JPH0319857A - Image forming device by control of gate - Google Patents

Abstract

PURPOSE:To form a color image having light fastness at low cost by a method wherein an outer peripheral surface of a photographic printing roll is composed of a part having an adhesive property to ink and a part having a non-adhesive property, the ink adhesive part is formed to an island part, and one island is made to be one pixel. CONSTITUTION:Ink of an ink reservoir 4 forms a constant thickness layer 6 on an outer periphery of a photographic printing roll 3 with a feed roll 5. The outer peripheral surface of the photographic printing roll 3 is composed of an island like metal surface to which ink adhered and a nonad hesive fluororesin coated surface 15 enclosing that. For a piezoelectric element 7, a length of a high voltage applied element of a bright part of an image from an image read part grows large, and a top of a gate lever 8 scratches almost thoroughly the ink of the photographic printing roll off. Since voltage of a dark part is low, and the length thereof is short. A gap at the top of the gate level 8 opens, and a great amount of ink is stuck to the outer periphery of the photographic printing roll 3. This ink layer is pressured onto an image receiving sheet 2 wound on an image receiving drum 1 to from the image. An excellent durable image can be easily formed with ordinary printing ink or the like thereby.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a novel image forming apparatus using a liquid containing a pigment such as ink or paint.

[Prior art] The typical image forming method currently in practical use is silver halide photography, but it uses expensive silver and other special organic compounds, and as the screen size increases, it becomes expensive. Become something. Further, processing takes time, and the light resistance of the formed image is not sufficient. In addition, the thermal transfer method and the thermal sublimation method both use expensive special transfer sheets, resulting in high costs and are not suitable for forming images on large screens. The inkjet method has been put into practical use for large screens.

As a specific example of the conventional technology of the above-mentioned ink recording method,
Special Publication No. 54-25417, Special Publication No. 54-2541
There are publications such as Publication No. 8.

[Problems to be Solved by the Invention] The above-mentioned inkjet method jets ink from an extremely narrow nozzle, which is easily clogged, and ink containing pigments cannot be used. Because special dyes are used,
The amount of coloring material deposited is also small, making it difficult to create images with excellent light resistance. Furthermore, when high resolution is required, there is a problem of clogging, resulting in poor reliability. The method of making plates from three original plates photographed with three-color separation exposure using silver halide photography and creating images using offset printing methods is widely used in magazine printing, poster printing, etc., but this method is also rare. In the case of a large number of copies, it becomes extremely expensive. Therefore, there is currently no good method when a small number of relatively large images are required.

In order to solve the problems of the conventional methods described above, the present invention consists of an outer peripheral surface of a printing roll having two types of surfaces: a part that is adhesive to the liquid or ink and a part that is non-adhesive to the liquid or ink. By forming the ink-adhesive area into islands so that each island corresponds to one pixel, a sufficient amount of coloring material can be applied using printing ink or oil paint containing coloring material with excellent light resistance. The object of the present invention is to provide a new device that can form color images with good light resistance at a low cost.

In particular, an apparatus is provided that is excellent for printing means that require a small number of copies of relatively large images.

[Means to solve the problem] In order to achieve the above object, the present invention has the following configuration.

That is, the present invention provides a printing roll configured to be in contact with an image forming surface and rotating in synchronization with the image forming surface, and a visible light absorbing dye on the outer periphery of the rotating body. Alternatively, an image forming apparatus comprising means for applying liquid or semi-solid ink containing a pigment, and means for controlling the amount of the liquid or ink attached to the outer circumferential surface of the rotating body using an electrical signal, The outer circumferential surface of the printing roll is composed of two types of surfaces: a part that is adhesive to the liquid or ink and a part that is non-adhesive, and the ink-adhesive part forms an island part. This is an image forming apparatus using gate control.

The image forming device according to the present invention includes means for driving an image receiving sheet as an image forming surface, and is configured to be able to contact the image receiving sheet surface and rotate at a constant speed in synchronization with the image receiving sheet surface. In an image forming method that includes a rotating body (print roll), a means for applying a coloring material (ink) to the print roll, and a gate mechanism that controls the amount of ink applied to the print roll, the outer peripheral surface of the print roll is coated with ink. With two types of surfaces, an adhesive part and a non-adhesive part,
Its distinctive feature is that it is arranged in a pattern.

In the present invention, it is preferable that the amount of liquid or ink that adheres to the rotating body is controlled by changing the gap between a control element that is close to the rotating body and the surface of the rotating body, and controlling the amount of liquid or ink that passes through the gap.

In the present invention, preferably, the ink-nonadhesive portion of the printing roll surface is a metal oxide that adsorbs water.

In the present invention, preferably, the ink-nonadhesive portion of the printing roll surface is a hydrophobic surface made of silicone resin, silicone rubber, fluororesin, or the like.

[Function] According to the image forming apparatus according to the present invention, the supply roll applies highly viscous pigment ink to the outer peripheral surface of the rotating body (print roll) that contacts the image-receiving sheet surface and rotates in synchronization with the image-receiving sheet. . The ink selectively adheres to adhesive areas of the print roll surface to form a regular pattern. The thickness of this patterned ink layer is controlled by a control gate driven by a piezoelectric element. After passing through the gate, the excess ink forced by the gate onto the side of the end of the printing roll is removed by a removal means, such as a vacuum suction nozzle or a rotating gate roll, in contact with or in close proximity to the end of the printing roll. The thickness of the ink layer from which excess ink has been removed is controlled according to the density of the image, and is transferred to the surface of the image-receiving sheet to form an image.

As described above, by patterning the outer circumferential surface of the printing roll with an ink-adhesive surface and a non-adhesive surface, and by limiting the ink-adhesive part to a certain area, it is possible to obtain highlights with good penetration, and also to improve the structure. It is possible to use ink with low viscosity and high-definition images can be obtained, but further features of this method include:
By making the surface of the gate lever non-ink-adhesive, the number of control gates can be increased. The reason for this is that the areas to which the ink is attached are patterned to prevent the ink from moving between patterns and to prevent information from being lost due to diffusion. When an oil-based ink is used as the ink, a metal oxide surface adsorbing water, an alumite surface, or various ceramics are used as the ink-nonadhering surface.

In some cases, a fluororesin having a particularly low interfacial energy may be used. In the case of water-based inks or inks using relatively polar solvents, hydrophobic organic polymers, particularly silicone-based and fluorine-based resins, are suitable. The ink-adhesive surface has a wide range of choices regardless of the type of ink, and various materials such as metals, organic resins, and ceramics are used. The gate material is selected from materials that have a surface that is non-adhesive to ink. In addition, when using a metal oxide that has absorbed water as a non-adhesive surface, the hydrophilic treatment and dampening water technology used in normal offset printing can be used as is, and salts such as hydrophilic polymer phosphoric acid are added to the water. Shime water to which is added is used.

Polymer molecules containing carboxyl groups are adsorbed on the metal oxide surface along with salt ions, providing non-adhesive properties to oil-based inks.

[Embodiment] Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings FIGS. 1 to 5. Note that the present invention should not be interpreted as being limited to the following examples, and various applications are possible.

As shown in the principle diagram of FIG. 1, the configuration of the image forming apparatus of the present invention is as follows: a printing roll 3 that rotates at the same circumferential speed in contact with a rotating cylinder (image receiving drum) 1 around which an image receiving sheet 2 is wound; A supply roll 5 that rotates close to the roll, a control gate lever 8 that is driven by a piezoelectric element 7, and two gate rolls 9 that rotate in contact with the outer peripheral edge of the printing roll.
, the gate roll cleaner 10 is formed as a basic element necessary in principle. The ink used here has relatively high viscosity, but high structural viscosity is not required. The ink contained in the ink reservoir 4 adheres to the outer periphery of the supply roll 5 and moves, and is supplied to the outer periphery of the printing roll 3 so as to form a layer 6 of a constant thickness. As shown in FIG. 2, the outer peripheral surface of the printing roll 3 is composed of an island-like ink-adhesive surface 14 and a non-adhesive surface 5 surrounding the island.

The metal (SUS) is exposed on the adhesive surface, and the non-adhesive surface is coated with fluororesin. The ink adheres to the metal surface in islands and forms a pattern. This ink layer is scraped off in contact with the tip of the gate lever 8, and image information is recorded as a change in the thickness of the ink layer on the outer periphery of the printing roll. An image signal from the image reading unit is applied to the piezoelectric element 7, and a high voltage is applied to the bright part of the image, increasing the length of the element, and the tip of the gate lever 8 comes into contact with the outer periphery of the printing roll. The ink is almost completely scraped off, but since the voltage in the dark area is low, it is short, and the gap at the tip of the gate lever 8 is opened, causing a large amount of ink to adhere to the outer periphery of the printing roll 3. The width of the outer periphery of the printing roll 3 is made narrower than the width of the tip of the gate lever 8, and the scraped ink is pushed out to both ends of the printing roll, contacts the outer periphery of the printing roll, and rotates. The gate roll 9 is in contact with the gate roll 9 that is
, and is removed by the cleaner 10. The cleaner 10 is configured to come into contact with the side surface and outer periphery of the gate roll 9 to remove ink. The relationship between the printing roll, gate roll, and cleaner is shown in FIG. Through the above process, an ink layer of an amount corresponding to the brightness of the image is formed on the outer periphery of the printing roll 3, and then,
It is pressed against an image receiving sheet 2 wound around an image receiving drum 1, and ink is transferred to the image receiving sheet to form an image. Examples in which a plurality of control gates are provided are shown in FIGS. 3 and 4. FIG. 4 shows a pattern on the outer peripheral surface of the printing roll 3 when there are three gates. The adhesive portion on the surface of the supply roll 5 is also patterned, and the ink is deposited in three stripes 14 along the outer periphery. Furthermore, three rows of islands 14 are arranged on the outer peripheral surface of the printing roll.

The ink-repellent parts of both the supply roll and print roll have an oxide film (alumite) made on the aluminum surface.
So, it absorbs the water. As the staining water, a hydrophilic liquid for offset printing is used as it is. An organic polymer film is baked onto the area where the ink will be attached. The dampening water 13 is stored above the ink 12 in the ink reservoir 4, and is supplied together with the ink. There is a slight gap between the gates, but the gates are made of aluminum with an oxide film that absorbs dampening water, and the gaps are also filled with water to prevent ink from entering.

In addition, this water acts as a lubricant, and the mutual movement of the multiple gates is not inhibited. The printing roll 3 is on the image receiving sheet surface 2
While rotating in synchronization with the image receiving sheet 2, it moves in the direction of the surface of the image receiving sheet (scanning direction) and transfers ink onto the surface of the image receiving sheet 2. When the end of the image is reached, the sheet is separated from the image receiving sheet surface and returned to the original position, and the sheet is fed in the sub-scanning direction by the width of the printing roll, and the transfer is repeated to form an image on the entire surface.

Regarding the size of the ink adhesion pattern, a narrow one is used for a dense image, and a wide one is used for a large image.

The part between the rows of patterns corresponds to the gap between the gate levers. By using a plurality of gates in this manner, high-speed image formation is possible. FIG. 5 shows an example in which the number of gates is increased and sub-scanning is not performed.

When sub-scanning is not performed, there is no need to remove excess ink at the end of the printing roll, and the scraped ink falls directly from the tip of the gate into the ink reservoir below and circulates. In this method, a color image can be formed by replacing the ink and transferring the ink three or four times, but a color image can also be formed by simultaneously driving three or four of the printing elements of the previous stage for the number of colors. It is also possible to do so.

In the above-described apparatus of the present invention, one dot (island) on the ink-adhesive surface 14 constitutes one pixel, and the gate lever 8 controls the amount of ink adhering to control the gradation of shading.

[Effects of the Invention] The device of the present invention does not require special ink unlike the inkjet method, and can easily form strong and durable images using ordinary paints, paints, printing inks, etc. Produces a special effect.

In addition, unlike the inkjet method, there is no clogging of nozzles, so it is highly reliable and suitable for forming relatively large color images.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram illustrating the principle of the present invention. FIG. 2 is a side view of the main structural elements of the present invention,
The relationships between elements and ink adhesion patterns are shown. 3, 4 and 5 are examples of the present invention having a plurality of gates. 1... Image receiving drum 2... Image receiving sheet 3...
・Print roll 4... Ink reservoir 5... Supply roll 6... Ink layer 7... Piezoelectric element
8...Gate lever 9...Gate roll
■0...Cleaner 11...Suction nozzle 12
... Ink 13 ... Shime water ■4 ... Ink adhesion surface 15 ... Ink non-adhesion surface 16 ... Printing roll cleaner Figure 1 Same as above Agent: Patent attorney Shinichi Ikeuchi Figure 2 Figure 3

Claims (1)

[Claims] (1) A printing roll configured to be in contact with the image forming surface and rotating in synchronization with the image forming surface, and a visible light absorbing dye or pigment contained on the outer periphery of the rotating body. an image forming apparatus comprising: means for applying liquid or semi-solid ink to the printing roll; and means for controlling the amount of the liquid or ink adhering to the outer circumferential surface of the rotating body using an electrical signal; A gate characterized in that the outer circumferential surface is composed of two types of surfaces: a part that is adhesive to the liquid or ink and a part that is non-adhesive, and the ink-adhesive part forms an island part. Image forming device by control.