto the image support 1.

The developer 4 may be a developer whose viscosity is reduced by contact with the liquid forming the liquid film 2, or the developer 4 contains a liquid containing ink and forming the liquid film 2. It may be a gel-like developer that contracts when contacted. Details of the developer 4 will be described later. The developer 4 is supplied by developing means such as a rotating roll (not shown).

When a developer whose viscosity is lowered by contact with a liquid is used, when the developer 4 is supplied onto the image support 1, the developer 4 contacted with the region 20a where the liquid film 2 exists. Only mixes with the liquid film 2 causing a decrease in viscosity,
The developer 4 whose viscosity has decreased is transferred onto the image support 1. In the region 20b where the liquid film 2 is removed, the viscosity of the developer 4 does not decrease, so that the transfer of the developer 4 to the image support 1 does not occur.

On the other hand, when the above-mentioned gel-like developer is used as the developer 4, when the developer 4 is supplied onto the image support 1, the developer which comes into contact with the region 20a where the liquid film 2 is present. Only 4 causes contraction, the ink contained in the contracted developer 4 is discharged, and the discharged ink is transferred to the image support 1. In the region 20b where the liquid film is removed,
Since the contraction of the developer 4 does not occur, the ink in the developer 4 is not discharged, so that the image support 1 of the ink is not discharged.
No transition to.

As described above, since the developer 4 or the ink contained in the developer 4 does not transfer to the non-image portion, that is, the region 20b from which the liquid film is removed, image fogging occurs. Therefore, a high-resolution image can be obtained. In this way, an image 21 is formed on the image support 1 by a film in which the liquid film 2 and the developer 4 are mixed, and then,
As shown in FIG. 1D, the image 21 formed on the image support 1 is transferred onto the recording medium 5.

The recording medium 5 is an intermediate transfer member such as a transfer roll, and the image 21 is once transferred to the intermediate transfer member, and then the image transferred to the intermediate transfer member is retransferred to the recording paper. However, it is preferable that the recording paper itself is used as the recording medium 5 and the image 21 is directly transferred to the recording paper because the configuration of the apparatus can be simplified. Next, the developer will be described.

As described above, a developer whose viscosity decreases by contact with another liquid may be used. This decrease in viscosity may be caused by a chemical change, but other than that, for example, the decrease in viscosity may be caused by a decrease in concentration. The method of utilizing the decrease in viscosity due to the decrease in concentration is preferable because it is simple and the image can be formed at high speed.

Although a water-based or oil-based printing ink or the like can be used as a developer whose viscosity decreases due to a decrease in concentration, the oil-based printing ink requires an attention because it uses an organic solvent. Therefore, it is preferable to use, as a developer, a water-based printing ink in which a water-soluble resin and a pigment or a dye are dispersed, for example. In that case, it is preferable to use water or a liquid containing water as a main component also as the liquid for forming the liquid latent image.

Examples of the above water-soluble resins include starch, dextrin, alginate, cellulose ester, cellulose ether, polyvinyl alcohol, polyvinyl methyl ether, polyacrylamide, polyethylene oxide, polyacrylate, and other water-soluble resins. Shellac, styrenated shellac, styrene maleic acid resin, rosin maleic acid resin, casein and its derivatives, colloidal dispersions such as acrylic copolymers, and further acrylic resin, vinyl acetate resin, styrene resin, vinyl chloride resin A resin, an emulsion polymer such as a synthetic rubber latex, or an emulsifying resin such as polyurethane, polyester, an alkyd resin, an epoxy ester and a rosin ester can be used alone or as a mixture.

FIG. 2 is a graph showing the relationship between the concentration of the carboxymethyl cellulose aqueous solution and the viscosity. As shown in FIG. 2, the viscosity of the aqueous carboxymethyl cellulose solution sharply decreases as the concentration decreases. Utilizing this phenomenon, a water-soluble developer whose viscosity decreases with decreasing concentration is brought into contact with the water film of the liquid latent image, and the viscosity of the developer in the region in contact with the water film of the liquid latent image is decreased. Thereby, the developer can be transferred to the image support.

In this example, water was mentioned as an example of the liquid that reduces the viscosity of the developer, but it is difficult to form a liquid film when water alone has a high surface tension. Therefore, it is preferable to use, as the liquid film, a water film to which a few percent of the surfactant has been added, because the surface tension of the liquid film is lowered and the wettability to the image support surface is increased. Surfactants include
There are cationic, anionic, amphoteric, and other ionic and nonionic surfactants, both of which are effective in reducing the surface tension of water. Among them, polyoxyethylene type and polyol Type, polyhydric alcohol ester type, nonionic surfactants such as ethylene oxide / propylene oxide block copolymers are preferred.

The surface of the image support is preferably made of a material having a high wettability with water containing the above-mentioned surfactant. Examples of such materials include metals such as aluminum, copper, stainless steel, platinum, gold, and nickel, metal oxides thereof, rubber with surface hydrophilic treatment, and glass or a composite of metal and glass. Among them, an aluminum anodic oxide film, which is widely used as a plate material for offset printing, is preferable. The aluminum anodic oxide film is preferable as the surface material of the image support because it has high water retention.

A water-soluble resin whose viscosity changes as the pH (hydrogen ion index) of the aqueous solution changes can also be used as the developer whose viscosity decreases when it comes into contact with the liquid film. FIG. 3 is a graph showing the effect of pH on the relative viscosity of a 0.5% aqueous solution of sodium polyacrylate. As shown in FIG. 3, the relative viscosity of a 0.5% aqueous solution of sodium polyacrylate has a maximum value near pH 9, and the relative viscosity sharply decreases when the pH becomes higher or lower than that. Therefore, an aqueous solution having a pH of about 9 is used as a developer, and an acidic aqueous solution of hydrochloric acid, sulfuric acid, acetic acid or the like, or an alkaline aqueous solution of sodium hydroxide, calcium hydroxide, an ammonia aqueous solution or the like is used for the liquid latent image. When used as a liquid, the contact between the developer and the liquid film causes p
By lowering the H and / or raising the pH, the viscosity of the developer can be reduced and the developer can be transferred to the image support as described with reference to FIG.

When utilizing such a change in viscosity due to a change in pH, it is desirable to use a chemically stable substance that is not easily corroded by acid or alkali, such as glass, as the image support. Up to this point, the description has been given of the developer whose viscosity is lowered by the contact with the liquid forming the liquid film 2 (see FIG. 1). However, the following is a gel-like developer that contains ink and contracts by the contact with the liquid. The developer will be described.

This utilizes the contraction of the gel due to the phase transition caused by the contact of the gel with the liquid. That is, the gel-like developer 4 containing the ink (see FIG.
(See (c)) is supplied to the liquid latent image 20 to develop the developer 4
Is brought into contact with the liquid film 2 in the region 20a, the gel-like developer 4 contracts and the ink contained in the developer 4 until then is discharged. Therefore, an image is formed by the discharged ink on the image support 1. The liquid latent image 20
It is preferable that the thickness of the gel-like developer 4 supplied above is as thin as possible because the rate of phase transition becomes high.

It is known that such a gel phase transition is caused mainly by any of the following three factors. (1) Change in liquid composition When ethanol, methanol, acetone, or an aqueous solution thereof is brought into contact with the gel, the volume of the gel rapidly decreases. When an image is formed by utilizing the phase transition due to this phenomenon, alcohols such as ethanol and methanol, ketones such as acetone, esters such as ethyl acetate, or aqueous solutions thereof are placed on the image support 1. The liquid film 2 is supplied to form the liquid film 2 (see FIG. 1A) on the image support 1. (2) Change in pH The gel having an ionic dissociative group undergoes phase transition and contracts when its pH changes. When an image is formed by utilizing a phase transition due to a pH change, an acidic aqueous solution of hydrochloric acid, sulfuric acid, acetic acid or the like is supplied onto the image support 1 and the liquid film 2 formed by the acidic aqueous solution on the image support 1 (see FIG. 1 (a)). (3) Ionic composition change When an electrolyte is brought into contact with the gel, the ionic composition changes due to the effect of osmotic pressure due to the ionic composition change, and a phase transition of the gel occurs
The gel shrinks. When an image is formed by utilizing the phase transition of a gel due to a change in ionic composition, an aqueous solution of sodium chloride, calcium chloride, barium chloride or the like is used as the image support 1.
A liquid film 2 (see FIG. 1A) is formed by the aqueous solution supplied onto the image support 1.

An example of the phase transition of the gel due to the change in ionic composition will be described below. FIG. 4 is a graph showing the influence of the concentration of the barium chloride aqueous solution on the swelling degree of the sodium acrylate gel. As shown in FIG. 4, when the sodium acrylate gel is brought into contact with various concentrations of barium chloride aqueous solution, the swelling degree of the gel is significantly reduced in the barium chloride aqueous solution having a certain ion amount or more. That is, by bringing the gel into contact with the electrolyte, the gel that has been swollen up to that point can be contracted.

In order to form an image by utilizing the phase transition of the gel as described above, the above-mentioned water-soluble resin may be used alone or a crosslinking agent may be added if necessary to form a three-dimensional knitted crosslinked structure. A developer that is made into a gel is used. Examples of the ink solvent to be contained in the gel-like developer include water, alcohols such as ethanol and isopropyl alcohol, hydrocarbons such as hexane and benzene, ketones such as acetone, esters such as ethyl acetate,
Ethers such as diethyl ether and amides such as dimethylformamide can be used alone or as a mixed solvent.

However, from the viewpoint of easy handling, it is preferable to use water as the solvent, and as the developer, a water-based ink in which a dye or a pigment is dispersed in water is contained in a hydrophilic gel. It is preferable. FIG.
1 is a sectional view of an embodiment of an image forming apparatus of the present invention. As shown in FIG. 5, in this image forming apparatus 100, an image support 1 that supports an image and rotates in the direction of arrow A, and a liquid is supplied to the image support 1 to form a liquid film on the image support 1. The liquid film forming means 7 for forming the liquid film and the liquid film formed on the image support 1 are partially removed by irradiating the image support 1 with a laser beam, thereby forming a liquid according to the pattern of the presence or absence of the liquid film. A latent image forming means 3 for forming a latent image and a developing means 8 for forming an image on the image support 1 by developing the liquid latent image are provided.

The liquid film forming means 7 comprises a liquid film forming roll 7a for forming a liquid film on the image support 1, and a liquid supply means 7b for supplying a liquid to the liquid film forming roll 7a. The liquid film forming roll 7a is made of a sponge-like material, and forms a liquid film having a uniform thickness on the image support 1 while rotating in the direction of arrow B. The developing means 8 includes a developer carrier 8a that rotates in the direction of arrow C for supplying the developer 4 to the liquid latent image, and a developer tank 8 that holds the developer 4.
b and a developer layer thickness regulating bar 8c for regulating the layer thickness of the developer on the developer supply roll 8a. The developer carrying member 8a carries a film-like developer and contacts with the liquid latent image on the image supporting member 1 to prevent the relative slippage with the image supporting member 1 and the image supporting member 1a. It is controlled to rotate at the same peripheral speed. As a result, the liquid latent image formed on the image support 1 by the latent image forming means 3 and the film-shaped developer carried by the developer carrying member 8a are prevented from rubbing against each other to prevent the liquid latent image from being destroyed. .

Further, in the image forming apparatus 100, a transfer roll 9 for rotating the image formed on the image support 1 by the developing means 8 onto the recording medium 5 and rotating in the direction of arrow D,
A cleaning roll 10 and a cleaning blade 11 for removing the developer and the liquid remaining on the image support 1 to clean the surface of the image support 1 are provided. In addition,
In the present embodiment, as shown in FIG. 5, the drum-shaped image support 1 and the roll-shaped developer carrier 8a are used, but the image support 1 is limited to such a rotor shape. Instead of this, a flat plate-shaped image support 1 as shown in FIG. 1 may be used.

The developing means 8 does not necessarily have to be provided with the developer carrying member 8a. In short, the developing means 8 may supply the developer to the liquid latent image formed on the image support 1 to form an image with the developer or ink on the image support 1. A process of forming an image by the image forming apparatus 100 will be described. When the surface of the image support 1 rotating in the direction of the arrow A reaches a region in contact with the liquid film forming means 7, the liquid film forming roll 7a forms a liquid film 2 having a uniform thickness on the image support 1 (see FIG. ) Reference) is formed.

Next, the liquid film on the image support 1 is partially removed by the latent image forming means 3, and the liquid latent image 20 (see FIG. 1 (b)) according to the pattern of the presence or absence of the liquid film is image-supported. Formed on the body 1. Next, the image corresponding to the liquid latent image is formed on the image support 1 by the developing means 8.

When the developing means 8 uses a developer whose viscosity is lowered by contact with the liquid film 2, when the developer 4 is supplied to the liquid latent image 20, the liquid latent image 20 is obtained. Only in the area 20a where the liquid film exists, the viscosity of the developer 4 is lowered, the developer 4 is transferred to the image support 1,
An image is formed by the developer 4 on the image support 1. On the other hand, when the developing means 8 uses a gel-like developer 4 which contains ink and contracts when contacted with the liquid film 2, the developer 4 is brought into contact with the liquid latent image 20. The ink in the developer 4 is supplied to the liquid latent image 20, and the region 20 of the liquid latent image 20 where the liquid film exists.
Only the developer 4 corresponding to a causes contraction, the ink contained in the developer 4 is transferred to the image support 1, and an image is formed on the image support 1 by the ink.

The image formed on the image support 1 by the developing means 8 is transferred to the recording medium 5 by the transfer roll 9. The surface of the image support 1 after the transfer is cleaned by the cleaning roll 10 and the cleaning blade 11, and then reaches the area in contact with the liquid film forming means 7 again, and the next image formation is performed.

[0044]

EXAMPLES Next, a developer and a liquid for forming a liquid latent image will be described with reference to examples. Example 1 As a developer, 20% by weight of pigment, 40% by weight of water as a solvent, 28% by weight of polyvinyl alcohol as a water-soluble resin, and 5% of ethanol as a dispersibility improver.
% By weight, 5% by weight of ammonia as a water-solubilizing agent, and 2% by weight of a thickening agent, a swelling clay mineral (smectite).
Was used as a mixture.

As the liquid for forming the liquid latent image, water containing 2% by weight of glyceryl monostearate as a surfactant is used, and this liquid is used as the liquid film forming means 7 (FIG. 5). (See FIG. 5) to form a liquid film on the surface of the image support 1 (see FIG. 5) made of an anodized plate by a uniform thickness of 1 μm, and a latent image forming means using a thermal head is formed. 3 (see FIG. 5), the liquid in the portion corresponding to the non-image portion was removed to form a liquid latent image.
This liquid latent image has 3 dots on the developer carrying member 8a (see FIG. 5).
The developer formed as a thin film having a thickness of μm is supplied to form an image by the developer on the image support 1, and the image is recorded by the transfer roll 9 (see FIG. 5) on the recording medium 5 (see FIG. 5). As a reference), when a plain paper was used and transferred onto the plain paper, a high-resolution image without crushing of the image part or fogging of the non-image part was obtained. (Example 2) As a developer, a thin film of sodium acrylate gel, which was made to absorb a solution of water and cyan dye 10: 1 until the gel could not be retained, was used.

Further, as a liquid for forming a liquid latent image, 5 ×
A 10 ⁻³ mol / liter barium chloride aqueous solution containing 2% by weight of glyceryl monostearate as a surfactant was used. This liquid is used as a liquid film forming means 7
(See FIG. 5), the surface of the image support 1 (see FIG. 5) made of an anodized plate is evenly applied to a thickness of 0.5 μm to form a liquid film, and a high power infrared laser is used. By the used latent image forming means 3 (see FIG. 5), the liquid in the portion corresponding to the non-image portion was removed to form a liquid latent image. The liquid latent image was brought into contact with the developer formed as a thin film having a thickness of 2 μm on the developer carrier 8a (see FIG. 5), and the developer in contact with the liquid film was contracted by the phase transition. Then, the aqueous solution of water and cyan dye in the developer was released, and an image was formed on the image support 1 by the aqueous cyan dye solution. When the image was transferred onto a plain paper recording medium 5 (see FIG. 5) by a transfer roll 9 (see FIG. 5), a high-resolution image was obtained as in Example 1.

[0047]

As described above, according to the first image forming apparatus and the first image forming method of the present invention, the liquid latent image formed by partially removing the liquid film on the image support is used. By supplying the image with a developer whose viscosity decreases due to contact with the liquid that forms the liquid latent image, only the developer whose viscosity has decreased by being supplied to the area where the liquid film is present is transferred to the image support. Therefore, the boundary between the area where the liquid film is present in the liquid latent image and the area where the liquid film is removed is accurately reflected in the image after development, and the image part may be crushed or the non-image part may be fogged. You can get no high resolution images.

Further, according to the second image forming apparatus and the second image forming method of the present invention, ink is contained in the liquid latent image formed by partially removing the liquid film on the image support. Then, by supplying a gel-like developer that contracts due to contact with the liquid forming the liquid latent image, it is supplied to the region where the liquid film exists, and is released from the contracted developer in contact with the liquid. Since only the ink is transferred onto the image support, the boundary between the area where the liquid film is present in the liquid latent image and the area where the liquid film is removed is accurately reflected in the image after development, and the first aspect of the present invention is achieved. Similar to the image forming apparatus or the first image forming method, a high resolution image can be obtained.

As described above, according to the present invention, a high resolution image can be formed, and it is not necessary to use a non-recyclable plate.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing an image forming process according to an embodiment of the present invention.

FIG. 2 is a graph showing the relationship between the concentration of an aqueous carboxymethyl cellulose solution and the viscosity.

FIG. 3 is a graph showing the effect of pH on the relative viscosity of a 0.5% aqueous solution of sodium polyacrylate.

FIG. 4 is a graph showing the influence of the concentration of a barium chloride aqueous solution on the swelling degree of sodium acrylate gel.

FIG. 5 is a sectional view of an embodiment of the image forming apparatus of the present invention.

[Explanation of symbols]

 1 Image Support 2 Liquid Film 3 Latent Image Forming Means 4 Developer 5 Recording Medium 7 Liquid Film Forming Means 7a Liquid Film Forming Roll 7b Liquid Supply Means 8 Developing Means 8a Developer Carrier 8b Developer Tank 8c Developer Layer Thickness Regulation Bar 9 transfer roll 10 cleaning roll 11 cleaning blade 20 liquid latent image 20a region where liquid film 2 is present 20b region where liquid film 2 is removed 21 image 100 image forming apparatus

Claims (15)

[Claims] 1. An image support on which an image is supported, a liquid film forming means for supplying a liquid to the image support to form a liquid film on the image support, and an image support formed on the image support. A latent image forming means for forming a liquid latent image on the image support according to a pattern of presence or absence of the liquid film by partially removing the liquid film, and a developer whose viscosity is lowered by contact with the liquid. And a developing means for supplying an image to the liquid latent image to form an image by the developer on the image support. 2. The developing means comprises water, a water-soluble resin, and
The image forming apparatus according to claim 1, wherein a developer in which a pigment or a dye is dispersed is supplied to the liquid latent image. 3. The developing means supplies to the liquid latent image a developer, the concentration of which is lowered by contact with the liquid and the viscosity of which is lowered by the reduction of the concentration. The image forming apparatus described. 4. The developing means supplies the liquid latent image with a developer whose pH is changed by contact with the liquid and whose viscosity is lowered by the change of the pH. The image forming apparatus described. 5. An image support on which an image is supported, a liquid film forming means for supplying a liquid to the image support to form a liquid film on the image support, and an image support formed on the image support. By partially removing the liquid film, a latent image forming means for forming a liquid latent image on the image support according to the pattern of presence or absence of the liquid film, and contracting by contact with the liquid containing ink. And a developing means for supplying an ink in the developer to the liquid latent image by bringing a gel-like developer into contact with the liquid latent image to form an image by the ink on the image support. An image forming apparatus characterized by. 6. The image support moves in a predetermined direction, wherein the developing means carries the film-form developer and contacts the liquid latent image on the image support to form the image. 6. The image forming apparatus according to claim 5, further comprising a developer carrier that moves at the same speed as the image support in a direction in which relative slippage with the support is prevented. 7. The image in the developing means is supplied to the liquid latent image by contacting the liquid latent image with a developer contracting due to a change in liquid composition caused by contact with the liquid. The image forming apparatus according to claim 5, wherein an image is formed by the ink on a support. 8. The image in which the developing means supplies the ink in the developer to the liquid latent image by bringing the developer, which contracts due to a change in pH due to contact with the liquid, into contact with the liquid latent image. The image forming apparatus according to claim 5, wherein an image is formed by the ink on a support. 9. The developing means supplies the ink in the developer to the liquid latent image by bringing the developer, which contracts due to a change in ionic composition due to contact with the liquid, into contact with the liquid latent image to supply the ink in the developer to the liquid latent image. The image forming apparatus according to claim 5, wherein the image is formed on the image support by the ink. 10. The image forming apparatus according to claim 1, wherein the liquid film forming means supplies a liquid containing water as a main component as the liquid to the image support. 11. The latent image forming means forms the liquid latent image by irradiating a laser beam on the image support on which the liquid film is formed. Alternatively, the image forming apparatus according to item 5. 12. The latent image forming means forms the liquid latent image by partially heating the image support on which the liquid film is formed. Alternatively, the image forming apparatus according to item 5. 13. An image transfer means for supplying a predetermined recording medium to the image support after the image is formed and transferring the image formed on the image support to the supplied recording medium. The image forming apparatus according to claim 1, wherein the image forming apparatus is an image forming apparatus. 14. A step of supplying a liquid to an image support on which an image is supported to form a liquid film on the image support, and partially removing the liquid film formed on the image support. The step of forming a liquid latent image on the image support according to the pattern of the presence or absence of a liquid film, and supplying the liquid latent image with a developer whose viscosity decreases due to contact with the liquid, thereby supporting the image support. And a step of forming an image on the body with the developer. 15. A step of supplying a liquid to an image support on which an image is supported to form a liquid film on the image support, and partially removing the liquid film formed on the image support. A step of forming a liquid latent image on the image support according to a pattern with or without a liquid film, and a gel-like developer containing ink and contracting upon contact with the liquid is brought into contact with the liquid latent image. By supplying the ink in the developer to the liquid latent image to thereby form an image by the ink on the image support.