JP3466427B2 - IMAGE REMOVAL PROMOTING LIQUID AND METHOD OF REPRODUCING RECORDED MATERIAL USING THE IMAGE REMOVAL PROMOTING LATER - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention reproduces a recording material by peeling and removing the hydrophobic image from a recording material having a hydrophobic image formed of a thermo-flexible or thermo-softening image forming substance. The present invention relates to an image removal promoting liquid used in the method, and a method for reproducing a recording material using the image removal promoting liquid.

[0002]

2. Description of the Related Art Due to the recent increase in OA, printer paper and copying paper have been used in large quantities, and the deforestation of forests to produce large quantities of paper has caused a problem of environmental deterioration on a global scale. There is. In addition, a large amount of waste paper is generated from the office, and most of it is wasted. In order to solve this problem and to recycle the paper, for example, Japanese Patent Application Laid-Open No. 7-13383 discloses that at least a part of the paper material layer is composed mainly of cellulose fibers, and the paper material layer is thermoflexible. A recording material on which a hydrophobic image composed of ink (toner) is formed is impregnated with water or an image removal accelerating liquid such as an aqueous solution of a surfactant and / or a water-soluble polymer to form a hydrophobic image on an image peeling member. A method of reproducing a recording material by removing a hydrophobic image from a paper-based layer by transferring is disclosed. This reproducing method is a very effective method for reproducing a recording material because it can remove a hydrophobic image without damaging the recording material. However, since a large amount of an image removal promoting liquid is used, the reproduced recording material is regenerated. The material sometimes stretched and wrinkled, wavy, or curled.

As a method for solving such a problem,
Japanese Patent Application Laid-Open No. 7-281566 discloses a method of using an image removal promoting liquid composed of an aqueous solution containing a high concentration of a surfactant, and reducing the amount of the image removal promoting liquid applied to a recording material on which an image is formed. It is disclosed that the image-forming substance is peeled off from the recording material without stretching, wrinkling, waviness or curling of the reproduced recording material. However, when an image removal promoting liquid containing this high concentration, for example, 5% or more of a surfactant is used, in some image formation, a hydrophobic image containing a colored polarity control agent is formed. The colored material elutes from the above, and the hydrophobic image is removed to remain as a dyeing residual image on the reproduced recording material. Its optical density (OD) is 0.2 to 0.15
(Measured by a densitometer manufactured by GRETAG), and when the reproduced recording material is used for re-copying, there is a drawback that the reading of the copied image is disturbed. Then, as a method of eliminating this defect, it was found that the optical density (OD): 0.02 or less can be obtained by adding oxalic acid to the image removal promoting liquid. Applicant is proposing. However, the addition of oxalic acid causes the surfactant to hydrolyze due to its strong acidity, and if the image removal accelerating liquid is retained for a long period of time, for example, 6 months or more, there is a drawback that the performance is significantly deteriorated.

[0004]

SUMMARY OF THE INVENTION Therefore, the object of the present invention is to solve the above problems and to transfer a recording material having a hydrophobic image formed of a heat-flexible or heat-softenable image-forming substance to a hydrophobic material. Of a hydrophobic image containing a part of a colored polarity control agent, which does not cause wrinkles, waviness or curling of the regenerated recording material. An image removal accelerating liquid that can reduce the residual image density of dyeing that occurs during removal,
Another object of the present invention is to provide a method of reproducing a recording material using the image removal promoting liquid.

[0005]

The above-mentioned object of the present invention is to reproduce a recording material having a hydrophobic image, which is composed of an aqueous solution or an aqueous organic solution containing an alkaline and stable surfactant and a bleaching agent. The image removal accelerating liquid capable of bleaching the residual colored matter of the recording material reproduced by the outflow of the colored polarity control agent contained in the hydrophobic image, and the image removal accelerating liquid were used. The problem has been solved by providing a method for reproducing a recording material.
In addition, the above-mentioned "reproduction step of a recording material having a hydrophobic image"
Means that an image removal promoting liquid is applied to a recording material having a hydrophobic image formed of a heat-flexible or heat-softening image forming substance, and the hydrophobic image and the peeling member are brought into contact with each other under heat and pressure. And the step of transferring the hydrophobic image to the peeling member.

The image removal promoting liquid of the present invention can be easily obtained, for example, as described below. That is,
In the case of an aqueous solution, it can be obtained by adding an alkaline and stable surfactant and a bleaching agent to water or an organic solvent containing water and dissolving them.

As the alkali-stable surfactant used in the image removal promoting liquid of the present invention, for example, the following formula (1)
And surfactants having an alkyl sulfonate structure represented by (2) and the like.

Embedded image C _n H _{2n + 1} OSO ₃ Na (1) (n = 8, 9, 10, 11, 12, 13, 14, 15) C _n H _{2n + 1} OSO ₃ NH (C ₂ H ₂ OH) ₃ (2) (n = 8, 9, 10, 11, 12, 13, 14, 15) When n of the alkyl sulfonate structure is less than 8, it is too soluble in water and has surface activity. It has poor potency, and if it exceeds 15, it is difficult to dissolve in water and an aqueous solution cannot be made.

The content of the surfactant in the image removal promoting liquid of the present invention is preferably 1 to 50% by weight, and particularly preferably 5 to 30% by weight. When the content of the surfactant is less than 1% by weight, peeling of the hydrophobic image becomes insufficient,
On the other hand, if it exceeds 50% by weight, the viscosity of the image removal accelerating liquid becomes so high that it becomes difficult to apply it to the recording material on which the hydrophobic image is formed, and the hydrophobic image is peeled and removed for reproduction. The amount of surfactant remaining on the recording material increases,
As a result, when the reproduced recording material is reused for image formation such as copying or recording, the fixability of the formed image is adversely affected. In particular, 10 to 10
When an image removal accelerating liquid which is dissolved and contained in a high concentration of about 50% by weight is applied to a recording material having a hydrophobic image, the image removal accelerating liquid is contained inside the recording material due to the high concentration of the surfactant. Does not permeate so much, and the image removal promoting liquid adheres not only to the so-called fine print image having a small image area of the hydrophobic image, but also to the surface of a so-called solid image having a large image area, so that an excellent effect can be obtained. .

The bleach used in the present invention includes NaClO, KClO, Ca (C) having a hypochlorite structure.
_{lO) 2, Mg (ClO)} 2, Ba ( can be mentioned alkaline aqueous solution such as ClO) _2.

The content of the bleaching agent in the image removing accelerating solution of the present invention is preferably 1 to 30% by weight as a hypochlorite component. If it is less than 1% by weight, the bleaching of the eluted polar control agent is insufficient, and if it exceeds 30% by weight, the constituents of the recording material after image removal, such as paper fibers, are damaged and the recording material is damaged. Difficult to recopy.

The organic solvent used for preparing the water-containing organic solution as the image removal promoting liquid of the present invention is, for example,
Examples include glycols as shown in Table 1 below. However, the organic solvent used for preparing the water-containing organic solution is not limited to glycols. The amount of organic solvent in the water-containing organic material is 3 to 40% by weight based on the total weight of the water-containing organic solution.

[0012]

[Table 1]

According to the method for reproducing a recording material of the present invention, the image removal accelerating liquid is applied to the recording material having a hydrophobic image formed of a thermo-flexible or thermo-softening image-forming substance to give a hydrophobic property. It is characterized in that the image and the peeling member are brought into contact with each other under heating and pressure, and the hydrophobic image is transferred to the peeling member to peel and remove from the recording material. According to this method of reproducing the recording material, (1) the hydrophobic image can be sufficiently peeled and removed from the recording material,
Also, the dyeing density of the recording material can be reduced. (2) Since the surfactant can dissolve and contain hypochlorite in water or a water-containing organic solution at a high concentration, the amount of the image removal accelerating liquid used is small, so that it can be used as a regenerated recording material. No stretching, wrinkling, waviness, or curling occurs. (3) When the reproduced recording material is reused for image formation such as copying or recording, jam is not generated in the copying apparatus or recording apparatus, and the residual dyeing density is extremely high as described above. Since it is very small, it is possible to form a hydrophobic image having good fixability.

According to the present invention, a hydrophobic image can be sufficiently peeled and removed, and a recording material having no dyeing residual density such as elongation, wrinkles, waviness, curl, etc. can be reproduced for a long period of time. The reason for this is as follows. The image removal accelerating liquid of the present invention maintains a liquid state in a heated state even when the water content is small, and therefore penetrates from the surface of the hydrophobic image under heating and pressurization to reach the interface between the hydrophobic image and the recording material. I will reach you. As a result, the adhesive force between the hydrophobic image and the recording material is weakened, the chance of re-adhesion is greatly reduced, and the colored polarities eluted and dyed due to the bleaching action of the contained hypochlorite. The density of the control agent is greatly reduced, the hydrophobic image is easily transferred to the peeling member, and the dyeing residual density is reproduced in a very small state. When the regenerated recording material is cooled to room temperature after the hydrophobic image is peeled off and removed, the reproduced recording material contains almost no water because the coating amount of the image removal accelerating liquid and the water concentration are small. Because it is not given, it is stretched, wrinkled, wavy,
It does not generate curls. Furthermore, the reason why the image removal accelerating liquid can efficiently bleach the colored polarity control agent is the action of the alkaline and stable surfactant and the hypochlorite which has a strong bleaching action in that state. .

The recording material in the method for reproducing a recording material of the present invention is preferably a recording material having a layer in which at least a hydrophobic image forming surface is swollen by an image removal accelerating liquid. Examples of the recording material include a recording material having at least a hydrophobic image forming surface made of a paper-like layer containing cellulose fibers as a main component. More specifically, commercially available paper such as general copying paper or recording paper containing cellulose fiber as a main component, or a plastic film on which a paper quality layer containing cellulose fiber as a main component is laminated on at least a hydrophobic image forming surface. Can be mentioned.

Further, as a hydrophobic image suitable for peeling and removal by the method for reproducing a recording material of the present invention, there are ordinary electrophotographic method, thermal transfer method, ink jet method using hot melt ink or printing method. And a hydrophobic image formed by using a heat-flexible or heat-softenable image formed product (dry toner or wet toner for electrostatic latent image development, heat-meltable ink sheet, hot-melt ink, etc.). A recording material having a hydrophobic image particularly suitable for reproduction by the method for reproducing a recording material of the present invention as described above,
It is a recording material having a hydrophobic image formed by using an electrophotographic toner.

The toner is mainly composed of a resin component, a colorant, a polarity control agent and the like as conventionally known. The resin component is, for example, a styrene resin, an acrylic resin, a methacrylic resin, a styrene-acrylic copolymer resin, a styrene-butyl acrylic copolymer resin,
Styrene-methacrylic copolymer resin, styrene-butadiene copolymer resin, polyester resin, epoxy resin thermoplastic resin or thermosetting resin, or a mixture of two or more of these resins . These resins have a glass transition point of 55 to 70 ° C. and a softening point of 80 to 1
It is 40 ° C. and generally shows hydrophobicity which is insoluble in water.

As the colorant, various pigments and dyes are used. For example, carbon black, copper oxide, manganese dioxide, aniline black, activated carbon, ferrite, magnetite, etc. are used as the black colorant, and cadmium yellow is used as the yellow colorant. Yellow lead, zinc yellow, mineral fast yellow, navel yellow, bunzer yellow G, bunzer yellow 10G, quinoline yellow lake, yellow iron oxide, nickel titanium yellow, naphthol yellow S, benzidine yellow G, benzidine yellow GR,
Permanent Yellow NCG, Tartrazine Lakey, etc. are used as red colorants such as red yellow lead, molybdenum orange, permanent orange GTR, pyrazolo orange,
Vulcan Orange, Indanthrene Brilliant Orange RK, Benzine, Orange R, Indanthrene Brilliant Orange GK, Bengala, Cadmium Red, Lead Tan, Permanent Red 4R, Resole Red, Pyrazolone Red, Watching Red, Lake Red C, Lake Red D, Brilliant Carmine 6B, Eosin Lake, Rhodamine Lake B, Alizarin Lake, Brilliant Carmine 3B, Balkan Fast Orange GG,
Permanent Red F4RH, Permanent Carmin F
B and the like, and as blue colorants, navy blue, cobalt blue, alkali blue lake, Victoria blue lake,
Phthalocyanine blue or the like is used.

The polarity control agents include positive charge control agents and negative charge control agents, and the positive charge control agents include nigrosine base EX, quaternary ammonium salts, polyamine compounds, and imidazole compounds, and negative charge control agents. As the control agent, chromium complex salt type azo dye, copper phthalocyanine dye,
Known are chromium complex salts, zinc complex salts, aluminum complex salts, calixarene compounds, and the like. In particular, the chromium complex salt type azo dye is easily eluted by the stripping solution and causes a dyeing residue.

In the method of reproducing the recording material of the present invention,
When an image removal promoting liquid as described above is applied to a recording material having a hydrophobic image as described above, the action of the surfactant in the image removal promoting liquid, particularly the action of a high-concentration surfactant causes, for example, The image removal accelerating liquid quickly and sufficiently penetrates into the interface between the recording material, which is a paper-based layer containing cellulose fibers as a main component, and the hydrophobic image. As a result, even if the amount of the image removal accelerating liquid applied is small, the cellulose fibers are swollen and deformed rapidly by the image removal accelerating liquid, and the contact site or contact area between the cellulose fibers and the hydrophobic image is reduced, resulting in the hydrophobic property. Since the adhesive force between the image and the recording material is reduced, the hydrophobic image is easily peeled off from the recording material, and the recording material is not stretched, wrinkled, wavy, curled, or the like.
The hydrophobic image can be sufficiently peeled and removed from the recording material. Also, due to the action of the contained hypochlorite, the dyeing of the colored polarity control agent is reduced to a very small extent by the bleaching action, so that it is possible to reproduce the recording material having a very low dyeing concentration. It can be carried out. Therefore, when a toner image is formed again by copying or recording using the recording material regenerated by using the image removal accelerating liquid of the present invention, the toner image has good fixability and a new unused recording material. It is possible to obtain a toner image having the same quality as when the material is used.

The amount of the image removal promoting liquid applied to the recording material in the present invention is 0.05 to 0.6 g / A4 (A4
The weight of the liquid contained in the plate paper) is preferable, and particularly, 0.
1 to 0.5 g / A4 is preferable. When the amount of the image removal accelerating liquid applied is less than 0.05 g / A4, the peeling removal of the hydrophobic image becomes insufficient, and when it exceeds 0.6 g / A4, the components of the image removal accelerating liquid are not covered. As the amount of water accumulated and retained near the surface of the recording material increases, the water content also increases, and when the regenerated recording material is reused for image formation by copying or recording, the recording material stretches and wrinkles. It causes waviness, curling, or the like, and adversely affects the fixability of a hydrophobic image.

In order to apply the image removal promoting liquid to the recording material, for example, the image removing promoting liquid is sprayed or applied on the hydrophobic image forming surface of the recording material, or the hydrophobic image is formed in the image removal promoting liquid. The recording material may be dipped. When the image removal promoting liquid becomes solid at room temperature by using the non-aqueous solvent which is solid at normal temperature, the image removing promoting liquid may be heated and applied to the recording material in a liquid state. Further, the image removal accelerating liquid containing the surfactant at a high concentration may be applied only once, or after the image removal accelerating liquid having a low concentration of the surfactant is applied to the recording material, the surface activity is continuously increased. The agent applies a high-concentration image removal-promoting liquid, or a high-concentration image removal-promoting liquid is applied to the recording material, and subsequently a low-concentration image removal-promoting liquid is applied. It may be given over times. According to the method of applying the image removal promoting liquid a plurality of times, even if the amount of the image removal promoting liquid applied is smaller,
The hydrophobic image can be sufficiently peeled and removed from the recording material, and the recording material can be reproduced without causing the recording material to stretch, wrinkle, curl, or the like.
Furthermore, by applying the image removal promoting liquid a plurality of times, the image removal promoting liquid can be uniformly applied to the hydrophobic image forming surface of the recording material, and the hydrophobic image can be peeled and removed from the recording material. It has the advantage of being easier.

Due to the components of the image removal promoting liquid accumulated and remaining near the surface of the recording material due to the application of the image removal promoting liquid,
If the reproduced recording material is electrically conductive and it is difficult to form an electrostatic latent image on the recorded material by electrophotography, the image fixability of the reproduced recording material may be reduced. In the case of adverse effects, as a post-treatment of the recording material from which the hydrophobic image has been removed, the recording material is treated with water or an aqueous solution to remove the residual components of the image removal accelerating liquid. Is desirable. Examples of the aqueous solution include alcohols such as methyl alcohol, ethyl alcohol and isopropyl alcohol, glycols such as ethylene glycol and diethylene glycol, and the like.
An aqueous solution containing less than or equal to wt% can be used. Further, in water or aqueous solution, sodium benzoate, sorbic acid and salts thereof, paraoxybenzoic acid esters,
Dehydroacetic acid, propionic acid, salts thereof and preservatives such as diphenyl, ortho-phenylphenol, thiabendazoles, imazalil and the like may be added. The amount of water or aqueous solution applied in this post-treatment is preferably such that the amount of water is 0.05 to 0.2 g / A4,
In particular, an amount that gives a water content of 0.08 to 0.1 g / A4 is preferable. Within this range, the remaining components of the image removal promoting liquid can be removed without causing the recording material to stretch, wrinkle, wavy, curl, or the like.

To treat the recording material with water or an aqueous solution, for example, sponge, cloth, felt or the like impregnated with water or an aqueous solution is applied to the surface of the recording material where the image removal promoting liquid component remains. Contact, rotate, move,
Water or an aqueous solution may be applied to the recording material to dissolve the residual components and at the same time remove the residual components.
Alternatively, water or an aqueous solution may be applied to the recording material using a coating roller made of rubber, metal, plastic, or the like to dissolve and remove the residual components. Further, by heating the recording material from which the hydrophobic image has been peeled and removed, the residual components on the surface of the recording material are melted, and the residual components are permeated into the inside of the recording material to be removed from the surface of the recording material. You can By doing so, it is possible to form a hydrophobic image having good fixability when the reproduced recording material is reused for image formation by copying or recording.

The peeling member used in the method for reproducing the recording material of the present invention is preferably a member exhibiting a hydrophobic image and a certain degree of adhesiveness or heat resistance. Examples of the material include isoprene rubber, neoprene rubber, Synthetic rubber such as chloroprene rubber, silicone rubber, butadiene rubber, and fluororubber, natural rubber, epoxy resin such as bisphenol-epichlorohydrin condensate, alkyd resin, urea formaldehyde resin, butyl urea formaldehyde resin, butylated melamine formaldehyde resin, benzoguanamine formaldehyde Amino resin such as resin, terpene phenol resin, phenol ether resin, phenolic thermosetting resin such as phenol resin, polyvinyl chloride, polyvinylidene chloride, vinylidene chloride-acrylonitrile copolymer Vinyl chloride - vinyl acetate copolymer,
Ethylene-vinyl acetate copolymer, ethylene-tetrafluoroethylene copolymer, vinyl copolymer such as polyvinylidene fluoride, polyvinyl butyral, polyvinyl formal, polypropylene, vinyl polymer such as polyethylene, polybutyl acrylate, polymethacrylic acid , Acrylic resin such as polymethylmethacrylate, polyimide, polyamide such as 6,6-nylon and 6-nylon, polycarbonate, polyether sulfone, polyether ether ketone, polyethylene terephthalate,
Polyethylene naphthalate, polyesters such as aromatic polyesters, thermoplastic or thermosetting synthetic resins such as polyphenylene sulfide, polyparavalanic acid, polyether nitrile and aramid, metals such as nickel, stainless steel, aluminum and their oxides, ceramic materials And so on.

These materials can be used alone, but can also be used in combination by laminating, alloying, adding other additives such as glass fiber, whiskers, carbon, silica, titanium oxide and the like. Repeated use of the peeling member is advantageous in various points such as reduction in recycling cost, and in that case, relatively high heat resistance and surface stability are required. Examples of particularly preferable peeling member from the image removing property and durability are polyethylene terephthalate, polyethylene naphthalate, polyether ether ketone, polyphenylene sulfide, polyparavalic acid, polyether nitrile, aramid, polyimide, polyether imide, stainless steel, Examples include nickel and alumite.

Next, an example of an apparatus used in the method of reproducing the recording material of the present invention will be described with reference to the drawings. FIG. 1 is a schematic sectional view showing an example of a recording material reproducing apparatus. Figure 1
In FIG. 1, a recording material having a hydrophobic image formed of a heat-flexible or heat-softening image forming substance is transferred from a paper feed tray 1 to a guide plate 3, a coating roller 7 and a conveyance roller 8 by a paper feed roller 2. Sent. The image removal promoting liquid 5 in the liquid container 4 is scooped up by the scooping roller 6 and applied to the hydrophobic image forming surface of the recording material by the coating roller 7. The recording material to which the image removal accelerating liquid has been applied is rotated in contact with the contacting roller 9, the plurality of heating rollers 13 to 17 continuously arranged in zigzag, the rotating bodies 18 to 21, and the separation roller 25. It is nipped and conveyed between the moving belt-shaped member 11, the contacting roller 10, the heating roller and the rotating body, and the belt-shaped peeling member 12 that rotates in contact with the separation roller 24.

The recording material having a hydrophobic image is closely sandwiched between the belt-shaped peeling member 12 and the belt-shaped member 11 so that a plurality of heating rollers 13 to 17 and rotating bodies 18 to 21 are formed.
Since the belt-shaped peeling member is conveyed while being wound around, it is naturally pressed by the tension of the belt-shaped peeling member and heated by a plurality of heating rollers, whereby the hydrophobic image is transferred to the peeling member. The heating may be performed by heating the atmosphere with the heaters 22 and 23. The recording material on which the hydrophobic image is transferred to the peeling member and the belt-shaped peeling member 12 are separated by the separating rollers 24 and 25, and the separating claw 2 is used.
Complete separation at 6,27. The belt-shaped peeling member 12 to which the hydrophobic image is attached by transfer is cleaned by the cleaning blade 37 and is used again for peeling the hydrophobic image.

The hydrophobic image-forming substance peeled from the peeling member by cleaning is accumulated in the container 38. on the other hand,
The surface of the recording material separated by the separation rollers 24 and 25 and the separation claws 26 and 27 is no longer having a hydrophobic image. The recording material reproduced in this manner is conveyed to the post-processing unit by the conveying roller 28, and the post-treatment liquid 30 in the post-treatment liquid container 29 is reproduced by the scooping roller 31 and the coating roller 32. Granted to.
As a result, the image removal promoting liquid component adhered / remaining on the reproduced recording material surface is removed from the recording material surface.
Next, the recording material is dried by the conveying roller 33 by the drying belt 34 if necessary (normally, it is not necessary to dry it), and is ejected to the ejection tray 36 by the ejection roller 35.
In this way, the hydrophobic image is sufficiently peeled and removed, and there is no stretching, wrinkling, waviness, curl, etc., and it is possible to form an image with good fixability when used again for copying or recording. The material is regenerated.

[0030]

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited thereto.

Comparative Example 1 40% by weight of glycolic acid in water, dialkylsulfosuccinic acid
Acid ester salt surfactant (Brand name Aerosol OT-10
0, manufactured by Mitsui Cytec Co., Ltd.)
A removal promoting liquid was prepared.

Next, an electrophotographic copying machine (image-
DA250T Ricoh product) toner image
The image is printed on the toner image forming surface of the PPC copy paper carrying the image.
The image removal accelerating liquid was added to 0.3 g using the reproducing apparatus shown in FIG.
(Per A4 side)

In the reproducing device shown in FIG . 1, a belt shape is used.
The peeling member 12 is made of polyetheretherketone.
The heating roller 13 at a temperature of 123 ° C.
Set the temperature of rollers 14 to 17 to 93 ° C to accelerate image removal
The PPC copy paper on which the liquid is applied is used as a belt-shaped member 11
Between the belt-shaped peeling member 12 and the
It is conveyed at a speed of sec and the separation rollers 24, 25 and
The belt-shaped peeling section for the PPC copy sheet by the release claws 26 and 27.
Separated from material 12 and using water by application roller 32
Apply 0.1g of post-treatment liquid (per A4 side)
As a result, the toner image was transferred to the peeling member and
Stripped and removed from PC copying paper, paper stretches, wrinkles, ripples
A PPC paper without curling was obtained.
Red-purple dyeing image due to elution of the sex control agent is density (OD)
It remained as an afterimage of 0.2 to 0.15.

Example 1 30% by weight of Sandet LNM (trade name, manufactured by Sanyo Kasei Co., Ltd.) as a surfactant, 5% by weight of 1,2-hexanediol and 10% by weight of a potassium hypochlorite solution were dissolved in water. An image removal promoting liquid was prepared. Next, an electrophotographic copying machine
Shaped by (imagio-DA250T Ricoh)
Toner image on PPC copy paper with toner image created
A reproduction apparatus shown in FIG. 1 in which the image removal promoting liquid is applied to the image forming surface.
0.25 g (per A4 surface) was applied. Shown in Figure 1
In the recycling device, the belt-shaped peeling member 12 is
Using a belt made of ether ether ketone,
The temperature of the roller 13 is 123 ° C. and the temperature of the heating rollers 14 to 17
Is set to 93 ° C., and the P
A belt-shaped member 11 and a belt-shaped peeling member 1 for PC copy paper.
It is sandwiched between 2 and transported at a speed of 32 mm / sec.
By separating rollers 24, 25 and separating claws 26, 27
Separate the PPC copy paper from the belt-shaped peeling member 12 and apply it.
With the cloth roller 32, 0.1 g of the post-treatment liquid using water
(A4 side contact) When applied and post-treated, PP
C The toner image on the copy paper is transferred to the peeling member and the PPC
Peeling and removal from copy paper, no paper stretch, wrinkles, waviness, curl, etc., and residual dyeing density (OD) of 0.019
PPC copying paper of An electrophotographic copying machine (imagio-DA250) using recycled PPC copying paper.
When a toner image is formed again by using T Ricoh Co., Ltd., a toner image having a good fixing property is obtained as in the case of using a new unused PPC copying paper. Further, an operation of forming a toner image with the electrophotographic copying machine using recycled PPC copy paper, applying an image removal accelerating liquid in the same manner as described above, and peeling and removing the toner image again is repeated 5 times. As a result, the toner image was always sufficiently removed and there was no occurrence of paper stretch, wrinkles, waviness, curl, etc.
The PPC copy paper having a residual dyeing density (OD) of 0.03 to 0.02 was reproduced, and a toner image having the same quality as that obtained by using a new unused copy paper was obtained. Then, after the liquid was left at room temperature (18 ° C. to 25 ° C.) for 6 months and the copy paper was recycled by the above-mentioned operation, recycled paper having the same peel quality was obtained.

Example 2 20% by weight of Sandet LTM (trade name, manufactured by Sanyo Kasei Co., Ltd.) as a surfactant in water, Hyter (trade name, manufactured by Kao Co.)
An image removal promoting liquid was prepared by dissolving 5% by weight and 1% by weight of 2-methyl-2,4-pentanediol. The toner image was peeled off and post-treated in the same manner as in Example 1 except that 0.20 g (per A4 side) of this image removal accelerating liquid was applied, and the toner image on the PPC copying paper was transferred to the peeling member. The PPC copying paper was peeled off from the PPC copying paper, and the PPC copying paper with a residual dyeing density (OD) of 0.025 was reproduced without the occurrence of paper elongation, wrinkles, waviness, curling, or the like.

Example 3 20% by weight of Sandet ENR-20 (trade name, manufactured by Sanyo Kasei Co., Ltd.) as a surfactant and 10% by weight of calcium hypochlorite solution as a bleaching agent were dissolved in water to prepare an image removal accelerating liquid. Prepared. 0.34 g (A4
The toner image was peeled and removed and the post-treatment was carried out in the same manner as in Example 1 except that the toner image of the PPC copying paper was transferred to the peeling member and peeled and removed from the PPC copying paper. PP with no residual dyeing density (OD) of 0.025 with no wrinkles, wrinkles, curls, etc.
C copying paper was obtained.

Example 4 In water, 5% by weight of Sandet ET (trade name, manufactured by Sanyo Kasei Co., Ltd.) as a surfactant and 10% by weight of Hyter as a bleaching agent,
An image removal promoting liquid was prepared by dissolving 5% by weight of 1,6-hexanediol. 0.20 g of this image removal promoting liquid
(A4 surface) The toner image was peeled off and post-treated in the same manner as in Example 1 except that it was applied.
C The toner image on the copy paper is transferred to the peeling member and the PPC
PP with a residual dyeing density (OD) of 0.02, which is peeled and removed from copy paper without the occurrence of paper stretch, wrinkles, waviness, curl, etc.
C copying paper was obtained. When a toner image was formed again by using an electrophotographic copying machine (manufactured by imagio-DA250T Ricoh Co., Ltd.) using the regenerated PPC copying paper, a toner having a good fixing property was obtained as in the case of using a new unused PPC copying paper. An image was obtained. Also, the regenerated PP
After forming a toner image on the electrophotographic copying machine using C copying paper, applying an image removal promoting liquid in the same manner as above,
When the operation of peeling and removing the toner image was repeated 5 times again, the toner image was always sufficiently removed, paper stretch, wrinkle, waviness, curl, etc. did not occur, and the residual dyeing density (OD) was 0. A PPC copy paper of 0.02 to 0.03 was regenerated, and a toner image having a quality similar to that obtained by using a new unused copy paper was obtained.

[0038]

According to the present invention, the hydrophobic image can be sufficiently peeled and removed from a recording material having a hydrophobic image formed of a heat-flexible or heat-softening image forming substance by using a small amount, An image in which the residual dye density (OD) of the recording material reproduced by the reproduction processing can be reduced to, for example, 0.02 or less, and at the same time, the recording material to be reproduced does not stretch, wrinkle, wavy, or curl. There is provided a removal promoting liquid and a method for reproducing a recording material having the hydrophobic image using the image removal promoting liquid.

[Brief description of drawings]

FIG. 1 is an apparatus 1 used in a method for reproducing a recording material according to the present invention.
It is a schematic sectional drawing of an example.

[Explanation of symbols]

1 Paper tray 2 paper feed rollers 3 guide plates 4 liquid container 5 Image removal promoting liquid 6 pumping rollers 7 Application roller 8 Conveyor rollers 9 Adhesion roller 10 Adhesion roller 11 Belt-shaped peeling member 12 Belt-shaped peeling member 13 Heating roller 14 Heating roller 15 Heating roller 16 heating roller 17 Heating roller 18 rotator 19 rotating body 20 rotating body 21 rotating body 22 Heater 23 Heater 24 Separation roller 25 Separation roller 26 Separated nail 27 Separated nail 28 Conveyor rollers 29 Post-treatment liquid container 30 Post-treatment solution 31 pumping roller 32 coating roller 33 transport rollers 34 Drying belt 35 paper ejection roller 36 Output tray

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yumi Ichikawa 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Co., Ltd. (56) References JP-A-8-230281 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) G03G 21/00 G03G 21/00 570-578

Claims (4)

(57) [Claims] 1. An alkaline and stable surfactant and a water-soluble agent .
The liquid is composed of an aqueous solution or a water-containing organic solution containing a bleaching agent showing alkalinity , and is reproduced by the outflow of the colored polarity control agent contained in the hydrophobic image in the reproducing process of the recording material having the hydrophobic image. An image removal accelerating liquid capable of bleaching the remaining colored material of the recording material. 2. The image removal promoting liquid according to claim 1, wherein the surfactant has an alkyl sulfonate structure. 3. The image removal promoting liquid according to claim 1, wherein the bleaching agent has a hypochlorite structure. 4. An image removal accelerating liquid is applied to a recording material having a hydrophobic image formed of a heat-flexible or heat-softening image forming substance, and the hydrophobic image and the peeling member are heated and heated. The method for regenerating a recording material, which comprises peeling and removing from a recording material by bringing the hydrophobic image into contact with the releasing member and transferring the hydrophobic image to the releasing member.
Alternatively, a method for reproducing a recording material is characterized in that the image removal promoting liquid described in 3 is used.