JP3585716B2 - Reproduction device for recording material - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention is directed to a reproducing apparatus that reproduces a recording material by removing an image forming substance formed on the recording material such as recording paper by an image forming apparatus such as a copying machine, a facsimile, a printer, and a printing machine. The present invention relates to simplification, downsizing, and easy maintenance.
[0002]
[Prior art]
In recent years, due to the rapid development of office automation, printer paper, copy paper, and the like have been used in large quantities. Accordingly, a large amount of waste paper is generated from offices. Producing such a large amount of paper can lead to global environmental degradation due to excessive deforestation. In addition, disposal of a large amount of waste paper requires a great deal of cost, and there is a possibility that the disposal of these waste papers may deteriorate the local environment. Therefore, various recycling techniques have been proposed for processing unnecessary copy sheets and reusing them as recycled paper.
[0003]
For example, a method disclosed in Japanese Patent Application Laid-Open No. Hei 1-297294 discloses a method in which an image forming substance formed of plastic, metal, paper having poor liquid permeability, ceramic or the like as a recording material is subjected to a release treatment so as to be difficult to adhere. When removing the image forming substance printed on the recording material by printing using the above, the image forming substance is covered with a cleaning material made of a heat-fusible material, and then cooled. The image forming substance being formed is removed. Further, in the method disclosed in JP-A-1-101576 or JP-A-1-101577, a paper on which an image is formed by a toner resin is immersed in a soluble solvent of the toner resin, and ultrasonic vibration is applied. To remove toner.
[0004]
However, in the method of using a recording material which has been subjected to a release treatment so that the image forming substance is not easily adhered, the recording material must be subjected to a release treatment in advance to significantly reduce the adhesive force with the image forming substance. However, it is difficult to apply to printer paper and copy paper. Further, the method using an organic solvent has problems of pollution, ignition and toxicity, and it is difficult to use it in a general office or home.
[0005]
On the other hand, for example, Japanese Patent Application Laid-Open No. 7-13383 discloses at least one selected from the group consisting of an aqueous solution containing water and a surfactant, an aqueous solution containing an aqueous polymer, and an aqueous solution containing a surfactant and an aqueous polymer. A processing liquid for facilitating image removal, which is one kind of water or aqueous solution, is prepared, and this processing liquid is supplied at least partially to a recording material composed of a paper layer mainly composed of cellulose fibers, and the recording liquid is supplied. The adhesion state of the hydrophobic image by the thermoplastic ink (toner) stably adhering to the surface of the material is destabilized, and this hydrophobic image is heated or heat-pressed or adhered to an adhesive release member. There is disclosed a reproducing method in which the recording material is separated from a recording material by pressure bonding. Further, Japanese Patent Application Laid-Open No. Hei 8-44260 discloses a reproducing apparatus in which a small amount of an image removal accelerating liquid having a low moisture content enables removal of toner from a recording material to reduce power consumption. Further, Japanese Patent Application Laid-Open No. Hei 9-197926 discloses that a roller for pressing a recording material against a peeling member is provided with irregularities, and that the toner adhered to the recording material is partially removed in a multi-step manner. A good peeling rate is obtained while preventing a jam due to poor separation between the recording material and the peeling member. According to these methods, the use of special paper and toner is not required, the paper is not significantly damaged, and the paper can be recycled with high safety without adversely affecting the human body and the environment. Can be.
[0006]
As described above, the peeling member that adheres and peels off the image forming substance adhering to the recording material is cleaned by a peeling member cleaning unit in order to obtain stable image removal performance. As the peeling member cleaning means, those which are physically scraped with a spiral roller, a blade or the like are often used. However, in order to remove the image forming substance strongly adhered to the peeling member with the spiral roller, it is necessary to increase the pressure for pressing the spiral blade against the peeling member, the number of revolutions of the spiral blade, and the like, and the strength and strength of the component parts are increased. In order to secure a drive source and the like, the size of the peeling member cleaning unit becomes large. When the blade is pressed and scraped, a driving source is not required, but the cleaning ability is often insufficient.
[0007]
Therefore, for example, JP-A-6-324601 discloses that a large number of recesses are provided on the surface of a base roller made of, for example, a metal as a peeling member, and the same resin as the resin of the image forming substance is filled in the recesses. The surface of a portion that easily adheres to the image forming material and a portion that is less likely to adhere to the image forming material than the portion are used. An image forming substance that partially adheres to a portion where it is likely to adhere is cut off by a cutting member so as to smooth the surface in close contact with the recording material.
[0008]
Japanese Patent Application Laid-Open No. 8-262937 discloses a high adhesion portion made of an organic polymer such as polyethylene terephthalate or polyetheretherketone on the surface of a peeling member, and an inorganic polymer such as calcium carbonate or titanium oxide. A low-adhesion portion in which the toner is uniformly dispersed is provided to reduce the adhesive force between the peeling member and the image forming substance, to facilitate the cleaning of the peeling member, and to abrasion resistance of the peeling member by the dispersed inorganic powder. The life of the peeling member is extended by improving the properties.
[0009]
[Problems to be solved by the invention]
As disclosed in Japanese Patent Application Laid-Open No. 6-324601, as a peeling member, a member in which a portion that easily adheres to the image forming substance and a portion that does not easily adhere to the surface of the base roller are mixed and exposed on the surface is used. When the image-forming substance adhered by heating and pressure contacting the member and partially protruding is cut off to flatten the contact surface with the recording material, when the image-forming substance softened by heating is cut off, The applied stress does not act on the bonding interface due to the softening of the image forming substance, and becomes a dispersed force, which causes deformation or ductile fracture of the image forming substance, thereby reliably cutting off the image forming substance and recording material. It is not easy to make the contact surface with the flat. In order to avoid such a state, the image forming substance adhered to the recording material may be cooled and cured, but since the peeling member is a roller, heat transfer from the surroundings and the peeling member itself are not performed. It is difficult to provide sufficient cooling due to the large heat capacity.
[0010]
Further, as disclosed in JP-A-8-262937, a high-adhesion portion and a low-adhesion portion are provided on the surface of a peeling member so that the adhesive force between the peeling member and the image forming substance is reduced almost uniformly. In some cases, there is a possibility that defective removal of the image forming material on the recording material may occur.
[0011]
SUMMARY OF THE INVENTION It is an object of the present invention to improve such disadvantages and to obtain a recording material reproducing apparatus in which an image forming substance adhered to a peeling member is removed with a simple configuration and the whole apparatus is simplified and downsized. .
[0012]
[Means for Solving the Problems]
An apparatus for reproducing a recording material according to the present invention provides a recording material having a film-like fixed image made of a thermoplastic or heat-fusible image-forming substance, which has a greater adhesive force between the recording material and the image-forming substance. Laminating a peeling member having a large adhesive force on the image forming substance, Pressurized while heating Later, by separating the recording material and the release member The image forming substance adhering to the recording material Transfer and adhere to the peeling member A reproducing apparatus that reproduces a recording material by removing an image forming substance from the recording material, Image forming from a pair of film-like peeling members, heating and pressurizing means for heating and pressurizing the peeling member and the recording material by overlapping, separating means and separating member for separating the superposed recording material and the peeling member Cut-off members for removing substances are provided separately and independently. It has a first peeling part and a second peeling part, and the first peeling part has a plurality of irregularities formed on its surface as a heating and pressing means. A plurality of heating / pressing rollers are provided, and the stacked recording material and the peeling member are pressed and heated by the plurality of heating / pressing rollers to remove the image forming substance adhering to the recording material. Intermittently transfer and adhere to the release member from the recording material, The second peeling part is The image forming substance remaining on the recording material is transferred and adhered to the release member, The image forming substance adhered to the peeling members of the first peeling section and the second peeling section is removed by a cutting member having a blade at a tip.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
The recording material reproducing apparatus according to the present invention includes a paper feeding unit for storing a recording material, such as copy paper or print paper, on the surface of which an image is formed by an image forming substance; A liquid application unit for applying an image removal accelerating liquid containing a surfactant that makes the attached state of the image forming substance unstable, and a recording material by bonding the image forming substance attached to the recording material. A drying unit and a paper receiving unit.
[0019]
The peeling unit has a first peeling section and a second peeling section, and the first peeling section and the second peeling section each have a pair of peeling belts, a heating and pressing roller, a cooling unit, and a cleaning unit. The release sheet is made of an endless belt made of an endless film, has a greater adhesive force with the image forming material than the recording material, and has an image forming material adhered to the recording material by sandwiching the recording material. And peeled off from the recording material. The heating / pressurizing roller conveys the release sheet sandwiching the recording material while heating and pressurizing the same, and softens the image forming substance on the recording material to adhere to the release sheet. The cooling unit cools the release sheet separated through the heating and pressing roller, and cools and hardens the image forming substance peeled off from the recording material and adhered to the release sheet. The cleaning unit is provided downstream of the cooling unit in the moving direction of the release sheet, and is pressed against the release sheet to scrape off the image forming substance attached to the release sheet.
[0020]
On the surface of the heating and pressing roller of the first peeling section, a plurality of concaves and convexes are provided by a concave portion and a convex portion parallel to the rotation axis of the heating and pressing roller, and the image forming substance adhering to the recording material is peeled off. Adheres intermittently in the direction of sheet movement. The surface of the heating and pressing roller in the second peeling section is formed flat.
[0021]
When removing and reproducing the film-like image formed on the surface of the recording material, the recording material having the image forming substance attached thereto and stored in the paper feeding unit is sent to the liquid applying unit, and the image removal accelerating liquid is supplied. It is applied in a fixed amount, and reduces the adhesive strength between the image forming substance and the recording material. The recording material to which the image removal accelerating liquid has been applied is sent to the first peeling unit of the peeling unit and is sandwiched between the peeling sheets. When the peeling sheet sandwiching and sandwiching the recording material passes through the heating and pressing roller, it is heated and pressed to peel off the image forming substance from the recording material and adhere to the peeling sheet. The image forming substance remaining on the recording material passing through the first peeling section is removed in the second peeling section. The recording material from which the image forming substance has been removed by the peeling unit is sent to a drying unit, where wrinkles and curls are removed while removing moisture, and collected as a recycled material in a paper receiving unit.
[0022]
Further, the peeling sheet to which the image forming substance peeled off from the recording material is adhered is cooled by the cooling means to cure the adhered image forming substance. The cured image forming substance is scraped off with a cutting blade of the cleaning unit and removed, and the contact surface of the peeling sheet with the recording material is flattened. As described above, the image forming substance adhering to the release sheet is cooled and hardened and then scraped off. Therefore, the image forming substance adhering to the release sheet is surely removed and the release sheet is removed. The contact surface with the recording material can be made flat. Further, when the release sheet is cooled, the release sheet is formed of a film having a small heat capacity, so that the release sheet can be easily cooled and the image forming substance can be surely cured. Further, since the image forming substance protruding from and adhering to the peeling sheet is removed only by cutting the rotating sheet into contact with the peeling sheet and pressing the blade against the peeling sheet, the movable unit is not required in the cleaning unit and the configuration is simplified. And can be miniaturized.
[0023]
Further, since the image forming substance adhering to the recording material is intermittently adhered in the moving direction of the release sheet, the chance of the cutting blade catching on the image forming substance increases, and the image forming substance is reliably removed from the release sheet. Can be scraped off.
[0024]
【Example】
FIG. 1 is a configuration diagram of one embodiment of the present invention. As shown in FIG. 1, a reproducing apparatus 1 includes a paper feed unit 3 for storing a recording material 2 such as a copy sheet or a print sheet on the surface of which an image is formed by an image forming substance, and an image removal accelerating liquid applying unit (hereinafter, referred to as a unit). , A liquid application unit) 4, a peeling unit 5, a drying unit 6, and a paper receiving unit 7. The liquid application unit 4 is disposed downstream of a guide path 8 that guides the recording material 2 from the paper supply unit 3. The peeling unit 5 is disposed downstream of the liquid applying unit 4 via the guide path 9. The drying unit 6 is arranged downstream of the peeling unit 5, and the paper receiving unit 7 is arranged downstream of the drying unit 6.
[0025]
The recording material 2 stored in the paper feed unit 3 is sent to the liquid application unit 4 through the guide path 8 by the transport rollers 31 and 32. The liquid application unit 4 applies the image removal accelerating liquid 41 containing a surfactant that makes the adhesion state of the image forming substance stably adhered to the surface of the recording material 2 unstable. A processing liquid container 42 for storing the liquid 41, a transport roller 43 for transporting the recording material 2, an application roller 44 disposed opposite to the transport roller 43, and an image of the processing liquid container 42. There is a pumping roller 45 for supplying the image removal promoting liquid 41 to the application roller 44 by partially immersing in the removal promoting liquid 41 and rotating. The image removal accelerating liquid 41 stored in the processing liquid container 42 is supplied by pumping up the processing liquid in the liquid retaining container 46 with a pump 47, and keeping the amount of the processing liquid 41 in the processing liquid container 42 constant. 2 is given in a fixed amount.
[0026]
The peeling unit 5 provided on the downstream side of the liquid applying unit 4 has a plurality of stages, for example, two-stage peeling units 5a and 5b as shown in the figure, and the first peeling unit 5a and the second peeling unit 5b , A pair of peeling belts 51 and 52, a heating and pressing roller 53 having a built-in heating lamp, a cooling unit 54 and a cleaning unit 55. The release sheets 51 and 52 are endless belts made of an endless film, and one of the release sheets 51 is stretched around a plurality of tension rollers 56 provided at an upper portion thereof through a heating / pressing roller 53 and the other is peeled. The sheet 52 is stretched around a plurality of stretching rollers 57 provided at a lower portion of the sheet 52 through a heating and pressing roller 53. The release sheets 51 and 52 have a greater adhesive force to the image forming substance than the recording material 2, and peel off the recording material 2 by bonding the image forming substance adhered to the recording material 2. I do. Such a property may be such that the release sheets 51 and 52 themselves have the property of adhering the image forming substance, or the release sheets 51 and 52 may be integrally formed with a member that adheres the image forming substance. A heating / pressing roller 53 is zigzag disposed in the first peeling section 5a, and the peeling sheets 51 and 52 sandwiching the recording material 2 are conveyed while applying a bending stress by bending while applying heat and pressure. The image forming substance on the material 2 is softened and adhered to the release sheets 51 and 52. The heating / pressurizing roller 53 of the second peeling section 5b softens the image forming substance remaining on the recording material 2 that has passed through the first peeling section 5a and causes the softened image forming substance to adhere to the peeling sheets 51 and 52. On the surface of the heating and pressing roller 53 of the first peeling portion 5a, as shown in FIG. 2, a plurality of unevennesses are provided by a concave portion 53a and a convex portion 53b parallel to the rotation axis of the heating and pressing roller 53, The surface of the heating and pressing roller 53 of the second peeling section 5b is formed flat. The cooling means 54 includes a cooling fan provided opposite to the release sheets 51 and 52 separated through a heating and pressing roller 53, as shown in FIG. 3, for example. The image forming substance adhering to 51 and 52 is cooled and hardened. The cleaning unit 55 has a cutting blade 551 and a cleaning container 552. As shown in FIG. 3, the cut-off blade 551 is provided downstream of the cooling unit 54 in the moving direction of the release sheets 51 and 52, and is pressed against the release sheets 51 and 52 by a spring 553 to contact the release sheets 51 and 52. The attached image forming substance is scraped off. The cleaning container 552 contains the removed image forming substance.
[0027]
Examples of the material of the release sheets 51 and 52 of the release unit 5 include synthetic resins such as isoprene rubber, neoprene rubber, chloroprene rubber, silicon rubber, butadiene rubber, and fluorine rubber, natural rubber, and epoxy resins such as bisphenol / epichlorohydrin condensate. , Alkyd resins, urea formaldehyde resins, butyl urea formaldehyde resins, amino resins such as butylated melamine formaldehyde resins, benzoguanamine formaldehyde resins, phenolic thermosetting resins such as terpene phenol resins, phenol ether resins, phenol resins, polyvinyl chloride, poly Vinylidene chloride, vinylidene chloride-acrylonitrile copolymer, vinyl chloride-vinyl acetate copolymer, ethylene-vinyl acetate copolymer, ethylene-tetrafluoroethylene copolymer Vinyl copolymers such as polyvinylidene fluoride, vinyl copolymer polyvinyl butyral, polyvinyl formal, polypropylene and polyethylene; acrylic resins such as polybutyl acrylate, polymethacrylic acid and polymethyl methacrylate; polyimides; 6,6-nylon , Such as polyamides such as, 6-nylon, polycarbonate, polyethersulfone, polyetheretherketone, polyethylene terephthalate, polyethylenenaphthalate, aromatic polyesters, etc .; Curable synthetic resin, metals such as nickel, iron, and aluminum, Ni steel, stainless steel, Fe-Ni alloy, Co-Al alloy, Monel, Connell, mention may be made of a metal alloy such as duralumin.
[0028]
The drying unit 6 includes a drum heater 62 having a built-in heater 61 for heating the recording material 2 from which the image forming substance has been removed while applying a pressing force, and is disposed around the drum heater 62 and the drum heater 62. And a conveying water absorbing belt 64 that is wound around the conveyed roller 63 and absorbs water while conveying the recording material 2.
[0029]
The image-forming substance stably adhering to the surface of the recording material 2 stored in the paper feed unit 3 of the reproducing apparatus 1 having the above-described structure can be formed by a normal electrophotographic method, a thermal transfer method, or a hot melt ink. Is a thermoplastic or heat-fusible image forming substance recorded on the recording material 2 by a method such as an ink-jet printing method or a printing method. Specific examples include dry toners and wet toners for developing electrostatic latent images, inks impregnated in hot-melt ink sheets, and hot melt inks.
[0030]
Examples of the thermoplastic or heat-fusible image forming substance include polystyrene, polyalkyl acrylate, polyalkyl methacrylate, styrene-acrylonitrile copolymer, styrene-acryl copolymer, styrene-butadiene copolymer, polyamide, and polyethylene. And at least one of polypropylene, alkyd resin, epoxy resin, polyvinyl acetate, ethylene-vinyl acetate copolymer (EVA), unsaturated polyester, polyvinyl chloride, and silicone resin. Examples of the coloring material contained in the image forming substance include inorganic and organic pigments such as carbon black, quinacridone derivatives, phthalocyanine derivatives, and benzidine yellow, and oil-soluble dyes are also used. Further, various additives are contained depending on the image forming method. In an electrophotographic system, a charge control agent is added, and in a thermal transfer ink, various waxes are added as a vehicle and a rosin (abietic acid) derivative is added as an adhesive.
[0031]
Regardless of which image forming substance is used, the forming method forms a film-like image 10 on the surface of the recording material 2 as shown in the cross-sectional view of FIG. Here, the film-like image 10 does not necessarily mean that the entire image forms one film, but simply that the image-forming substance does not penetrate into the recording material 2 or that the image is printed with an aqueous ink containing a dye. This means that the image forming substance is not adsorbed on the recording material 2 at a molecular level almost as in the case of the above.
[0032]
When the image formed on the recording material 2 is removed, when the image removal accelerating liquid 41 is applied to the recording material 2 as described above, the recording material 2 is at least near the surface on the side where the image is formed. It is preferable that there is a layer which is easily wetted by the image removal accelerating liquid 41. For example, copy paper and print paper that are generally used in large quantities correspond to this, but are not limited to such paper.
[0033]
Next, an operation of reproducing the recording material 2 by removing the film-like image 10 formed on the surface of the recording material 2 by the reproducing apparatus 1 configured as described above will be described.
[0034]
The recording material 2 having the image forming substance attached thereto and stored in the sheet feeding unit 3 is sent to the liquid applying unit 4 through the guide path 8 by the transport rollers 31 and 32. When the recording material 2 sent to the liquid application unit 4 is transported by the transport roller 43, the image removing accelerating liquid 41 that makes the adhesion state of the image forming substance on the surface unstable by the application roller 44. Is given by a fixed amount. When the image removal accelerating liquid 41 is applied to the recording material 2 in this manner, the adhesive force between the image forming substance and the recording material 2 decreases. The mechanism by which the adhesion is reduced is not simple, and several mechanisms are thought to be involved. For example, when an image removal accelerating liquid 41 containing water as a main component is applied to the recording material 2 on which the film-like image 10 is formed, the thermoplastic or heat-fusible image forming substance formed on the surface of the recording material 2 is coated. Water permeates near the interface with the recording material 2. Due to the difference in the amount of swelling of the recording material 2 and the image forming substance due to the water, a stress is generated, and the adhesive force between the two is extremely weakened. On the other hand, when the amount of the image removal accelerating liquid 41 is reduced for saving power and preventing the dimensional change of the recording material 2, the water content in the image removal accelerating liquid 41 also decreases. In such a case, it is unlikely that the adhesive strength is reduced due to the difference in the swelling amount between the recording material 2 and the image forming substance. Rather, components other than water are localized on the surface of the recording material 2 so that the surface of the recording material 2 is localized. It is considered that the physical or chemical properties change and the adhesive strength decreases. There are various types of the image removal accelerating liquid 41. In many cases, the main component is water, and various surfactants are added thereto. Further, in addition to the surfactant, a wetting agent, a plasticizer, a pH adjuster, a preservative, a fungicide, a rust inhibitor and the like may be added. In recent years, solid-state image removal accelerators have also been developed.
[0035]
The recording material 2 to which the image removal accelerating liquid 41 has been applied is sent to the first peeling section 5 a of the peeling unit 5 through the guide path 9. The recording material 2 sent to the first peeling section 5a is sandwiched between the peeling sheets 51 and 52. When the peeling sheets 51 and 52 which are in close contact with the recording material 2 pass through the heating and pressing roller 53, they are heated and pressurized while applying a bending stress, so that the peeling sheets 51 and 52 and the recording sheets are recorded. The contact surface of the material 2 is stretched and shrunk, and the image forming substance is peeled from the recording material 2 and adhered to the peeling sheets 51 and 52. As described above, when the image forming substance is removed from the recording material 2 and bonded to the release sheets 51 and 52 having a larger adhesive force with the image forming substance than the recording material 2, the recording material 2 is sandwiched. The adhesive force between the release sheets 51, 52 and the image forming material is heated to heat the adhered release sheets 51, 52 to soften the image forming substance and improve the contact property of the release sheets 51, 52. Increase. Further, in the case of the recording material 2 composed of a fibrous substance such as paper, the adhesion of the image forming substance to the fibers or the like is reduced by heating, and the adhesive force with the recording material 2 is reduced. Heating and pressurizing the recording material 2 on which the film-like image 10 is formed when the image forming substance is peeled from the recording material 2 in this manner is the same as, for example, a fixing step in a copying machine, and This may increase the adhesive force of the substance to the recording material 2. However, since the component of the image removal accelerating liquid 41 exists at the interface between the recording material 2 and the film-like image 10, it is possible to prevent an increase in the adhesive force of the image forming substance to the recording material 2, and From the image forming substance. It is desirable to set the temperature at which the peeling sheets 51 and 52 that are in close contact with the recording material 2 therebetween are heated to a temperature equal to or higher than the softening point of the image forming material and not to melt the image forming material. That is, when the image forming material is melted, it is difficult to attach the image forming material on the recording material 2 to the peeling sheets 51 and 52 without dividing the image forming material into the recording material 2 and the peeling sheets 51 and 52. It is because it becomes.
[0036]
The image forming substance remaining on the recording material 2 that has passed through the first peeling section 5a is removed by the second peeling section 5b. The recording material 2 from which the image forming substance has been removed by the peeling unit 5 is sent to the drying unit 6 to remove elongation, wrinkles, undulations, curls, etc. while removing moisture, and is recovered as a recycled material in the paper receiving unit 7. You.
[0037]
The release sheets 51 and 52 to which the image forming substance peeled off from the recording material 2 is adhered are cooled by the cooling means 54 to cure the adhered image forming substance. The cured image forming substance is scraped off by the cutting blade 551 of the cleaning unit 55 and removed, and the contact surfaces of the peeling sheets 51 and 52 with the recording material 2 are flattened. The image forming material removed from the release sheets 51 and 52 is stored in a cleaning container 552. As described above, the image forming substance adhering to the release sheets 51 and 52 is cooled and hardened and then scraped off. Therefore, the image forming substance adhering to the release sheets 51 and 52 is surely removed. Thus, the contact surfaces of the separation sheets 51 and 52 with the recording material 2 can be made flat. Further, when the release sheets 51 and 52 are cooled, the release sheets 51 and 52 are formed of a film having a small heat capacity, so that they can be easily cooled and the image forming material is securely cured. be able to. Further, the image forming substance protruding and adhering to the peeling sheets 51 and 52 is removed only by pressing the blades 551 that are cut off to the peeling sheets 51 and 52 that are driven by rotation. Is not required, and the configuration can be simplified and downsized.
[0038]
The image forming substance adhering to the peeling sheets 51 and 52 removed by the cutting blade 551 of the cleaning unit 55 slightly rises from the surfaces of the peeling sheets 51 and 52 to which no image forming substance adheres. I have. For example, an image formed by monochrome electrophotography has a swelling with a thickness of 10 μm to 20 μm. Therefore, the image forming substance can be scraped off by hooking a cutting blade 551 on the swell. If the image forming substance adheres to the entire surfaces of the release sheets 51 and 52, there is no chance that the cutting blade 551 is caught, and cleaning failure occurs. Therefore, when the image forming substance attached to the release sheets 51 and 52 is removed by the cutting blade 551, the image forming substance adheres to the release sheets 51 and 52 in the area of the release sheets 51 and 52 slidably contacted by the cutting blade 551. It is desirable that there is an area that is not. Further, if a continuous swelling of the image forming substance also exists in a part of the area of the release sheets 51 and 52 in sliding contact with the cutting blade 551, the clearance between the separation sheets 51 and 52 and the cutting blade 551 caused by the swelling causes The cutting blade 551 loses the chance of being caught by the image forming substance and causes cleaning failure. Therefore, when the cutting blade 551 scrapes off the image forming substance in a certain area of the release sheets 51 and 52, the larger the number of times that the image forming substance does not swell in the area, that is, the more the image forming substance is formed on the release sheets 51 and 52. If the substance is intermittently adhered, the chance of the cutting blade 551 catching on the image forming substance increases, and good cleaning can be performed.
[0039]
Therefore, as shown in FIG. 2, a plurality of concave and convex portions 53a and convex portions 53b parallel to the rotation axis of the heating and pressing roller 53 are provided on the surface of the heating and pressing roller 53 of the first separating portion 5a of the separating unit 5. And the surface of the heating and pressing roller 53 of the second peeling section 5b is made flat. That is, the adhesiveness between the release sheets 51 and 52 and the image forming substance depends on the pressing force of the heating and pressing roller 53 of the release unit 5. Therefore, by forming irregularities on the surface of the heating and pressing roller 53 of the first peeling section 5a to impart a periodic strength distribution to the pressing force, recording is performed on the peeling sheets 51 and 52 of the first peeling section 5a. The image forming substance adhered to the member 2 is intermittently peeled off and adhered, and the image forming substance intermittently remaining on the recording member 2 is peeled off by the release sheets 51 and 52 of the first peeling section 5b. To adhere. In this manner, the image forming substance adhering to the release sheets 51 and 52 of the first release section 5a and the second release section 5b can be reliably removed by the cutting blade 551 having one flat blade. it can.
[0040]
Further, as shown in FIG. 5A, the pattern of the irregularities on the surface of the heating and pressing roller 53 includes a plurality of irregularities formed by a concave portion 53a and a convex portion 53b inclined at a fixed angle with respect to the rotation axis of the heating and pressing roller 53. Or the concave portion 53a and the convex portion 53b may be provided intermittently as shown in FIGS. 5 (b) and 5 (c).
[0041]
In the above embodiment, the case where the surface of the heating / pressing roller 53 of the peeling unit 5 is provided with irregularities and the image forming substance is intermittently adhered to the peeling sheets 51 and 52 has been described. The parts having good and bad adhesion to the image forming substance may be repeatedly distributed along the moving direction of the release sheets 51 and 52 by a chemical or physical treatment. As a chemical treatment method for distributing portions having good and poor adhesion to the image forming substance on the surfaces of the release sheets 51 and 52, for example, the release sheets 51 and 52 are immersed in a chemical and the surface is coated with a desired functional group. Is to make In many cases, hydroxyl groups, carbonyl groups, or carboxyl groups can be introduced into the surface to improve the hydrophilicity of the surfaces of the release sheets 51 and 52. When the release sheets 51 and 52 are made of resin, the release sheets 51 and 52 are immersed in a solvent. Usually, various low molecular weight components are added to the resin for the purpose of improving workability. In general, it is known that the low molecular weight component migrates to the surface and causes a layer (weak boundary layer) having a weak adhesive strength. By immersing the resin-made release sheets 51 and 52 in a solvent, low-molecular-weight components are removed, so that surface modification can be performed. As another method, surface modification with a coupling agent such as a silane-based, titanium-based, organic phosphoric acid-based, or silyl peroxide-based is also effective. In this case, a relatively strong coating layer is formed on the surface by chemical bonding between the surfaces of the release sheets 51 and 52 and the coupling agent and the coupling agent. A desired surface property can be obtained by selecting an appropriate functional group for the coupling agent and changing the treatment conditions of the coupling agent. As described above, since the chemical treatment can be achieved by immersion in a predetermined liquid, there is an advantage that the shape of the release sheets 51 and 52 is not limited. As a physical treatment method, for example, there is a method of subjecting the release sheets 51 and 52 to plasma treatment. Generally, the plasma treatment uses glow discharge of a low-pressure gas, so that various gases can be used, and various surface treatments can be performed. In addition, a material surface having a complicated shape can be treated due to the nature of glow discharge. Another method is to subject the release sheets 51 and 52 to corona treatment. Since the corona treatment is a discharge close to the atmospheric pressure, no large-scale and strict pressure reducing equipment is required. The effects of these physical treatments have not been elucidated at present, but the mechanisms involved in adhesion are to increase the very fine surface irregularities and to improve the surface in the presence of oxygen. There are two points of improving the hydrophilicity. In addition, since the physical treatment is a dry process, it does not require drying and waste liquid treatment steps as compared with a wet process, so that there are great advantages in terms of energy saving and no pollution.
[0042]
As shown in FIG. 6, for example, as shown in FIG. 6, the pattern of the good adhesive portion and the bad adhesive portion formed on the release sheets 51 and 52 include the good adhesive portion 50a and the bad adhesive portion 50b. As shown in FIG. 6B, a pattern provided orthogonal to the moving direction of the pattern, a pattern provided intermittently with a poorly adhesive portion 50b, or a pattern provided as shown in FIG. Various patterns similar to the uneven pattern on the surface of the heating and pressing roller 53, such as a pattern in which a portion 50a having good adhesiveness and a portion 50b having bad adhesiveness are provided at a fixed angle with respect to the moving direction of the release sheets 51 and 52, are provided. is there.
[0043]
As described above, an uneven pattern is provided on the surface of the heating / pressing roller 53, or a portion having good and bad adhesion is formed on the surface of the release sheets 51, 52, and the image forming substance is intermittently applied to the release sheets 51, 52. When the image forming substance is removed, the entire blade portion at the tip of the cutting blade 551 comes into contact with the surfaces of the release sheets 51 and 52 to which the image forming substance has not adhered at a certain point in the image forming substance removing step. The image forming substance can be effectively removed. Therefore, as shown in FIG. 7A, when the image forming substance 11 is adhered at a fixed angle with respect to the moving direction of the release sheets 51 and 52, the image forming substance 11 is fixed in the moving direction of the release sheets 51 and 52. When a plurality of cutting blades 551 having blades 551a inclined at an angle are used, or when the image forming substance 11 is intermittently adhered to the release sheets 51 and 52 as shown in FIG. A plurality of cutting blades 551 having a plurality of blades 551b may be provided intermittently according to the adhesion pattern.
[0044]
Various materials can be used as the material of the cutting blade 551. However, since the tip of the blade is always in sliding contact with the release sheets 51 and 52, at least the tip of the metal is made of metal such as stainless steel or brass. It is better to use a material to increase the wear resistance.
[0045]
In the above-described embodiment, the case where the image forming substance is peeled off after the image removal accelerating liquid 41 is applied to the recording material 2 has been described. However, the surface modification is mainly performed by applying the reverse transfer preventing agent composed of a chemical containing a surfactant. When an image is formed using the quality recording material 2, when the image forming material is peeled from the recording material 2, even if the recording material 2 on which the image is formed is heated and pressed, the reverse transfer preventing agent is used. Does not increase the adhesive force of the image forming substance to the recording material 2, and does not need to apply the image removal accelerating liquid 41. Therefore, the reproducing apparatus 1 that reproduces the recording material 2 by removing the image forming substance of the image formed on the recording material 2 whose surface has been modified in this way, as shown in the configuration diagram of FIG. Only the unit 3, the peeling unit 5, and the paper receiving unit 7 need to be provided, and the configuration of the reproducing apparatus 1 can be simplified.
[0046]
[Specific Example 1] For example, an image was formed on a copy sheet by a copying machine, and the formed image was removed by the reproducing apparatus 1 shown in FIG. 1 to reproduce the copy sheet. The release sheets 51, 52 are made of polyetheretherketone (PEEK), and the release sheets 51, 52 of the first release section 5a are locally reduced in adhesiveness by performing a corona discharge treatment under a predetermined masking condition. 6A, an adhesive pattern shown in FIG. 6A is formed, untreated release sheets 51 and 52 of the second peeling section 5b are used, and a cutting blade 551 is formed of stainless steel to form one flat sheet. One having a blade was used. As the image removal accelerating liquid 41, a 5% aqueous solution of an anionic surfactant was used. Then, the reproduction processing of 80,000 sheets of copy paper was continuously performed, and in each case, the reproduced paper of stable quality without defective removal could be obtained.
[0047]
[Specific Example 2] Polycarbonate was used as the release sheets 51 and 52, and immersed in a chromic sulfate aqueous solution under predetermined masking conditions to form an adhesive pattern similar to that of Specific Example 1. Reproduction processing of 80,000 sheets of copy paper was continuously performed under the same conditions, and in each case, it was possible to obtain recycled paper of stable quality without defective removal or the like.
[0048]
[Specific Example 3] Polyethylene terephthalate is used as the release sheets 51 and 52, and every other heating / pressing roller 53 of the first release section 5 a is provided with a concavo-convex pattern shown in FIG. 4A having a height difference of 10 μm and a width of 20 mm. And the reproduction processing of 80,000 sheets of copying paper was continuously performed under the same conditions as in Example 1. In each case, recycled paper of stable quality without defective removal was obtained.
[0049]
[Specific Example 4] Polyimide was used as the release sheets 51 and 52, and reproduction processing of 80,000 sheets of copying paper was continuously performed under the same conditions as in Specific Example 1. Recycled paper was obtained.
[0050]
Comparative Example 1 Copy paper under the same conditions as in Example 1 except that a stainless steel rotary brush roller was used instead of the cutting blade 551 having one flat blade formed of stainless steel used in Example 1 As a result of the recycling process, the quality of the recycled paper was good, but the release sheets 51 and 52 were broken when about 5,000 sheets were recycled.
[0051]
[Comparative Example 2] As a result of using a polyetheretherketone that has not been subjected to corona discharge treatment for the release sheets 51 and 52, and using the same conditions as those of the specific example 1 for regenerating copy paper, cleaning of the release sheets 51 and 52 was performed. A defect occurred, and when about 10 sheets of copy paper were reproduced, poor image removal occurred, resulting in poor recycled paper quality. When the reproduction process was further continued, the copy paper could not be separated from the release sheets 51 and 52, and a paper jam occurred.
[0052]
[Comparative Example 3] When a regeneration treatment similar to that of the specific example 2 was performed by using polycarbonate that had not been chemically treated as the release sheets 51 and 52, cleaning failure of the release sheets 51 and 52 occurred, and the copy paper was removed. When about 10 sheets were reproduced, poor image removal occurred, resulting in inferior recycled paper quality. When the reproduction process was further continued, the copy paper could not be separated from the release sheets 51 and 52, and a paper jam occurred.
[0053]
[Comparative Example 4] When the heating and pressing roller 53 of the first peeling portion 5a was subjected to the same regenerating treatment as that of the specific example 3 by using an aluminum roller that was not subjected to unevenness processing, the cleaning of the peeling sheets 51 and 52 was performed. Defectiveness occurred, and when about 10 sheets of copy paper were reproduced, poor image removal occurred, resulting in poor recycled paper quality. Therefore, when the processing was continued by increasing the pressing force of the cutting blade 551 against the release sheets 51 and 52, the cleaning failure was reduced, but the release sheets 51 and 52 were broken when about 6,000 sheets were regenerated.
[0054]
[Comparative Example 5] A concavo-convex pattern parallel to the rotation direction was formed on the heating and pressing roller 53 with a height difference of 10 µm and a width of 20 mm, and the same regenerating treatment as in Example 3 was performed. When about 10 copy sheets were reproduced, poor image removal occurred, resulting in inferior recycled paper quality. Therefore, when the processing was continued by increasing the pressing force of the cutting blade 551 against the release sheets 51 and 52, the cleaning failure was reduced, but the release sheets 51 and 52 were broken when about 6,000 sheets were regenerated.
[0055]
[Comparative Example 6] When the regenerating process was performed under the same conditions as in Example 4 without operating the cooling means 54, cleaning failure of the release sheets 51 and 52 occurred. When about 100 copy sheets were regenerated, the image was removed. Defectiveness resulted in poor recycled paper quality. Therefore, when the processing was continued by increasing the pressing force of the cutting blade 551 against the release sheets 51 and 52, the cleaning failure was reduced, but the release sheets 51 and 52 were broken when about 6,000 sheets were regenerated.
[0056]
【The invention's effect】
As described above, the present invention forms a peeling member in a film shape, intermittently adheres an image forming substance adhering to a recording material in a moving direction of the peeling member, and intermittently adheres to a peeling member. Since the image forming substance is removed by the cutting member, the chance of the cutting member catching on the image forming substance can be increased, and the image forming substance can be reliably scraped off from the peeling member.
[0057]
Further, since the image forming substance protruding from and adhering to the peeling member is removed only by pressing the cut-off member against the rotatable peeling member, the cleaning unit does not need a movable part, and the configuration is simplified and the size is reduced. be able to.
[0058]
Also, By providing a roller member having irregularities on the surface to the pressing means for pressing the peeling member on the recording material, An image forming substance adhered to a recording material can be intermittently adhered in the direction of movement of a film-like peeling member, thereby improving the cleaning efficiency of the peeling member and stably obtaining a high-quality reproduced material. Can be.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an embodiment of the present invention.
FIG. 2 is a perspective view illustrating a surface state of a heating and pressing roller.
FIG. 3 is an arrangement diagram of a cooling unit and a cutting blade.
FIG. 4 is a cross-sectional view illustrating an image formed on a recording material.
FIG. 5 is a perspective view showing another surface state of the heating / pressing roller.
FIG. 6 is a perspective view showing a surface state of a release sheet.
FIG. 7 is a layout view of a cutting blade.
FIG. 8 is a configuration diagram of another embodiment.
[Explanation of symbols]
1 playback device
2 Recording material
3 Paper feed unit
4 liquid application unit
5 Peeling unit
6 Drying unit
7 Paper receiving unit
51 Release sheet
52 Release Sheet
53 Heat and pressure roller
54 Cooling means
55 Cleaning unit
551 Cutting blade

Claims (1)

Peeling on a recording material having a film-like fixed image made of a thermoplastic or heat-fusible image forming substance, which has a larger adhesive force to the image forming substance than the adhesive force between the recording material and the image forming substance After the members are overlapped and pressurized while heating , the recording material and the peeling member are separated to transfer and adhere the image forming substance attached to the recording material to the peeling member, thereby forming an image from the recording material. A reproducing apparatus for reproducing a recording material by removing a substance,
Image forming from a pair of film-like peeling members, heating and pressurizing means for heating and pressurizing the peeling member and the recording material by overlapping, separating means and separating member for separating the superposed recording material and the peeling member A first peeling part and a second peeling part , each of which independently has a cut-off member for removing a substance ,
The first peeling unit has a plurality of heating / pressing rollers having a plurality of irregularities formed on a surface thereof as a heating / pressing unit. By applying pressure and heat, the image forming substance adhered to the recording material is intermittently transferred and adhered from the recording material to the peeling member,
The second peeling unit transfers and adheres the image forming substance remaining on the recording material to the peeling member,
An apparatus for reproducing a recording material, wherein an image forming substance adhered to the peeling members of the first peeling section and the second peeling section is removed by a cutting member having a blade at a tip.

Images