JP4017496B2 - Image forming substance removing method and removing apparatus, image forming method and image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionThe paintingThe present invention relates to a method and apparatus for removing an image forming substance, an image forming method, and an image forming apparatus. More specifically, general printing (such as relief printing, planographic printing), electrophotography, ink jet, thermal recording method, and further, crayons, marker pens, etc. The present invention relates to an image forming substance removing method and an image forming apparatus capable of removing an image forming substance from the surface of an image support on which an image forming substance formed by a writing instrument is stably attached.
[0002]
[Prior art]
At present, as a means of displaying information in society, a large amount of recording paper format hard output has been made, and as a result, a large amount of paper has been consumed, which has led to the problem of deterioration of the global environment due to forest cutting.
As a method of this hard output, there are those that are formed by a general printing (letterpress, lithographic, etc.), electrophotography, ink jet, thermal recording paper, and writing instruments such as crayons and marker pens, especially by electrophotography. Since there are no restrictions on copy paper, the running cost of using plain paper is low, and it is easy to increase the copying speed. As a result, a large amount of paper is consumed. It was destroyed and the wood resources disappeared, which brought a big challenge to global environmental problems.
[0003]
Conventionally, with respect to the problem of the negative effect of this electrophotographic output on the global environment, a method of removing toner, which is an image forming substance on the paper once used, crushing it again, and recycling it to paper called waste paper has been adopted. It has only been done. However, this method requires recovery costs (energy), sheet-like materials and the cost (energy) of re-forming the sheets into disjointed fibers and a large amount of water, and can cope with forest depletion. But energy saving, CO saving₂Such a problem cannot be dealt with.
However, recently, a recording material and method have been proposed that can remove a character image on paper once used by cleaning and reuse it for copying or printing. In particular, copying (electrophotography) that consumes a large amount of paper. In connection with this, many proposals have been made regarding the removal of toner as an image forming substance. Specifically, those relating to image supports (paper, OHP substrates, etc.), those relating to image forming substances (toners, etc.), and further, sub-members such as release methods and release liquids and release materials required according to the release methods Something about has been proposed.
[0004]
With respect to the image support, the recording material can be recorded by using a material in which a hydrophilic resin is crosslinked as a swelling layer, or by swelling the swelling layer formed on the surface of the recording material with water or the like. A method for removing an image recorded on a material has been proposed (see, for example, Patent Documents 1, 2, and 3).
[0005]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 7-311523
[Patent Document 2]
JP-A-6-222604
[Patent Document 3]
JP-A-11-174709
[0006]
In addition, it has been proposed to use a support (erasable paper) that has been release-treated on the surface of a sheet-like support in advance, particularly on one side so that the toner image can be easily peeled off (see, for example, Patent Document 4). .
However, these proposals have a defect that the image fixing ability is poor and the missing of the image occurs due to the handling environment (folding, rubbing, etc.) of the copied paper.
[0007]
[Patent Document 4]
JP-A-4-67043
[0008]
On the other hand, as an image forming substance, a photochemically decolorable toner (cyanine dye and organic boronic acid ammonium salt) (Patent Document 5) or a toner containing a special material such as a biodegradable plastic or a photodegradable plastic The proposed one (Patent Document 6) has been proposed.
Further, regarding a toner (printing material) used in combination with a deinking liquid (peeling liquid) having a component that dissolves or swells the toner resin and water (Patent Document 7), The hydrophilicity of the toner resin is defined by OHV and AV (Patent Document 8), the toner containing a surfactant for ensuring water absorption (Patent Document 9), and the ratio of the toner for ensuring hydrophilicity The thing which prescribed | regulated the surface area (patent document 10) is proposed.
[0009]
[Patent Document 5]
Japanese Patent No. 2960229 (page (3), paragraph [0010])
[Patent Document 6]
JP-A-4-35686 (page 4, column 6, line 14 to line 40)
Eyes, page 6, column 10, lines 39-43)
[Patent Document 7]
JP-A-8-146647
[Patent Document 8]
JP-A-8-146648
[Patent Document 9]
JP-A-8-146649
[Patent Document 10]
JP-A-8-146650
[0011]
However, the decolored toner has a decolored toner resin component remaining on the recording material, and the surface smoothness of the image support is significantly reduced when reused compared to the support, and is limited as a toner. Since color materials are used, there is a problem of image quality degradation due to insufficient color reproducibility, and when using degradable plastics, it is difficult to completely remove toner from images with a large amount of toner adhesion. It was.
[0012]
In addition, the technique of improving the water absorption of a release liquid such as a toner containing a surfactant, which requires the combined use with a release liquid having a component that dissolves or swells the toner resin of Patent Document 10, From the viewpoint of the safety of the liquid, it is not preferable to use a release liquid containing a solvent that easily dissolves the toner resin. Further, the paper of the paper due to the elongation of the paper after drying due to the absorption and swelling of the paper base of the release liquid is not preferable. It had serious side effects such as paper jams during reuse and re-copying. In addition, the purpose of the surfactant proposed here is to improve the water absorption of the stripping solution, so that the stripping function cannot be exhibited by itself, and toner stripping in the dry stripping method is impossible.
[0013]
In general electrophotographic toner, as a conventional technique, in order to prevent offset (adhesion between the toner and the fixing member) at the time of fixing the toner and to fix (adhere) the toner to a support such as paper, It is known to contain a low melting point material such as wax.
However, the purpose of this prior art is for good image formation, and is not contained in the toner for the purpose of peeling off the image. Image peeling is impossible. Furthermore, even if the amount of the wax used in the past is increased for the purpose of peeling, if the image support is a porous material such as paper, the wax penetrates into the paper and the like, and enters the interface between the toner and the paper. It cannot be present, and as a result, the function of reducing the adhesion between the toner and paper cannot be performed and the toner is not peeled off.
On the other hand, when the image support is a film substrate such as OHP, if the amount added is increased, the fixing power of the toner is greatly reduced, and the image is peeled off due to friction during normal use. Will occur.
[0014]
In addition, as a peeling method, a physical force by a brush, a removal blade, etc. is directly applied to the image support and the image forming substance to remove, or the peeling material and the image forming substance are bonded to each other by heating repeatedly. A method of generating force and removing the image forming substance from the image support by the adhesive force, and directly or indirectly peeling after weakening the adhesive force between the image support and the image forming substance with an auxiliary member such as a peeling solution. The method of performing etc. is proposed.
[0015]
However, in either direct or indirect peeling, removing without weakening the adhesion between the image support and the image-forming substance does not allow a high removal rate of the image-forming substance, and forcibly increases the removal rate. When the image forming substance is removed, the image support such as paper peeling is damaged, which is not preferable for the main purpose of reusing the image support.
[0016]
Although peeling with a peeling liquid is preferable because it does not damage the paper and dramatically improves the peeling rate, a shearing force is generated between the paper and the toner by supplying an excessive peeling liquid (paper swelling). Reducing the adhesive force causes the paper to swell once, causing the paper to stretch even after drying, making it easy to cause paper jams in the copier when the paper is reused or re-copied. Since the toner resin is a non-aqueous resin, it is difficult for the toner film of the part to penetrate into the toner film even though it is a surfactant-containing release liquid. It has the disadvantage that it is difficult to supply between paper and toner.
[0017]
In such a situation, in the method and apparatus capable of removing the image forming material such as the character image existing on the image support such as paper once used by cleaning and reusing it for copying or printing, the image forming material Without any restrictions, there is a great demand for a method that does not affect the image support such as paper without using a stripping solution and weakens the adhesive strength between the image support and the image forming substance. ing.
[0018]
[Problems to be solved by the invention]
  In view of the current situation, the present invention uses a support that can be used repeatedly, uses an image forming substance that can achieve high image quality, and does not use a stripping solution (without swelling the image support). ) And can easily peel off the image-forming substance even in solid images without damage.PaintingIt is an object of the present invention to provide an image forming substance removing method and removing apparatus, an image forming method, and an image forming apparatus.
[0019]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present inventor has intensively studied paying attention to a decrease in the adhesive strength between the image support and the image forming substance, and as a result, has completed the present invention.
[0021]
  That isThe above problem is(1)"A method for removing an image forming substance on an image support having an image formed by adhering the image forming substance on a surface and containing a low melting point substance, comprising:The release member is brought into close contact with the image forming material on the image support and heated to melt and liquefy the low-melting point material contained in the image support and interposed between the image support and the image forming material. A method of removing an image-forming substance characterized in that the image-forming substance is peeled off from the image support and adhered to the peeling member by reducing the adhesive force of(2)“The heating temperature for peeling is higher than the heating temperature for fixing the image”(1)The removal method of the image forming substance according to the item ",(3) “The method for removing an image forming substance according to (1) or (2) above, wherein the melting point of the low melting point substance is 60 ° C. to 150 ° C.”, (4) “ The method for removing an image forming substance according to any one of items (1) to (3), wherein the low melting point substance has at least a hydrophilic group, and (5) “low melting point” The method for removing an image-forming substance according to any one of items (1) to (4), wherein the substance has at least a hydrophilic group and a lipophilic group. The method for removing an image-forming substance as described in (5) above, wherein the lipophilic group of the melting point substance has an alkyl group having 1 to 40 carbon atoms, and (7) “the lipophilic group The method for removing an image-forming substance as described in (6) above, wherein the group has a dialkyl group "(8)" low-melting-point material is -PO ₃ H ₂ , -POOH, -OPO ₂ H ₂ , -OH,-(OH) ₂ , -COOH, -CH (OH) nCH ₂ COOH, -SO ₃ H, R ₄ N ⁺ X ⁻ The method for removing an image forming substance according to any one of (4) to (7) above, which has at least one kind of hydrophilic group selected from: The method for removing an image-forming substance according to any one of (1) to (8) above, wherein the melting point substance is contained in an amount of 0.001% to 20% by weight. The method for removing an image forming substance according to any one of items (1) to (9), wherein the support is a paper or plastic film containing a low-melting-point substance ", (11)" Item (1) to Item (10), wherein the image forming substance is a powdery toner composed of at least a colorant and a resin, and the image is formed by an electrophotographic process and fixed by heating. ) Image formation according to any one of items The method of removing the quality. "Is achieved.
[0022]
  In addition, the above problem is(12)"The firstAny of (1) to (11)By the method described inFrom image supportImaging substanceTheRemovalAnd then theMethod for forming an image comprising powdered toner containing at least a colorant and a resin on an image support by an electrophotographic image forming processToMore achieved.
[0023]
  In addition, the above problem is(13)“A removal device used for removing an image forming substance on an image support on which an image formed by adhesion of the image forming substance is present and containing the low melting substance, Means for melting and reducing the adhesive force between the image support and the image forming substance, and a peeling member made of a material capable of exhibiting an adhesive force larger than the reduced adhesive force between the image support and the image forming substance A means for pressing the release member against the image forming substance on the image support to adhere the image forming substance to the release member; and a means for separating the image support from the release member after the image forming substance adheres to the release member. An apparatus for removing an image-forming substance characterized by that ",(14)“An image forming apparatus comprising at least one of an electrophotographic photosensitive member, a charging unit, an exposure unit, a developing unit, a transfer unit, and a fixing unit,(13)This is achieved by an image forming apparatus comprising the removing device according to the item as a removing means.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
According to the present invention, a recording material fixed in a solid state on an image support is overlapped, heated, and separated to soften the recording material and generate an adhesive force with the peeling member. And the adhesive strength between the support and the support are simultaneously reduced.
Specifically, the low-melting-point substance contained in the image support is melted, and the low-melting-point substance changed into a liquid state between the image support and the image-forming substance remains at the interface between the image support and the image-forming substance. This is achieved by interposing between them to reduce the adhesive force between them.
That is, in order to enable peeling by (adhesive force between image forming substance and peeling member)> (adhesive force between image forming substance and image support), the adhesive force between the recording material and the image support is reduced during heating. To achieve.
[0025]
In the present invention, an image support is used for forming an image by adhering an image-forming substance to the surface, and contains a low-melting-point substance, and this low-melting-point substance is used when heat-peeling an image. It has the property of lowering the adhesion between the image support and the image-forming substance than before heating, and usually the image is not peeled off due to rubbing or the like with a good adhesion between the image-forming substance and the image support. Only when the adhesive force is reduced, the image forming substance can be peeled without causing damage such as paper peeling on the surface of the image support such as paper.
That is, it is possible to simultaneously process the reduction of the adhesive force between the image support and the image forming substance and the immediate release and adhesion of the image forming substance to the peeling member by one step of thermocompression bonding.
[0026]
By including a low-melting-point substance that weakens the adhesive strength in the image support, the low-melting-point substance melts into a liquid state at the time of heat peeling, and remains at the interface between the image support and the image-forming substance. Increase in adhesive strength to the support and progress of re-fixing can be prevented. Furthermore, when image fixing is heat fixing, if the melting point of the low-melting substance is higher than the fixing temperature, the necessary fixing force is usually secured. Can be maintained at a level that does not impede.
More preferably, it is a low-melting-point material that does not dissolve the image-forming substance by solvent action during heating, and when the low-melting-point substance dissolves the image-forming substance by solvent action, the adhesion force of the image-forming substance to the support On the contrary, it is not preferable because side effects opposite to those of the present purpose occur at the time of peeling.
[0027]
When the low-melting-point substance is an image support-containing material having at least a hydrophilic group, and the image-forming substance such as toner is oleophilic, the low-melting point is low because the affinity with the oleophilic image-forming substance is low at the time of melting. The substance stays at the interface between the image support and the image-forming substance, and further, the image support is subjected to binding force such as a hydroxyl group and hydrogen bond of cellulose and is present on the surface without penetrating inside the image support. Good peeling can be achieved by intervening in the film and effectively reducing the adhesive force between the two.
Therefore, it is desirable that the hydrophilic group shown here is one having a main component of the low melting point substance.
[0028]
The melting point of the low melting point material is 60 to 150 ° C., preferably 70 to 120 ° C. If the temperature is less than 60 ° C., peeling of the image due to melting of the low melting point material occurs during storage at the time when normal peeling is not desired. If the temperature exceeds ℃, the necessary peeling temperature is high at the time of peeling. By greatly reducing the viscoelasticity of the image-forming substance, the ability to reduce the adhesive force due to the inclusion of low-melting-point substances is not exhibited effectively, and the removal is effective. At the same time, thermal damage to the image support due to high-temperature heating is large, which adversely affects the reuse of the image support.
[0029]
The low melting point substance preferably contains a lipophilic group having an alkyl group of C1 to C40, preferably C6 to C22. If C has an alkyl group exceeding 40, a desired melting point cannot be obtained, and a high melting point is obtained. As a result, the peeling temperature becomes high, and peeling residue due to cohesive failure at the time of peeling of the image forming substance is likely to occur, and side effects of reuse due to thermal damage of the image support are likely to occur.
[0030]
The hydrophilic group of the low melting point substance is -PO₃H₂, = POH, -POO₂H₂, -OH,-(OH)₂-, -CH (OH) CH₂COOH, -COOH, ≡N⁺X⁻(X represents halogen) or -NH₂The low-melting-point substance stays at the interface between the image support and the image-forming substance at the time of peeling because the affinity for the lipophilic image-forming substance is low and the affinity for the image support is high. A good peeling function can be repeatedly exhibited.
[0031]
In an image in which an image forming material containing at least a colorant is formed on an image support, a low melting point material that weakens the adhesive force between the image support and the image forming material at the time of thermal peeling at the interface between the image support and the image forming material film By adhering, heating, and separating the intervening recorded image to the peeling member, the image forming substance can be removed from the image support, and a good image forming substance can be stably removed every time.
[0032]
An image-forming substance containing at least a colorant is heat-fixed on an image support, and in the formed image, the image support and the image-forming substance are liquefied at the time of thermal peeling between the image support and the image-forming substance film interface. In the removing method in which the image forming substance is removed from the image support by closely contacting, heating, and separating the recording image in which the low melting point substance that weakens the adhesive force is interposed, the peeling temperature is equal to or higher than the fixing temperature. Compared to the fixing, the low melting point material weakens the anchor effective fixing force, so that it is possible to perform excellent peeling. In particular, it is possible to achieve both a stable fixing state before peeling and good peeling at the time of peeling.
[0033]
A peeling member made of a material capable of exerting an adhesive force greater than the adhesive force between the image support and the image forming material weakened by the low melting point material is provided on the image support. The image forming material is removed from the image support by providing a peeling means for separating the image support and the peeling member adhered to the image forming material. The image forming substance can be removed.
[0034]
That is, the removing device used for removing the image forming material on the image support of the present invention is a means for melting the low melting point material and reducing the adhesive force between the image support and the image forming material. A peeling member made of a material capable of exerting an adhesive force greater than the reduced adhesive force between the body and the image forming substance, and pressing the peeling member against the image forming substance on the image support to peel the image forming substance Means for adhering to the member and means for separating the image support from the peeling member after the image forming substance adheres to the peeling member.
In the present invention, the removing device can also be incorporated into an electrophotographic image forming apparatus, that is, at least one of an electrophotographic photosensitive member, a charging unit, an exposing unit, a developing unit, a transferring unit, and a fixing unit, An image forming apparatus provided with a removing device as a removing unit may be used.
The image forming apparatus includes at least a process cartridge having an electrophotographic photosensitive member that is detachable.
[0035]
The image support in the present invention is a general paper made of a fiber used in ordinary copying machines and printers, and a plastic film such as OHP, but is not limited thereto.
Further, the method for incorporating the low melting point substance into the image support is not particularly limited, but a coating solution containing the low melting point substance is prepared, applied to the image support, and partially impregnated in the case of general paper. May be.
[0036]
The image forming material is composed of at least a colorant and a binder resin, and includes various toners used for electrophotographic copying, powder ink such as a solid ink jet, thermal transfer wax, resin material ink, general printing ink, and the like.
[0037]
A method of making a support containing a substance that lowers adhesive strength on an image support is as follows. A reducing substance and a water-soluble binder are mixed in water and coated in a solution, emulsion, or suspension in a fine particle heterogeneous solution state. However, it is not limited to this.
[0038]
The substance that lowers the adhesive force melts when heated and exists as a liquid between the image forming substance such as toner and the image support such as paper, stays at the interface between the image support and the image forming substance, and is interposed between the two. As long as the adhesive strength between them is reduced.
Specific examples of preferable hydrophilic groups include carboxylic acids, hydroxycarboxylic acids, sulfonic acids, phosphonic acids, phosphinic acids, diols, quaternary ammonium salts, and the like, and hydrocarbon groups as lipophilic groups. Examples include, but are not limited to, compounds consisting of n-alkyl, branched alkyl, aromatic substituted alkyl, partially fluorinated, and fully fluorinated alkyl. These may be used singly or as a mixture of several kinds.
Specific materials are listed below, but are not limited thereto. C₁₂H₂₅PO₃H, (C₈H₁₇O)₂PO₂H, C₁₀H₂₁OPO₃H₂, C₂₁H₂₃COOH, CH₃(CH)₁₅CHOHCOOH, C₉F₁₉COOH, HF₂C (CF₂)₈COOH, CH₃(CH)₁₁CHOHCHOH, CH₃(CH)₁₅SO₃HCHCOOR, CH₃(CH₂)₁₅(CH₃)₃NX etc.
[0039]
The water-soluble binder may be any resin that dissolves in water. Examples thereof include starch-based, cellulose-based, polyvinyl alcohol-based, polyacrylic acid-based, polyacrylamide-based, and gelatin-based materials. Absent.
[0040]
The peeling member can be constituted by using a peeling roller, a peeling film or the like. Specifically, the surface of the peeling member is the same or similar to the above toner toner resin, adhesive component resin, heat resistant resin film. Etc. can be used.
Further, metal materials such as aluminum, copper, nickel, and iron can be used, but are not limited thereto. The resin may be water-soluble or water-insoluble.
[0041]
The low-melting-point material that is contained in the image support to lower the adhesive strength is preferably 0.001 to 20% by weight, preferably 0.01 to 10% by weight. When peeling does not occur and the content exceeds 20% by weight, the defect that the fixing performance between the image forming substance and the image support becomes impractical becomes significant.
[0042]
【Example】
  The examples shown below specifically create image supports containing low melting point materials.And then remove the image-forming substance formed on the image support.However, the present invention is not limited to these examples.
{Example 1}
  About 2g of CMC1105 (Daicel brand name) 10%, MS3800 (oxidized starch: Nippon Food & Chemicals) 10%, Glyoxal (liquid) 40% aqueous solution was applied to Ricoh Diazo base paper per area of A4 paper and dried with a dryer. Further, a low melting point material (C₁₂H₂₅PO₃H₂) A low-melting-point substance-containing image support was prepared by preparing a water suspension containing 1% and polyacrylic acid 0.5% with a homomixer and applying and drying about 0.1 g.
  FIG.the aboveUsing an image support,Of the present inventionIt is sectional drawing which shows the outline | summary of the removal apparatus of an image forming substance.
  In FIG. 1, an image support (1) having an image formed of an image forming substance is fed from a paper feed tray (2) to a removal unit by a paper feed roller (3) and a guide plate (4).
  The image support (1) is a 100 μm thick polyetheretherketone film (Smith) that is supported by a transport roller (8), a support roller (9), and an elastic roller (14) each having a heating element (7). Light FS-1100C (manufactured by Sumitomo Bakelite Co., Ltd.) and heated between a peeling member (10) and a roller (11) rotating in contact with the peeling member at a position facing the conveying roller (8) It is conveyed while being.
  A temperature element (13) for measuring the temperature of the transport roller (8) and controlling the heating temperature is in contact with the transport roller (8).
  With the same configuration, the peeling member is removed, and the image is fixed by changing the heating roller to a fixing roller used in a general copying machine. Thus, the image forming substance is transferred from the image support (1) to the peeling member (10) and peeled off from the image support.
  In addition, in the rotating peeling member (10), the pressing roller (12) for giving tension to the peeling member (10) is in contact, and the image forming substance transferred to the peeling member (10) is transferred. A cleaning member (15) for removal is in contact with the elastic roller (14) at a position facing it. The image support from which the image forming substance has been removed is separated from (10) and discharged.
  Next, when the image was copied on an image support containing the low melting point substance by a Ricoh Imagio MF6550 copying machine, a copy image having no problem in fixing property was obtained.
  Next, using the apparatus for removing the image forming material and regenerating the image support described with reference to FIG. 1, the image support having the toner image is transferred from the image support having the temperature of about 130 ° C. by the transfer roller (8). The image forming material of toner was peeled and removed at a feeding speed of about 30 mm / second in (1) to regenerate the image support as a copy paper.
[0043]
(Comparative Example 1)
After an image is formed on the image support, which is a general copy paper containing no low melting point material, in the same manner as in Example 1, the recording material reproducing apparatus described in FIG. 1 is used. When used, the paper was torn and the copy paper could not be recycled.
[0044]
{Example 2}
Ricoh OHP film (TYPE; PPC-ST) with poval 1%, (C₁₂H₂₅O)₂PO₂About 0.5 g of an aqueous solution containing 0.5% of H per area of A4 paper was applied and dried, and then the film was copied with a Ricoh imagio MF6550 copier to form an image.
The image obtained fixability without any trouble.
Next, using the image support reproducing device (removal device) described with reference to FIG. 1, the toner image is transferred at a temperature of about 130 ° C. of the conveying roller (8), and the feed speed of the image support (1) is about 30 mm / The OHP film could be regenerated by transporting in seconds and removing and removing the toner from the coating support film (image support).
[0045]
Ricoh copy paper T-6200, polyacrylic acid (PW-150 Nippon Pure Chemicals) 2%, C₂₁H₄₃A low-melting-point-containing image support is prepared by applying about 2 g of a suspension aqueous solution containing 5% of COOH per A4 paper area and drying. Next, when the image was copied on an image support coated with a low-melting-point material by a Ricoh imagio MF6550 copying machine, a copy image having no problem in fixing property was obtained.
Next, the toner image is conveyed at a temperature of the conveyance roller (8) of about 130 ° C. and at a feeding speed of the image support (1) of about 30 mm / sec, using the image carrier reproduction apparatus described in FIG. The copy paper was regenerated by peeling off and removing the toner from the coated support paper (image support).
[0046]
【The invention's effect】
  As described above, as is clear from the detailed and specific description, according to the present invention, an image support that can be used repeatedly is used, and an image forming substance that can achieve high image quality is used without using a stripping solution or the like. Recording support capable of easily peeling off an image forming substance even in a solid image without causing the support to swell and damage the electrodeUseAn image forming substance removing method and removing apparatus, an image forming method, and an image forming apparatus are provided and contribute greatly to the image forming field such as copying machines, facsimile machines, and printers.
[Brief description of the drawings]
FIG. 1 shows the present invention.NoIt is sectional drawing which shows the outline | summary of the reproduction apparatus of P paper.

Claims (14)

A method for removing an image-forming substance on an image support containing an image-forming substance adhered to a surface and containing a low-melting-point substance, the image-forming substance on the image support In addition, by closely contacting and heating the peeling member, the low melting point material contained in the image support is melted and liquefied and interposed between the image support and the image forming material to reduce the adhesive force between them, A method for removing an image forming substance, comprising peeling off an image forming substance from an image support and bonding the image forming substance to a peeling member. 2. The method for removing an image forming substance according to claim 1 , wherein the heating temperature for peeling is higher than the heating temperature for fixing the image. The method for removing an image forming substance according to claim 1, wherein the low melting point substance has a melting point of 60 ° C. to 150 ° C. 4. The method for removing an image forming substance according to claim 1, wherein the low melting point substance has at least a hydrophilic group. 5. The method for removing an image forming substance according to claim 1, wherein the low melting point substance has at least a hydrophilic group and a lipophilic group. 6. The method for removing an image forming substance according to claim 5, wherein the lipophilic group of the low-melting-point substance has an alkyl group having 1 to 40 carbon atoms. The method for removing an image forming substance according to claim 6, wherein the lipophilic group has a dialkyl group. Low melting point material is -PO ₃ H ₂ , -POOH, -OPO ₂ H ₂ , -OH,-(OH) ₂ , -COOH, -CH (OH) nCH ₂ COOH, -SO ₃ H, R ₄ N ⁺ X ⁻ The method for removing an image forming substance according to claim 4, which has at least one hydrophilic group selected from the group consisting of: 9. The method for removing an image forming substance according to claim 1, wherein the low melting point substance is contained in an amount of 0.001 wt% to 20 wt%. 10. The method for removing an image forming substance according to claim 1, wherein the image support is a paper or a plastic film containing a low melting point substance. 11. The image forming material according to claim 1, wherein the image forming substance is a powder toner composed of at least a colorant and a resin, and the image is formed by an electrophotographic process and fixed by heating. For removing the image forming substance.   An image forming substance is removed from the image support by the method according to any one of claims 1 to 11, and then on the image support from a powdery toner containing at least a colorant and a resin by an electrophotographic image forming process. Forming an image.   An apparatus for removing an image forming material on an image support having an image formed by adhering an image forming material to the surface and containing the low melting material, and melting the low melting material Means for reducing the adhesive force between the image support and the image forming substance, a peeling member made of a material capable of exerting an adhesive force larger than the reduced adhesive force between the image support and the image forming substance, Means for pressing the release member against the image forming substance on the image support to adhere the image forming substance to the release member, and means for separating the image support from the release member after the image forming substance adheres to the release member. An apparatus for removing an image forming substance characterized by the above. 14. An image forming apparatus comprising at least one of an electrophotographic photosensitive member, a charging unit, an exposure unit, a developing unit, a transfer unit, and a fixing unit, and further comprising the removing device according to claim 13 as a removing unit. An image forming apparatus.

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