JPH07257025A - Recording apparatus - Google Patents

Abstract

PURPOSE:To stably supply ink to a developing part, in a recording apparatus forming a visible image by bringing a recording agent having predetermined viscosity in a predetermined state into contact with a heating part, by supplying a recording agent mixed with a liquid high in saturated vapor pressure to a porous elastomer. CONSTITUTION:A porous ink supply member 5 is immersed in the ink 7 within a container 6 to be impregnated with the ink 7 and supplies the ink 7 to recording paper through a developing roller 4. The viscosity of the ink 7 is 1000 poise or more at room temp. As the ink, any one of which the dynamic viscosity at measuring temp. 22 deg.C and frequency of 0.05Hz is 1X10<3> poise or more and the dynamic modulus of elasticity is 1X10<3>dyn/cm<2> or less may be used and oily ink with high viscosity may be also used. Since this ink 7 is inferior to the penetration properties to the ink supply member 5 because of high viscosity, it is mixed with a liquid high in saturated vapor pressure such as water to be temporarily lowered in viscosity to be improved in impregnation properties. The liquid is evaporated immediately after supply to restore the viscosity of the ink 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording apparatus, and more particularly, to a recording apparatus capable of stably supplying ink to a developing roller.

[0002]

2. Description of the Related Art In a conventional recording apparatus, a latent image forming liquid containing a coloring material is heated on a surface of a recording medium by a thermal head to form a latent image according to a heating temperature on the heating portion. Then, the latent image is visualized with a developing solution (ink), and the visible image is transferred to a recording sheet by a transfer roller, so that latent image formation and development are separated. The ink in the ink container is usually impregnated in an ink supply member (a porous body such as a sponge) that is in contact with the recording material.

Also, the previously proposed Japanese Patent Application No. 5-20329.
The ink supply method to the developing section in the recording apparatus of No. 8 is
The method is described below. By heating the ink, the viscosity of the ink is reduced and the ink is replenished to the porous ink supply member arranged in contact with the developing roller. Only at the time of replenishment, ink is replenished to the porous ink supply member arranged in contact with the developing roller using a pump. Instead of replenishing ink, prepare a plurality of porous ink supply units and replace them each time the ink runs out.

[0004]

However, in the conventional recording apparatus, the ink having a low viscosity of 50 cp (centipoise) or less is used, and since the ink has a low viscosity, the fluidity is high and the ink is not latent. A large amount tends to adhere to the image area, and for the enclosed image pattern (latent image), the developed pattern tends to fill the non-latent image area inside the latent image with ink. It may cause crushed characters. In order to prevent the characters from being crushed, the amount of ink supplied to the recording medium may be reduced as much as possible. On the contrary, there is a drawback that the amount of ink adhered to the latent image portion is reduced and the image density is lowered.

Further, in the above method, it is necessary to constantly heat the ink (because it takes time to start up if heated only at the time of replenishment), the power consumption of the apparatus becomes high, and the components in the ink evaporate due to the heating. However, there is a drawback that the quality of the ink tends to change. In addition, the above method has a drawback that the size of the apparatus becomes large because a pump is used, and there is a problem of noise during driving. further,
In the above method, since the ink supply member is frequently replaced, it takes time and cost for the replacement, and in order to reduce the labor, it is necessary to prepare many ink supply members inside the device, so that the device shape becomes large, Furthermore, there was a drawback that the cost increased.

The present invention has been made in view of the above circumstances, and has a mechanism for supplying a recording material (ink) to a developing portion, which is necessary for stable printing for a long time, and is provided to a developing roller. It is an object of the present invention to provide a recording apparatus that enables stable ink supply.

[0007]

In order to achieve the above object, the present invention provides (1) a liquid or vapor on the surface of a recording medium,
Or, heating in contact with a solid that becomes liquid by heating,
A receding contact angle is formed according to the heating temperature, and a recording material containing a coloring material and having a viscosity of 1000 poise or more at room temperature is brought into contact with the heating part (latent image) to form a visible image (development). ,
In a recording device that transfers (transfers) a visible image to recording paper,
A mechanism for replenishing the recording material mixed with a liquid having a high saturated vapor pressure is provided to the porous elastic body supplying the recording material to the developing section for forming a visible image, and further, (2) the porous elasticity Providing a mechanism for promoting evaporation of a liquid having a high saturated vapor pressure contained in the recording material after the recording material is replenished to the body, or (3) a liquid or vapor on the surface of the recording material, or a liquid by heating. To form a receding contact angle according to the heating temperature, and bring the heating part (latent image) into contact with a recording agent having a viscosity of 1000 poise or more at room temperature. In a recording apparatus that forms (develops) a visible image by transfer and transfers (transfers) the visible image to a recording sheet, the recording material is applied to a porous elastic body that supplies the recording agent to a developing unit that forms the visible image. A mechanism to replenish the recording material by contacting the film or cloth attached Or (4) heating the surface of the recording medium in contact with a liquid, vapor, or a solid that becomes a liquid by heating to form a receding contact angle according to the heating temperature, Image) to form a visible image (development) by contacting a recording material containing a coloring material and having a viscosity of 1000 poise or more at room temperature, and transfer the visible image to recording paper (transfer)
In the recording apparatus, a mechanism for replenishing the recording agent by bringing the porous belt impregnated with the recording agent into contact with the porous elastic body that supplies the recording agent to the developing unit that forms a visible image is provided. Alternatively, (5) the surface of the recording medium is heated in a state of being in contact with a liquid, a vapor, or a solid that becomes a liquid by heating to form a receding contact angle according to the heating temperature, and the heating portion (latent image) is In a recording device that forms (develops) a visible image by contacting a recording material containing a coloring material and having a viscosity of 1000 poise or more at room temperature, and transfers (transfers) the visible image to a recording paper. The surface or surface of the porous elastic body that supplies the recording agent to the developing section that forms the surface is provided with irregularities or through holes or a mesh, and a film or belt having a recording agent is brought into contact with the concave section, the hole section, or the mesh section. A mechanism was added to replenish the recording material. Or (6) heating the surface of the recording medium in contact with a liquid, vapor, or a solid that becomes a liquid by heating to form a receding contact angle according to the heating temperature. In a recording device that forms a visible image (development) by contacting a recording agent containing a coloring material with a viscosity of 1000 poise or more at room temperature and transfers (transfers) the visible image to recording paper. Pressure is applied to the porous elastic body that supplies the recording agent to the developing portion that forms a visual image, by contacting the recording agent from below the porous elastic body through a film or cloth or metal provided with a mesh or through holes. Therefore, a mechanism for supplying a recording agent is provided, and further, (7) the above (1) to
In any one of (6), a groove roller or a roller having a mesh or a large number of pores on its surface is used as a recording material supplying section to the developing section, and further,
(8) In any one of (1) to (6) above, a porous belt is used as a recording material supply section to the developing section, or (9) a liquid or vapor on the surface of the recording body,
Or, heating in contact with a solid that becomes liquid by heating,
A receding contact angle corresponding to the heating temperature is formed, and a visible image is formed (developed) by contacting the heating portion (latent image) with a recording agent containing a coloring material and having a viscosity of 1000 poise or more at room temperature. ,
In a recording device that transfers (transfers) a visible image to recording paper,
A porous elastic body for supplying the recording agent to the developing section that forms a visible image is arranged around the hollow shaft having a through hole on the surface, and a mechanism for supplying the recording agent from the inside of the hollow shaft is provided. Or (10) liquid or vapor on the surface of the recording medium,
Or, heating in contact with a solid that becomes liquid by heating,
A receding contact angle corresponding to the heating temperature is formed, and a visible image is formed (developed) by contacting the heating portion (latent image) with a recording agent containing a coloring material and having a viscosity of 1000 poise or more at room temperature. ,
In a recording device that transfers (transfers) a visible image to recording paper,
A plurality of porous elastic bodies for supplying a recording agent are provided in the developing section for forming a visible image, and a mechanism is provided for replenishing the recording agent for the unused porous elastic bodies in order one by one. It is characterized by.

[0008]

In the recording apparatus of the present invention, the surface of the recording medium is heated in a state of being in contact with a liquid, a vapor, or a solid which becomes a liquid by heating to form a receding contact angle according to the heating temperature. Recording device for forming (developing) a visible image by bringing a (latent image) a recording material containing a coloring material and having a viscosity of 1000 poise or more at room temperature, and transferring (transferring) the visible image to recording paper (1) Since the recording material mixed with the liquid having a high saturated vapor pressure is replenished to the porous elastic body which supplies the recording agent to the developing portion, the power consumption and the noise are lower than the conventional one, and the stable ink replenishment is performed. Can be done. (2) Since the evaporation of the liquid having a high saturated vapor pressure contained in the recording material is promoted after the recording material is replenished to the porous elastic body, the printing speed can be improved as compared with the above (1). (3) Since the recording agent is replenished by bringing the film or cloth with the recording agent in contact with the porous elastic body that supplies the recording agent to the developing section, the apparatus can be downsized as compared with the conventional one, and stable ink can be obtained. Can be replenished. (4) Since the recording material is replenished by bringing the porous material belt impregnated with the recording material into contact with the porous elastic body supplying the recording material to the developing portion, the ink replenishing portion can be reused. (5) A porous elastic body that supplies a recording agent to the developing section is provided with irregularities or through holes or a mesh on the surface, and a film or belt having a recording agent is brought into contact with the concave section, the hole section or the mesh section. Since the recording agent is replenished by the above method, the ink viscosity can be adjusted more easily than in the conventional case, and the ink replenishing section can be reused. (6) To the porous elastic body that supplies the recording agent to the developing section,
Since the recording material is supplied by bringing the recording material into contact with the film or cloth or metal having a mesh or through holes from the lower side of the porous elastic body and applying pressure, it is easier to adjust the ink viscosity than before. And the ink replenishment section can be reused. (7) Since a groove roller or a roller having a mesh or a large number of pores on the surface is used as a recording material supplying portion to the developing portion, the processing accuracy of the shape of the ink replenishing portion and the like can be improved and stable as compared with the conventional case. You can replenish the ink. (8) Since the porous belt is used as the recording material supply section to the developing section, the amount of ink replenished to the developing roller can be adjusted, and the apparatus can be downsized. (9) A porous elastic body for supplying the recording agent to the developing section is arranged around the hollow shaft having a through hole on the surface, and the recording agent is replenished from the inside of the hollow shaft. The size can be reduced and the ink supply section can be reused. (10) Since a plurality of porous elastic bodies for supplying a recording agent are provided in the developing section and used one by one in order, the unused porous elastic body is replenished with the recording agent, which is more maintenance than the conventional method. The cost can be reduced.

[0009]

Embodiments will be described below with reference to the drawings. 1A and 1B are configuration diagrams of a latent image forming unit and a developing unit when a high viscosity ink to which the present invention is applied is used. FIG. 1A is a configuration diagram in which the latent image forming unit and the developing unit are independent, and FIG. 1B is a configuration diagram in which the latent image formation and the development are performed at the same time. In FIG. 2 is a thermal head, 3 is a latent image forming liquid, 4 is a developing roller, and 5 is a porous body roller.

The surface of the recording medium 1 is heated while being in contact with a liquid, a vapor, or a solid which becomes a liquid by heating, a receding contact angle is formed according to the heating temperature, and the heating portion (latent image) is colored. A visible image is formed (developed) by contacting a recording agent containing the material and having a viscosity of 1000 poise or more at room temperature, and the visible image is transferred (transferred) to a recording paper. The ink is impregnated in the porous ink supply body 5, and the ink is supplied from the porous ink supply body 5 to the developing roller 4. The present invention relates to ink replenishment to the porous ink supply body 5. Although not shown in the figure, latent image formation may be performed simultaneously with development or may be performed independently.

The dynamic viscosity of the ink used in the present invention is 1 × 1.
A high viscosity of 0 ³ P (poise) or more (at a measurement temperature of 22 ° C. and a frequency of 0.05 Hz) is sufficient, and the dynamic elastic modulus is 1 ×.
10 ³ dyn / cm ² or less (measurement temperature 22 ° C., frequency 0.
(At 05 Hz) is desirable. Further, the ink may be oily or aqueous as long as it has a high viscosity, and as the solvent in the case of being aqueous, a polyhydric alcohol such as ethylene glycol or propylene glycol, propylene glycol monobutyl ether, triethylene glycol monomethyl ether or the like is preferable. The resin to be added contains polyvinylpyrrolidone as a main component, and polyvinyl alcohol, polyethylene glycol, polyvinyl butyral, gum arabic or the like is added as an auxiliary agent. The colorant may be either a dye or a pigment.

2 and 3 are block diagrams for explaining an embodiment (claim 1) of the recording apparatus according to the present invention.
Shows the case where ink is constantly supplied to the porous ink supply body, and FIG. 3 shows the case where ink is supplied regularly. In the figure, 6 is a container, 7 is ink and water, and other parts having the same functions as those in FIG.

Since the ink has a high viscosity, it is difficult for the ink to penetrate into the porous ink supply body 5 with the viscosity as it is, and it is difficult to replenish the ink in a short time. Therefore, it was found that it is preferable to mix the ink with a liquid having a high saturated vapor pressure to temporarily reduce the viscosity of the ink and replenish the ink to the porous ink supply body 5. Since the viscosity of the ink must be high at the time of development, it is desirable that the liquid for reducing the viscosity of the ink at the time of replenishing evaporates immediately after the replenishment, and a liquid having a high saturated vapor pressure is required. As an example, water or a volatile organic solvent (methanol, ethanol, acetone, etc.) having a saturated vapor pressure of 10 ^-2 torr or more is preferable.

Example 1 (Claim 1) Preparation of recording material Material: Fluorine-containing acrylate material VISCOAT 17F (Osaka Organic Chemical Industry) Synthesis, etc .: Solution polymerization-solution: 1-1-1 trichloroethane Recording material substrate: Polyimide seamless Film (Toray
DuPont: Kapton) Diameter 30mm Coating method: Fluorine-containing acrylate material Freon 11
Dilute with 3 and spin coat on polyimide film. Then, it was dried at 130 ° C for 1 hour. Ink used: Colorant (black direct dye 20 wt%) + solvent (ethylene glycol 47 wt%) + water-soluble resin (polyvinylpyrrolidone 33 wt%) Ink viscosity: 4 x 10 ⁴ P (measurement temperature 22 ° C, frequency 0.
05Hz) Latent image forming liquid: water Mixing liquid for reducing ink viscosity: water Heating source: thermal head (recording density: 12 dot / m
m) Ink supply porous body: 2 mm thick foamed polyurethane foam (hardness 20) is formed on a φ20 core metal. Developing roller: 2 mm thick chloroprene rubber (hardness 40) is formed on a φ20 core metal. As a result of printing at, the ink was well supplied to the porous ink supply body.

FIG. 4 is a diagram showing another embodiment (Claim 2) of the recording apparatus according to the present invention. In the figure, 8 is a heating mechanism, and other parts having the same functions as those in FIG. Is attached. According to the first aspect, the ink is mixed with a liquid having a high saturated vapor pressure so that the ink has a high viscosity at the time of development. However, the viscosity of the ink is optimized in a shorter time to increase the printing speed. There is a need. For that purpose, it is necessary to provide a mechanism for promoting the evaporation of the liquid having a high saturated vapor pressure mixed in the ink. As an example of the evaporation accelerating mechanism, a heating mechanism 8 such as a heater or a lamp or a blower mechanism such as a fan is preferable.

Example 2 (Claim 2) The conditions are the same as in Example 1, and a xenon lamp (100 W) is used as a heating source. As a result of printing with the configuration of FIG. 4, the mixed liquid for ink viscosity reduction can be evaporated in a short time, and the printing speed can be improved.

FIG. 5 is a view showing still another embodiment (claim 3) of the recording apparatus according to the present invention. In the figure, 9 is an ink film, and other parts having the same functions as those in FIG. Is attached. The ink film 9 coated with a uniform thin layer of ink on a film or cloth is constantly or periodically contacted with the porous ink supply member, and pressure is applied from the back side of the film to supply ink to the porous ink supply member. To do. Film materials include polyimide, polyethylene terephthalate (PET), silicone rubber,
PTFE or the like can be used, and as the material for the cloth, natural fibers such as cotton, hemp, and silk, and chemical fibers such as nylon, polyethylene, and rayon can be used. In the configuration of the present invention, the film can be downsized because only the film and the pressure roller need to be provided under the porous ink supply body 5. Further, when a heater is provided on the pressure roller, the viscosity of the ink on the ink film can be reduced and the ink can be replenished to the porous ink supply body 5 in a short time, so that the printing speed can be increased.

Example 3 (Claim 3) Preparation of recording material: the same as in Example 1 Ink used: Colorant (black pigment ... Carbon black 20)
wt%) + solvent (diethylene glycol 35 wt%) +
Water-soluble resin (polyvinylpyrrolidone 45 wt%) Ink film substrate: Polyimide film (Toray DuPont: Kapton) Latent image forming liquid: Water Heating source: Thermal head (recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a cored bar of φ20. Ink supply porous body: The same as in Example 1, printing is performed with the configuration of FIG. The ink was replenished well.

FIG. 6 is a diagram showing still another embodiment (claim 4) of the recording apparatus according to the present invention. In the figure, reference numeral 10 is a porous head, and other portions having the same functions as those in FIG. The same reference numerals are attached. The porous material belt 10 impregnated with ink is constantly or periodically contacted with the porous ink supply body 5, and pressure or pressure and heat is applied from the back side of the belt 10 to the ink to the porous ink supply body 5. Replenish. By lengthening the belt 10, sufficient ink supply can be performed even in multiple printing. Further, the used porous belt 10 can be recovered and reused by impregnating it with ink, which is environmentally friendly.

Example 4 (Claim 4) Preparation of recording material: the same as in Example 1 Ink used: Colorant (black direct dye 20 wt%) + solvent (ethylene glycol 35 wt%) + water-soluble resin (polyvinyl pyrrolidone 40 wt%) + Polyethylene glycol 5 wt%) Porous body belt: Porous body (2 mm thick polyurethane foam) + Substrate (PET film) Latent image forming liquid: Also used as ink Heating source: Thermal head (Recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a core metal of φ20. Ink supply porous body: The same as in Example 1, printing is performed with the configuration of FIG. The ink was replenished well.

7 and 8 are views showing still another embodiment (claim 5) of the recording apparatus according to the present invention, and FIG. 7 shows an example in which a belt having an uneven surface is used. Yes, Figure 8
FIG. 6 is a diagram showing an example of a case where a belt having through holes on its surface is used. In the figure, reference numeral 11 is a belt with protrusions and recesses, 12 is a belt with holes, and other parts having the same functions as those in FIG.

In this method, ink is adhered to the recesses or holes or meshes formed on the surface of the belt or the film, and the ink adhered portion is brought into contact with the porous ink supply body 5 constantly or periodically, thereby making Ink is replenished to the high-quality ink supply body 5. It is preferable that the concavo-convex belt 11 supplies ink by bringing ink into contact with the concave portion, and the perforated belt 12 supplies ink by passing through the ink container.
The pressure of the ink in the ink container is applied from the bottom of the container so that the ink can be supplied to the belt even when the remaining amount of ink is low. In this method, since the high-viscosity ink can be directly supplied to the belt by increasing the strength of the belt, the adjustment of the ink viscosity becomes easy. Further, if the ink container is a cartridge type, it can be reused by collecting and filling ink after use. As the material of the belt or film, metal other than those shown in claim 3 can be used.

Example 5 (Claim 5) Preparation of recording material: Same as in Example 1 Ink used: Coloring agent (20 wt% of black direct dye) + solvent (47 wt% of ethylene glycol) + water-soluble resin (33 wt% of polyvinylpyrrolidone). ) Belt with pores: Polyimide film Latent image forming liquid: Also used as ink Heating source: Thermal head (recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a core metal of φ20. Ink supply porous body: The same as in Example 1, printing is performed with the configuration of FIG. The ink was replenished well.

FIG. 9 is a view showing a further embodiment (claim 6) of the recording apparatus according to the present invention. In the figure, 13 is a mesh portion, and other portions having the same function as FIG. 2 are the same. It is attached with a code. The mesh 13 provided on the upper part of the ink container or the film or cloth or the metal provided with the through holes is brought into contact with the porous ink supply body 5 constantly or periodically, and the mesh 13 or the through holes are projected by the pressure from the container side. Ink is supplied to the porous ink supply body 5. In this method, since the high-viscosity ink can be replenished to the porous ink supply body 5 as it is by increasing the strength of the film or cloth or the metal part on the upper part of the ink container, the ink viscosity can be easily adjusted. Further, if the ink container is a cartridge type, it can be reused by collecting and filling ink after use.

Example 6 (Claim 6) Preparation of recording material: Same as in Example 1 Ink used: Coloring agent (black direct dye 20 wt%) + solvent (ethylene glycol 35 wt%) + water-soluble resin (polyvinyl pyrrolidone 45 wt%) ) Film with through holes: PET film Latent image forming liquid: also used as ink Heating source: thermal head (recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a core metal of φ20. Ink supply porous body: The same as in Example 1, printing is performed with the configuration of FIG. The ink was replenished well.

FIGS. 10 (a) and 10 (b) are views showing still another embodiment (claim 7) of the recording apparatus according to the present invention. FIG. 10 (a) shows the porous ink supply member instead of the porous ink supply member. This is an example of the case where a groove roller is used, and FIG. 6B is a diagram showing an example where a roller with a mesh is used. 14 in the figure
Is a groove roller, 15 is a roller with mesh, and other parts having the same functions as those in FIG. 2 are denoted by the same reference numerals. Although both FIGS. (A) and (b) use the groove roller 14 or the mesh roller 15 in the structure of claim 1, the structure of claims 2 to 6 can be applied. The groove roller 14 and the mesh roller 15 have uniform roller surface irregularities, uniform mesh shape, roller diameter, etc., and can be processed with high precision compared to a porous body, which increases the yield and uniformly supplies the ink to the developing roller. You can

Example 7 (Claim 7) Preparation of recording material: Same as in Example 1 Ink used: Colorant (black direct dye 20% by weight) + solvent (ethylene glycol 35% by weight) + water-soluble resin (polyvinylpyrrolidone 45% by weight) ) Latent image forming liquid: also used as ink Heating source: thermal head (recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a cored bar of φ20. Groove roller: Material: aluminum, concave: diameter: 1 m
m, depth 500 μm As a result of printing with the configuration shown in FIG. 10, the ink supply to the developing roller was performed well.

FIG. 11 is a view showing still another embodiment (claim 8) of the recording apparatus according to the present invention, and the reference numerals in the drawing are the same as those in FIG. The constitution of the present invention uses a belt or film having a porous material layer instead of the porous ink supplier. Although not shown in the figure, it can be applied to the configurations of claims 1 to 6. Since the porous belt 10 is easier to adjust the nip width with the developing roller 4 than the porous roller 4, the amount of ink replenished to the developing roller 4 can be adjusted.
Further, since the lower portion of the developing roller 4 is only the porous belt 10 and the pressure roller, the apparatus can be downsized even if the belt is lengthened.

Example 8 (Claim 8) Preparation of recording material: Same as in Example 1 Ink used: Colorant (black direct dye 20 wt%) + solvent (ethylene glycol 35 wt%) + water-soluble resin (polyvinylpyrrolidone 45 wt%) ) Latent image forming liquid: water Heating source: thermal head (recording density: 12 dot / m
m) Developing roller: 2 mm thick chloroprene rubber (hardness 40) is formed on a core metal of φ20. Porous body belt: Porous body (foamed polyurethane foam 2 mm thick) + substrate (PET film) Printing with the configuration of FIG. As a result, the ink was well supplied to the developing roller.

12 (a) and 12 (b) are views showing still another embodiment (claim 9) of the recording apparatus according to the present invention, in which 7 is ink, 16 is a porous material layer, and 17 is a porous material layer. Is a hole, and 18 is a shaft with a hole. The present invention relates to a porous ink supply body having the configurations shown in FIGS. The porous body layer 16 is provided around a hollow shaft 18 having a through hole 17 formed on the surface thereof, and the ink contained in the hollow shaft is pressed from both ends of the shaft to protrude from the through hole 17 and become porous. Body layer 1
Ink is replenished to 6. With this configuration, the apparatus can be downsized, and the ink supply body can be reused by collecting and filling the ink after use.

Example 9 (Claim 9) Preparation of recording material: Same as in Example 1 Ink used: Coloring agent (black direct dye 20 wt%) + solvent (ethylene glycol 35 wt%) + water-soluble resin (polyvinylpyrrolidone 45 wt%) ) Latent image forming liquid: water Heating source: thermal head (recording density: 12 dot / m
m) Through-hole hollow shaft: material ... SUS304, hole diameter ... 2 mm Developing roller: 2 mm thick chloroprene rubber (hardness 40) is formed on a core metal of φ20. Porous belt: foamed polyurethane foam 2 mm thick. As a result of printing with the ink, the ink was well replenished to the porous body portion.

13 and 14 are views showing still another embodiment (claim 10) of the recording apparatus according to the present invention.
Shows the case where two porous ink supply bodies are provided.
FIG. 4 is a diagram showing a case where four lines are provided. Reference numbers in the figure are the same as those in FIG. Since the ink 7 has a high viscosity, it takes time for the ink to permeate the entire body even if the porous ink supply body 5 is entrained in the ink container. Therefore, a plurality of ink supply members are provided, and ink is supplied to unused ones. In the case of FIG. 13, one is in use and the other is in the ink. In the case of FIG. 14, one is in use, one is soaked in the ink, one is soaked in the ink, and one is on standby. By providing a plurality of ink supply members in this way, it is possible to perform a large number of printings. Further, when the ink runs out, it is only necessary to replenish the ink, and therefore the maintenance cost can be suppressed.

Example 10 (Claim 10) Preparation of recording material: Same as in Example 1 Ink used: Colorant (black direct dye 20 wt%) + solvent (ethylene glycol 35 wt%) + water-soluble resin (polyvinylpyrrolidone 45 wt%) ) Latent image forming liquid: water Heating source: thermal head (recording density: 12 dot / m
m) Developing roller: A chloroprene rubber (hardness 40) having a thickness of 2 mm is formed on a core metal of φ20. Ink supply porous body: The same as in Example 1, printing is performed with the configuration of FIG. The supply was good.

[0034]

As is apparent from the above description, the present invention has the following effects. (1) Effect corresponding to claim 1: Liquid on the surface of the recording medium,
Alternatively, it is heated in a state of being in contact with vapor or a solid that becomes a liquid by heating to form a receding contact angle according to the heating temperature, and the viscosity in which the coloring material is contained in the heating portion (latent image) is 1000 at room temperature.
This is a recording device that forms (develops) a visible image by contacting a recording agent of poise or higher and transfers (transfers) the visible image to recording paper. To a porous elastic body that supplies the recording agent to the developing section. Since the recording agent mixed with the liquid having a high saturated vapor pressure is replenished, the power consumption and the noise are lower than in the conventional case, and the stable ink replenishment can be performed. (2) Effect corresponding to claim 2: Since the liquid having a high saturated vapor pressure contained in the recording agent is promoted after the recording agent is replenished to the porous elastic body, the printing speed is higher than that in (1). Can be improved. (3) Effect corresponding to claim 3: Since the recording agent is replenished by bringing the film or cloth with the recording agent into contact with the porous elastic body that supplies the recording agent to the developing portion, the recording medium of the conventional apparatus can be replenished. It can be miniaturized and stable ink supply can be performed. (4) Effect corresponding to claim 4: Since the recording material is replenished by bringing the porous material belt impregnated with the recording material into contact with the porous elastic body which supplies the recording material to the developing portion, the ink replenishment portion is Can be reused. (5) Effect corresponding to claim 5: The surface of the porous elastic body that supplies the recording agent to the developing portion is provided with irregularities or through holes or a mesh, and the recording agent is present in the concave portion, the hole portion or the mesh portion. Since the recording material is replenished by bringing the film or belt into contact with the film or belt, the ink viscosity can be adjusted more easily than before, and the ink replenishing section can be reused. (6) Effect corresponding to claim 6: The recording agent is applied to the porous elastic body which supplies the recording agent to the developing section from below the porous elastic body through a film or cloth or metal provided with a mesh or through holes. Since the recording agent is supplied by bringing them into contact with each other and applying pressure, it is easier to adjust the ink viscosity than before, and the ink replenishing section can be reused. (7) Effect corresponding to claim 7: Since a group roller or a roller having a mesh or a large number of pores on its surface is used as a recording material supplying portion to the developing portion, the shape of the ink replenishing portion, etc. is different from the conventional one. The processing accuracy of can be improved, and stable ink supply can be performed. (8) Effect corresponding to claim 8: Since the porous belt is used as the recording material supply portion to the developing portion, the amount of ink replenished to the developing roller can be adjusted, and the apparatus can be downsized. (9) Effect corresponding to claim 9: A porous elastic body for supplying the recording agent to the developing section is arranged around the hollow shaft having a through hole on the surface, and the recording agent is replenished from the inside of the hollow shaft. As a result, the size of the device can be made smaller than in the conventional case, and the ink replenishment section can be reused. (10) Effect corresponding to claim 10: Since a plurality of porous elastic bodies for supplying a recording agent are provided in the developing portion, the porous elastic bodies are used one by one, and the unused porous elastic body replenishes the recording agent. ,
The cost required for maintenance can be reduced as compared with the conventional case.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a latent image forming unit and a developing unit when a high-viscosity ink to which the present invention is applied is used.

FIG. 2 is a diagram for explaining an embodiment of a recording apparatus according to the present invention.

FIG. 3 is a diagram for explaining another embodiment of the recording apparatus according to the present invention.

FIG. 4 is a diagram for explaining yet another embodiment of the recording apparatus according to the present invention.

FIG. 5 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 6 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 7 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 8 is a diagram for explaining yet another embodiment of the recording apparatus according to the present invention.

FIG. 9 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 10 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 11 is a diagram for explaining yet another embodiment of the recording apparatus according to the present invention.

FIG. 12 is a diagram for explaining yet another embodiment of the recording apparatus according to the present invention.

FIG. 13 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

FIG. 14 is a diagram for explaining still another embodiment of the recording apparatus according to the present invention.

[Explanation of symbols]

1 ... Recording medium, 2 ... Thermal head, 3 ... Latent image forming liquid, 4
... developing roller, 5 ... porous body roller, 6 ... container, 7 ... ink and water, 8 ... heating part, 9 ... ink film, 10 ... porous body head, 11 ... belt with irregularities, 12 ... belt with holes, 13 ... Mesh part, 14 ... Groove roller, 15 ...
Roller with mesh.

Claims (10)

[Claims] 1. A surface of a recording medium is heated while being in contact with a liquid, a vapor, or a solid which becomes a liquid by heating, a receding contact angle is formed according to a heating temperature, and a coloring material is contained in the heating portion. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. The recording apparatus is provided with a mechanism for replenishing a recording material containing a liquid having a high saturated vapor pressure to the porous elastic body. 2. The recording apparatus according to claim 1, further comprising a mechanism for promoting evaporation of a liquid having a high saturated vapor pressure contained in the recording material after the recording material is supplied to the porous elastic body. . 3. A surface of a recording medium is heated in a state of being in contact with a liquid, a vapor, or a solid which becomes a liquid by heating, a receding contact angle is formed according to a heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. A recording apparatus provided with a mechanism for replenishing the recording agent by bringing a film or cloth with the recording agent in contact with the porous elastic body. 4. A recording material is heated while being in contact with a liquid, a vapor, or a solid that becomes a liquid by heating on the surface of the recording material to form a receding contact angle according to the heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. The recording apparatus is provided with a mechanism for replenishing the recording material by bringing a porous material belt impregnated with the recording material into contact with the porous elastic body. 5. A recording material is heated in a state of being in contact with a liquid, a vapor, or a solid which becomes a liquid by heating on the surface of the recording material to form a receding contact angle according to a heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. The surface of the porous elastic body is provided with irregularities or through holes or a mesh, and a mechanism is provided for replenishing the recording agent by bringing a film or belt having the recording agent into contact with the depressions, holes or mesh. A recording device characterized by the above. 6. A recording material is heated in a state of being in contact with a liquid, a vapor, or a solid that becomes a liquid by heating on the surface of the recording material to form a receding contact angle according to the heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. A mechanism for supplying the recording agent to the porous elastic body by supplying pressure to the recording medium from the lower side of the porous elastic body through a film or cloth or a metal having a mesh or a through hole, and applying pressure thereto is provided. A recording device characterized by the above. 7. The groove roller or a roller having a mesh or a large number of pores on the surface thereof is used as a recording agent supplying section to the developing section. Recording device. 8. The recording apparatus according to claim 1, wherein a porous material belt is used as a recording material supplying portion to the developing portion. 9. A recording material is heated in a state of being in contact with a liquid, a vapor, or a solid that becomes a liquid by heating on the surface of the recording material to form a receding contact angle according to a heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. A recording apparatus characterized in that a porous elastic body for doing so is arranged around a hollow shaft having a through hole on the surface thereof, and a mechanism for supplying a recording agent from the inside of the hollow shaft is provided. 10. A recording material is heated in a state of being in contact with a liquid, a vapor, or a solid that becomes a liquid by heating on the surface of the recording material to form a receding contact angle according to a heating temperature, and the heating portion contains a coloring material. In a recording device that forms a visible image by contacting a recording agent having a viscosity of 1000 poise or more at room temperature and transfers the visible image to recording paper, the recording agent is supplied to the developing unit that forms the visible image. A recording apparatus, characterized in that a plurality of porous elastic bodies are provided, which are sequentially used one by one, and a mechanism for replenishing a recording agent for unused porous elastic bodies is provided.