JP4190240B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an image forming apparatus such as a copying machine, a facsimile machine, and a printer, and an image forming method. Specifically, an image forming apparatus that transfers an image on an image carrier developed using a liquid developer onto a transfer material using an intermediate transfer member.In placeIt is related.
[0002]
[Prior art]
Conventionally, an image transfer apparatus that uses an intermediate transfer member to primarily transfer an image on an image carrier onto the intermediate transfer member and then secondary transfer the image on the intermediate transfer member onto a transfer material such as transfer paper. Forming devices are known. A transfer device using such an intermediate transfer member sequentially transfers a plurality of color images formed on the image carrier for each color component on the intermediate transfer member and transfers the superimposed image onto a transfer sheet. It is widely used in a color image forming apparatus that forms a color image by batch transfer. In addition, the transfer device using the intermediate transfer member has an advantage that a stable color image can be easily obtained even for various transfer materials including cardboard. Further, when an elastic material is used as the intermediate transfer member, there is an advantage that it is easy to obtain good transfer performance even for a transfer material having a rough surface.
[0003]
Conventionally, as a developing device for forming an image on an image carrier, a developing device using a solid developer and a developing device using a liquid developer are widely known. In a developing device using a solid developer, the electrostatic latent image on the image carrier is developed with the colored powder of the developing device to form a powder image on the image carrier. When this powder image is transferred by the transfer device using the intermediate transfer member, there is a problem that filming occurs on the intermediate transfer member due to the components of the powder image. In view of this, the present applicant has disclosed in Japanese Patent Application Laid-Open No. H10-228867 “a step of performing a primary transfer of a powder image on an image carrier onto an intermediate transfer member a plurality of times according to the required number of colors, After forming the body image, the transfer medium is brought into contact with the powder image on the intermediate transfer body by the secondary transfer roller, and the transfer medium is brought into close contact with the intermediate transfer body to apply the electric field to perform the secondary transfer. The color image forming apparatus has a removal mode for removing foreign matter adhering to the intermediate transfer member. During the removal mode operation, the secondary transfer for transferring the powder image from the intermediate transfer member to the transfer medium is performed. A color image forming apparatus that slides the secondary transfer roller and the intermediate transfer member at a peripheral speed different from the peripheral speed of the transfer roller was proposed.
[0004]
On the other hand, a developing device using a liquid developer has an advantage that a clear image can be obtained because its toner particle size is smaller than that using a solid developer, and its utility value has been reviewed in recent years. Yes. In general, a liquid developer is a toner mainly composed of a colorant composed of carbon black, an organic pigment or dye and a binder composed of a resin, and a carrier composed mainly of a solvent having a high insulating property and a low dielectric constant. Dispersed in liquid.
[0005]
[Patent Document 1]
JP 2000-275988 A
[0006]
[Problems to be solved by the invention]
In such a developing device using a liquid developer, the charged toner is electrostatically moved in the carrier liquid in the developing portion where the developer carrying member carrying the liquid developer and the image carrying member face each other. Development is performed. At this time, the carrier liquid adheres to the image carrier side together with the toner from the developer carrier. Further, in the primary transfer portion where the image carrier and the intermediate transfer member face each other, transfer is performed by electrostatically moving the charged toner in the carrier liquid. A part is transferred onto the intermediate transfer member. Further, in the secondary transfer portion, another part of the carrier liquid is transferred onto the transfer paper together with the toner from the intermediate transfer member. By such a process, the image is transferred onto the transfer paper. Compared with the primary transfer, the ratio of the carrier liquid that adheres to the transferred toner is reduced during the secondary transfer, and the toner solids. The fraction is high. Furthermore, in the secondary transfer, since the transfer material often has a property of absorbing the carrier liquid, the ratio of the carrier liquid in the developer is further reduced, and the toner solid content ratio is further increased. .
[0007]
Further, as a developing device using a liquid developer, there is also known a device in which a carrier liquid is pre-wet coated on an image carrier before development. However, in the case where the pre-wetting process is not performed, the toner solid content ratio on the image carrier increases, and the toner solid content ratio on the intermediate transfer body tends to increase. Further, even if a sweep roller or the like is provided to reduce the ratio of the carrier liquid on the image bearing member after development, the toner solid content on the intermediate transfer member is likely to increase.
[0008]
As described above, when the ratio of the carrier liquid decreases and the toner solid content ratio becomes high, the movement of the toner in the carrier liquid becomes difficult. Further, in the case of the liquid developer, when the ratio of the carrier liquid is remarkably reduced, it becomes difficult for the toner to hold the electric charge, and it becomes difficult for the toner to move electrostatically. For this reason, even if sufficient transfer performance is obtained by primary transfer, there may be no margin in transfer performance by secondary transfer. In particular, when a high-viscosity and high-concentration liquid developer in which toner is dispersed in a high-viscosity carrier liquid is used, it becomes more difficult to move the toner, and it is difficult to obtain sufficient transfer performance by secondary transfer.
[0009]
Further, when performing secondary transfer, if a member that presses the transfer material against the intermediate transfer member, such as a transfer roller, is pressed to bring the image on the intermediate transfer member into close contact with the transfer paper, the transfer performance is improved. In particular, when a high pressure is applied to a transfer material having a rough surface, the toner can be transferred to the concave portion of the transfer material, and the transfer performance is improved. Therefore, a high pressure is applied to improve the transfer performance of the secondary transfer.
[0010]
However, on the intermediate transfer member, since the toner solid content ratio is high as described above, the developer viscosity is also high. Further, a part of the solid content resin in the liquid developer swells in the carrier liquid and is sticky. For these reasons, since the solid content in the developer is high on the intermediate transfer member, the resin in the developer tends to adhere to the intermediate transfer member. If the resin in the developer adheres to the intermediate transfer member and receives a high pressure at the secondary transfer portion, it may adhere for a long period of time.
[0011]
In addition, after the secondary transfer, the residual toner that has not been transferred to the transfer material and a part of the carrier adhere to the intermediate transfer member. Therefore, a cleaning blade is provided as an intermediate transfer body cleaning device, and these are removed by sliding on the intermediate transfer body with the cleaning blade. Even in this cleaning unit, the resin component contained in the liquid developer may be softened by the friction of the cleaning blade and the heat generated thereby, and may adhere to and adhere to the intermediate transfer member.
[0012]
In recent years, in a liquid developer, in order to improve the dispersibility of the toner in the carrier liquid, a liquid developer in which a dispersant made of a liquid resin is added to the liquid developer is used. In such a liquid developer containing a liquid resin, the resin component is more likely to adhere to the intermediate transfer member due to its viscosity, and is easily fixed due to external friction and pressure in the secondary transfer portion and the cleaning portion.
[0013]
When such foreign matter adheres to the surface of the intermediate transfer member, the function as the intermediate transfer member is impaired. In particular, the releasability from the intermediate transfer member is deteriorated, and the secondary transfer performance is remarkably deteriorated. Further, since the image developed with the liquid developer has a high toner solid content rate as described above, the secondary transfer performance has no margin as compared with the primary transfer. If the foreign matter on the intermediate transfer member is affected by the fixing over time, the secondary transfer performance is significantly deteriorated over time.
[0014]
The present invention has been made in view of the above-described background, and an object of the present invention is to prevent foreign matter from adhering to the intermediate transfer member in an image forming apparatus using a liquid developer, and is good for a long period of time. An image forming apparatus capable of maintaining a high transfer performance and obtaining a high-quality image is provided.
[0015]
[Means for Solving the Problems]
  In order to achieve the above object, the invention of claim 1, StaticAn image carrier that carries an electrostatic latent image, a developing device that develops an electrostatic latent image on the image carrier using a liquid developer composed of a toner containing at least a resin and a pigment, and a carrier liquid, and the image carrier In an image forming apparatus comprising a primary transfer device for transferring an image on a body onto an intermediate transfer member and a secondary transfer device for transferring an image on the intermediate transfer member to a transfer material, high-temperature steam is transferred to the intermediate transfer member. An intermediate transfer body foreign matter removing means for spraying on the body is provided..
MaClaim2The invention of claim1'sIn the image forming apparatus, the intermediate transfer member foreign matter removing unit includes a solvent coating device that dissolves the resin constituting the toner and attaches a solvent that does not dissolve the surface of the intermediate transfer member to the surface of the intermediate transfer member. It is what.
  Claims3The invention of claim 1Or 2In this image forming apparatus, a cleaning member is provided downstream of the intermediate transfer member foreign matter removing means in the rotation direction of the intermediate transfer member.
  Claims4The invention of claim 1 to claim 1Any one of 3In the image forming apparatus, the liquid developer contains a liquid resin in the use environment.
  Claims5The invention of claim 1 to claim 1Any one of 4In the image forming apparatus, the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing unit during image formation.
  Claims6The invention of claim 1 to claim 1Any one of 5In the image forming apparatus, the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing means except during image formation.
  Claims7The invention of claim6In the image forming apparatus, the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing unit at regular intervals.
  Claims8The invention of claim6In this image forming apparatus, the removal of foreign matter on the intermediate transfer member by the intermediate transfer member foreign matter removing means is performed for every predetermined number of prints.
  Claims9The invention of claim1In the image forming apparatus, a plurality of intermediate transfer member foreign matter removing means are used in combination..
[0016]
  These image forming devicesIn placeIn this case, even if foreign matter due to the resin component of the toner of the liquid developer adheres to the surface of the intermediate transfer member, the foreign matter is removed by the intermediate transfer member foreign matter removing means. The intermediate transfer member foreign matter removing means removes the foreign matter by scraping the foreign matter with a member that rubs against the surface of the intermediate transfer member or by lifting and scraping the foreign matter by heat or pressure. For this reason, even if foreign matter adheres to the surface of the intermediate transfer member, there is no possibility that the foreign matter adheres to the surface of the intermediate transfer member. Therefore, even when a liquid developer is used, high-quality images can be obtained by maintaining the performance of the intermediate transfer member over time and maintaining good transfer performance over a long period of time.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example of an embodiment when the present invention is applied to an electrophotographic copying machine (hereinafter referred to as a copying machine) which is an image forming apparatus will be described.
FIG. 1 is a schematic configuration diagram of a main part of a copying machine according to the present embodiment. The copying machine according to this embodiment includes a charging device 2, an exposure device 3, a liquid developing device 4, a primary transfer device 5 using an intermediate transfer member, a cleaning device 6 and the like around a photosensitive drum 1 as a latent image carrier. Is arranged. As the material of the photosensitive drum 1, a-Si, OPC, or the like can be used. The charging device 2 may be in the form of a roller or a charger. Further, as the exposure apparatus 3, an LED, a laser scanning optical system, or the like can be used.
[0018]
A case where an image is formed by reversal development with the copying machine having the above configuration will be described. The photosensitive drum 1 is rotationally driven in the direction of the arrow at a constant speed during copying by driving means such as a motor (not shown). Then, after being uniformly charged to about 600 V in the dark by the charging device 2, a light image of the original is irradiated and formed by the exposure device 3, and the electrostatic latent image is carried on the outer peripheral surface of the photosensitive drum 1. Thereafter, the electrostatic latent image is developed while passing through a portion of the liquid developing device 4. The toner image developed on the electrostatic latent image on the photosensitive drum 1 is transferred onto the intermediate transfer belt 50 as an intermediate transfer member by the primary transfer device 5, and then transferred onto the transfer paper from the intermediate transfer belt 50 by the secondary transfer device 8. Transferred to P. Residual toner is removed from the photosensitive drum 1 by the cleaning device 6 after the primary transfer. Thereafter, the residual potential on the surface of the photosensitive drum 1 is removed by a static elimination lamp to prepare for the next copy. Further, the transfer paper P onto which the toner image has been transferred passes through a fixing device (not shown) and is discharged outside the apparatus.
[0019]
The liquid developer 40 used in the copying machine of this embodiment will be described. The liquid developer 40 includes a binder composed of a colorant and a resin as a main component, and a toner added with a charge control agent dispersed in a carrier liquid mainly composed of a solvent having a high insulating property and a low dielectric constant. Is. The copying machine of this embodiment is not a low-viscosity (about 1 mPa · s), low-concentration (about 1%) liquid developer that uses Isopar (Exxon trademark) as a carrier, which is generally commercially available. A liquid developer 40 having a high viscosity and high concentration was used. As the range of the viscosity and concentration of the developer 40, for example, those having a viscosity of 50 mPa · s to 5000 mPa · s and a concentration of 5% to 40% are used.
[0020]
As the carrier liquid, a highly insulating material such as silicone oil, normal paraffin, Isopar M (Exxon trademark), vegetable oil, mineral oil or the like is used. Volatile and non-volatile can be selected according to the purpose.
[0021]
Colorants play a role in visualization, and include many inorganic and / or organic pigments and dyes, including carbon black, ultramarine blue, bitumen, phthalocyanine pigments, azine pigments, triphenylmethane pigments, azo Dyes and pigments, condensation dyes and pigments are used.
[0022]
The binder is a resin or polymer that plays a role of fixing. Specifically, polymerized polymers of vinyl esters represented by vinyl acetate, vinyl propionate, etc., polymerized polymers of acrylic acid and methacrylic acid esters, and synthetic resin rubbers represented by styrene-butadiene system, and natural rubber , And modified natural rubber, rosin and rosin modified resin, epoxy resin, silicone resin, styrene resin, coumarone indene resin, petroleum-based resin represented by cyclopentadiene polymer, ethylene-vinyl acetate copolymer, ethylene-acrylic An acid copolymer, an ethylene-methyl acrylate-acrylic acid copolymer, a polyethylene wax, or the like is used.
[0023]
The charge control agent plays a role of maintaining the polarity of the toner stably, and includes inorganic and organic pigments, organic dyes, resins having polar groups in the molecule and aromatic carboxylic acids, alcohols, ketones, esters, ethers and amines. Polymers that are used and that contain them are also used for this purpose. Further, various metal soaps such as cobalt naphthenate and manganese octenoate are used as necessary.
[0024]
The functions of the above components are not clearly classified. For example, dyes / pigments may play a role of charge control as well as a role of coloring, and resins or polymers having polar groups may charge control simultaneously with a role of fixing. There are also cases where
[0025]
The particle diameter of the toner composed of these components is selected according to the purpose from submicron to about 6 μm.
[0026]
The liquid developer 40 is added with a dispersant made of a liquid resin in the use environment in order to disperse the toner well in the carrier liquid. Examples of the dispersant include polyethylene resins such as Sun Wax E200, E250P and 131-P (manufactured by Sanyo Chemical Industries), polypropylene resins such as Biscol 500P and 600P (manufactured by Sanyo Chemical Industries), Denka Vinyl SS-100 and SS-130, Examples thereof include vinyl chloride resins such as DSS-130 (manufactured by Denki Kagaku Kogyo Co., Ltd.), paraffin wax, natural wax and surfactants.
[0027]
Next, the liquid developing device 4 employed in the copying machine of this embodiment will be described.
The liquid developing device 4 is mainly composed of a developer storage tank 41 for storing a liquid developer 40 therein, a developing roller 42, a sweep roller 43, an anilox roller 44 as a coating means, a gear pump 45, and a stirring roller 46. Yes. The developing roller 42 and the sweep roller 43 are provided with cleaning members 47 and 48 made of metal blades or rubber blades, respectively. Each of the cleaning members 47 and 48 is not limited to a blade, and may be a roller type. The anilox roller 44 is provided with a doctor blade 49.
[0028]
The developing roller 42 and the sweep roller 43 are each provided with an elastic layer having conductivity on the outer peripheral surface. Urethane rubber can be used as the material for these elastic layers. The rubber hardness of each elastic body layer is preferably 50 degrees or less in terms of JIS-A hardness. The material of each elastic layer is not limited to urethane rubber, but may be any material that is conductive and does not swell or dissolve with the carrier liquid / developer. Further, the surfaces of the developing roller 42 and the sweep roller 43 are conductive and are made of a material that does not swell or dissolve with the carrier liquid / developer, so that the carrier liquid / developer does not contact the inner layer. If so, the material of each elastic body layer as the inner layer may be elastic without restriction of the conductivity and swelling and dissolution. At this time, it is necessary to apply the developing bias voltage / sweep bias voltage not from the shaft of the developing roller / sweep roller but from the surface. Further, instead of providing the elastic layer on the developing roller 42 and the sweep roller 43, the elastic layer may be provided on the photosensitive member side. Further, the photoreceptor may be composed of an endless belt-like member. Further, the developing roller 42 and the sweep roller 43 are configured by coating or a tube so that the surfaces thereof have smoothness of Rz 3 μm or less.
[0029]
FIG. 1 shows the developing roller 42 at a position separated from the photosensitive drum 1 during the non-developing operation. At the time of development, the developing roller 42 is brought into contact with the photosensitive drum 1 with an appropriate pressure. When the developing roller 42 and the sweep roller 43 are brought into contact with the photosensitive drum 1 with an appropriate pressure, the elastic layer of each roller is elastically deformed to form a developing nip and a removal nip. In particular, by forming the developing nip, it is possible to secure a certain developing time for the toner of the developer 40 to move and adhere to the photosensitive drum 1 by the developing electric field in the developing region. Moreover, the nip width which is the magnitude | size of the surface moving direction in each nip part can be adjusted by adjusting a contact pressure. Each nip width is set to the product of the linear speed of each roller and the development time constant, or more. Here, the development time constant is a time required until the development amount is saturated, and is obtained by dividing the nip width by the process speed. For example, if the nip width is 3 mm and the process speed is 300 mm / sec, the development time constant is 10 msec.
[0030]
During the developing operation, a thin layer of the liquid developer 40 is formed on the developing roller 42 by the anilox roller 44. At this time, the thickness of the developer 40 applied on the developing roller 42 was set so that the pigment content in the toner carried per 1 cm 2 of the surface thereof was 3 μg or more and 60 μg or less. For this purpose, a thin layer of the liquid developer 40 is applied to a thickness of 3 to 10 μm. This is because the coating thickness of the liquid developer 40 is 1 cm on the surface of the developing roller 42.²When the thickness is such that the pigment content in the toner carried per hit is less than 3 μg, a sufficient amount of pigment does not move to the image portion of the latent image formed on the photosensitive drum 1, and the image portion This is because the image density may be reduced. Also, 1 cm of the surface of the developing roller 42²If the thickness of the toner contained in the toner held per hit is greater than 60 μg, the excess toner remaining on the background after development may increase and the removal by the sweep roller 43 may be incomplete. is there.
[0031]
The thin layer of the liquid developer 40 formed on the surface of the developing roller 42 passes through the developing nip formed by the photosensitive drum 1 and the developing roller 42. In general, in an electrophotographic developing device, the surface moving speed of the developing roller is set faster than the surface moving speed of the photosensitive member in order to send sufficient toner to a region where the photosensitive member and the developing device face each other. For this reason, since the toner has a high moving speed with respect to the surface of the photosensitive member, a positional deviation occurs between the toner and the latent image, and the leading edge of the image is blurred or the balance between the vertical and horizontal lines is poor. Appear. This phenomenon is also observed in liquid development. In the copying machine according to the present embodiment, the surface of the developing roller 42 and the surface of the photosensitive drum 1 move at a substantially constant speed, and has a velocity vector in the tangential direction of the photosensitive drum 1 relative to the toner. Therefore, the above phenomenon does not occur.
[0032]
A developing bias voltage (400V) lower than the photoreceptor surface potential (600V) is applied to the developing roller 42, and a developing electric field is generated between the developing roller 42 and an image portion exposed to 50V or less by the exposure device 3. . In the image portion of the photosensitive drum 1, the toner in the developer 40 is moved to the photosensitive drum 1 by the electric field to visualize the latent image. On the other hand, in the background portion (non-image portion), the toner is moved to the surface of the developing roller 42 by the electric field formed by the developing bias potential and the photoreceptor potential so that the toner does not adhere to the background portion.
[0033]
However, if a part of the toner on the background portion does not move to the surface of the developing roller 42 and remains on the photosensitive drum 1 side, it causes fogging. Therefore, the developing device 4 of the copying machine according to the present embodiment is provided with the sweep roller 80 for sweeping (cleaning) toner that causes the fog (hereinafter referred to as “fogging toner”). The sweep roller 80 is disposed downstream of the developing roller 42 in the rotation direction of the photosensitive drum 1 and is pressed against the photosensitive drum 1 so as to sandwich the developed toner layer. The surface of the sweep roller 80 moves at substantially the same speed as the surface of the photosensitive drum 1.
[0034]
The sweep roller 80 has a bias voltage (250 V) close to the surface potential (50 to 200 V) of the toner layer of the image portion on the photosensitive drum 1 so as not to return the toner from the toner layer of the developed image portion to the sweep roller 80. ) Is applied. In the background portion, the floating fog toner is moved to the sweep roller 80 by an electric field generated by the difference between the potential of the background portion of the photosensitive drum 1 and the potential due to the bias voltage. At this stage, the background developer layer is about half the thickness of the developing nip portion of the developing roller 42, and the toner density is reduced to about 50% or less of the density before development. Removal is easy. Thereby, fogging of the background portion can be completely prevented.
[0035]
Next, the primary transfer device 5 and the secondary transfer device using the intermediate transfer member employed in the copying machine of this embodiment will be described.
In the copying machine of FIG. 1, an intermediate transfer belt 50 composed of an endless belt that is looped between a plurality of rollers 51, 52, and 53 is used as an intermediate transfer member. Any one of the plurality of rollers 51, 52, 53 is used as a driving roller, and the intermediate transfer belt 50 can be rotated counterclockwise in the drawing. The intermediate transfer belt 50 is disposed so as to contact the surface of the photosensitive drum 1 at the primary transfer position 55. The toner on the photosensitive drum 1 is transferred onto the intermediate transfer belt 50 by applying a voltage having a polarity opposite to the charging polarity of the toner on the photosensitive drum 1 from the primary transfer roller 54 at the primary transfer position 55. .
[0036]
Further, a secondary transfer roller 7 as a secondary transfer device is provided on the right side of the intermediate transfer belt 50 with the intermediate transfer belt 50 interposed therebetween. The secondary transfer roller 7 is disposed so as to be pressed against the roller 53 via the intermediate transfer belt 50, and the toner image on the intermediate transfer belt 50 is transferred onto a sheet of transfer paper. Further, an intermediate transfer body cleaning blade 60 as an intermediate transfer body cleaning device for removing residual toner and carrier liquid remaining on the intermediate transfer belt 50 after the secondary transfer onto the transfer paper is provided in the vicinity of the roller 51.
[0037]
As an endless belt, carbon black is mixed with polyurethane to make the volume resistivity 10⁸-10¹²An endless belt material having a thickness of 2.5 mm and having an Ω · cm thickness was used. Within such a volume resistivity range, the intermediate transfer belt 50 is less likely to have a history of potential due to the secondary transfer voltage or the photoreceptor surface potential, and the transfer bias applied from the inner voltage application member is effectively effective. Can be made.
[0038]
As shown in FIG. 2, an intermediate transfer roller 56 may be used as an intermediate transfer member. As a configuration of the intermediate transfer roller 56, a drum may be formed by winding an endless intermediate transfer belt as shown in FIG. 1 around a metal drum. Further, as shown in FIG. 3, a conductive and heat-resistant elastic body layer 58 on a rigid drum 57 made of a metal such as aluminum, and the conductivity, heat resistance, peelability, and preferably A surface layer 59 having silicone oil resistance may be provided. Here, the drum 57 has conductivity so that a voltage can be applied from a shaft or the like in order to transfer the toner image on the photosensitive drum 1 onto the intermediate transfer roller 56 by electrostatic force. Further, it has a hardness for applying a pressure necessary to transfer the transferred toner onto a medium such as paper. The surface roughness of the surface layer is desirably about the average particle diameter of the toner (1 μm) or less.
[0039]
The surface of such an intermediate transfer member is coated with a fluorine-containing resin or fluorosilicone rubber such as polyvinyl fluoride, polyvinylidene fluoride, polytrifluoroethylene, or polytetrafluoroethylene, or a conductive polyurethane resin containing fluorine. . Examples of the coating method include spray coating, dip coating, and ring coating.
[0040]
In such a copying machine, on the intermediate transfer body, the ratio of the carrier liquid in the developer of the liquid developer is low and the toner solid content is high, and the resin contained in the toner on the intermediate transfer body Etc. are likely to adhere. Then, the resin adhering to the intermediate transfer member may receive pressure or heat and adhere to the intermediate transfer member, thereby deteriorating the transfer performance. Therefore, the copying machine of this embodiment is provided with an intermediate transfer member foreign matter removing means for removing foreign matters such as resin adhering to the surface of the intermediate transfer member.
[0041]
Hereinafter, the intermediate transfer member foreign matter removing means will be described.
As the intermediate transfer member foreign matter removing means, a foreign matter removing member that comes in contact with the surface of the intermediate transfer member is provided, and the foreign matter on the intermediate transfer member is scraped off by rubbing the surface of the intermediate transfer member.
As an example, FIG. 1 and FIG. 2 show a case where a foreign matter removing roller 61 as a foreign matter removing member is provided. The foreign matter removing roller 61 is in the form of a foam roller in which a foam material having air permeability is provided around the core metal. Hereinafter, a description will be given with reference to FIG. Around this foreign matter removing roller 61, there is a foreign matter removing roller case that covers the circumference of the foreign matter removing roller 61 (not shown) and has an opening at an opposite portion of the intermediate transfer roller 56 as an intermediate transfer member, and a driving means for the foreign matter removing roller. I have. The foreign transfer roller 61 is rubbed against the intermediate transfer roller 56 while being driven to rotate in a direction opposite to the moving direction of the intermediate transfer roller 56 by a driving unit (not shown). As a result, the foreign matter adhered and fixed to the intermediate transfer roller 56 is scraped off. The driving means for the foreign matter removing roller 61 is composed of a timing pulley, a timing belt, a motor, and the like. The foreign matter removing roller 61 may be in contact with the intermediate transfer roller 56 during image formation to remove foreign matter. However, the foreign matter removing roller 61 is separated from the intermediate transfer roller 56 at the time of image formation by an approaching / separating means (not shown) and intermediate at the time of non-image formation. You may comprise so that it may contact | abut to the transfer roller 56. FIG. Then, in a state where the foreign matter removing roller 61 is in contact with the intermediate transfer roller 56, it rotates in the direction opposite to the moving direction of the intermediate transfer roller 56. As a result, the foreign matter adhered or fixed on the intermediate transfer roller 56 is scraped off. Since the foam material constituting the foreign matter removing roller 61 is easily deformed, foreign matter adhering along the irregularities on the surface of the intermediate transfer roller 56 can be scraped out.
[0042]
As the foam material constituting the foreign matter removing roller 61, for example, a polyurethane foam or a melamine foam obtained by foaming a melamine resin which is a thermosetting resin can be used. Urethane foam rollers are excellent in oil resistance, heat resistance, solvent resistance, and abrasion resistance. Among these, in particular, when a melamine foam roller was used, extremely good foreign matter removal performance could be obtained. This is because polyurethane foam, etc. has a film-like structure, whereas melamine foam is a structure formed only by a skeleton (so-called open cell), and it has a foreign substance in the skeleton rather than the ability to scrape foreign substances with the film. This is thought to be because of its high ability to scrape off. Moreover, since it is a structure formed only by the skeleton, it is characterized by light weight and further improved air permeability. Thus, the foreign material removal member using melamine foam has a good foreign material removal performance. Melamine resin, also called melamine-formaldehyde resin, is a thermosetting resin obtained from melamine and formaldehyde, and melamine foam has heat resistance (safe use temperature: -60 ° C to 150 ° C), chemical resistance, solvent resistance Excellent in properties.
[0043]
Further, since the foreign matter removing member should not damage the surface of the intermediate transfer member or impair the releasability of the surface of the intermediate transfer member, the hardness is preferably softer than the surface of the intermediate transfer member. In addition, the foreign matter adhering to the intermediate transfer member is mainly a liquid or solid resin contained in the developer. The foreign substance removing member can efficiently scrape foreign substances when the hardness is higher than the hardness of the resin contained in the developer. The foreign matter removing member scrapes off the foreign matter adhered to the intermediate transfer member, and therefore, a blade 66 or the like as a cleaning member is provided on the downstream side, and the blade 66 may be used for recovery.
[0044]
In addition, in order for the foreign matter removing member to efficiently remove foreign matter, the surface roughness of the foreign matter removing member is preferably rougher than the surface roughness of the intermediate transfer member. Even if foreign matter adheres to or adheres to the concave portion on the surface of the intermediate transfer member, if the surface roughness of the foreign matter removing member is rough, the foreign matter removing member can reach the foreign matter behind the concave portion on the surface of the intermediate transfer member and scrape it off. it can. On the other hand, if the surface roughness of the intermediate transfer member is rough, the foreign matter removing member may not reach the concave portion of the intermediate transfer member, and the foreign matter cannot be removed efficiently.
[0045]
The foreign matter removing member may be operated during image formation as described above. When the foreign matter removing member is operated at the time of image formation, the operation time of the foreign matter removal operation is long, and the foreign matter can always be removed immediately at the time of image formation, so that the sticking can be surely prevented.
[0046]
Further, the foreign matter removing member may be configured to be able to come into contact with and separate from the intermediate transfer member, be separated from the intermediate transfer member during image formation, and be operated by contacting the intermediate transfer member when necessary. For example, the foreign matter removing operation may be performed between image formations at a certain period, for example, every certain number of printed sheets or every certain time. Furthermore, it is possible to grasp in advance the state of adhesion and adhesion of foreign matter and operate according to the state of adhesion and fixation of the foreign matter. For example, when the power of the image forming apparatus is turned on, the operation of rotating the intermediate transfer member and rotating the contacting / separating foreign matter removing member against the intermediate transfer member may be performed for a certain period of time, for example, for 1 minute. Good. Further, when printing thousands of sheets at a time, for example, every 1000 sheets, the image formation may be paused, and the above foreign matter removing operation may be operated for a certain period of time. Alternatively, when continuous printing is performed for several hours at a time, for example, the image formation may be paused every hour, and the above foreign matter removing operation may be operated for a certain period of time. In addition, a sensor for detecting adhesion or adhesion of foreign matter, for example, a device that senses light reflectance, surface friction, and the like may be provided, and the foreign matter removal operation may be performed by sensing the situation.
[0047]
Further, when the foreign matter is removed using the foreign matter removing member, the efficiency may increase if the intermediate transfer member is cooled or warmed. When the foreign material is a resin, the resin often softens or hardens depending on the temperature. Generally, the resin is cured by cooling. Therefore, when only the intermediate transfer member or its surface is cooled, the foreign matter made of resin on the intermediate transfer member is hardened and becomes powdery or flakey, which can be easily scraped off from the intermediate transfer member. Therefore, for those exhibiting such characteristics, the removal efficiency of the foreign matter is improved by cooling the intermediate transfer member or its surface.
[0048]
Examples of the cooling means for the intermediate transfer member include air cooling using an air flow, liquid cooling for circulating a cooled liquid in a pipe, and a heat pipe. The case where a heat pipe with good thermal conductivity is used will be described. The heat pipe is lined with a wick-like capillary substance, and is a metal sealed tube in which a small amount of working fluid is put in a partial vacuum. In the heat pipe, heat is absorbed from one end by evaporation of the working fluid and released at the other end by vapor aggregation. For example, ethyl alcohol is used as the working fluid for the heat pipe. A heat pipe as a cooling means is provided outside the intermediate transfer member so as to be driven and rotated by the intermediate transfer member. The surface of the intermediate transfer member is cooled by contact heat transfer between the heat pipe roller and the intermediate transfer member. The cooling means may be provided inside the intermediate transfer member.
[0049]
In general, the resin softens when warmed. Even if it adheres on the intermediate transfer body and is difficult to remove even if the foreign matter removal member has roughness or hardness, the intermediate transfer member or its surface alone is warmed to soften the resin, and the foreign matter removal member becomes a resin. Can be scraped off. Therefore, for those exhibiting such characteristics, the removal efficiency of the foreign matter is improved by heating the intermediate transfer member or its surface.
[0050]
As a means for heating the intermediate transfer member, a heat roller having a heat source therein is contacted and rotated on the surface of the intermediate transfer member, heated by a non-contact heating source heat source by radiant heat transfer, or a heat belt in contact with the heat source. For example, a method of abutting and rotating the intermediate transfer member with a sufficient nip may be used. FIG. 4 shows an example using a non-contact heating source heat source by radiant heat transfer. In this method, the surface of the intermediate transfer roller 56 is heated in a non-contact manner by a halogen lamp 71 having a reflecting plate 72.
[0051]
FIG. 5 shows an example in which a nonwoven fabric 62 is used as the foreign matter removing member.
The nonwoven fabric 62 is driven to move in the direction opposite to the surface movement direction of the intermediate transfer roller 56. Thereby, in the contact part of the nonwoven fabric 62 and the intermediate transfer roller 56, the nonwoven fabric 62 rubs the intermediate transfer roller 56, and capture | acquires foreign materials, such as paper dust and resin which adhered and fixed efficiently and reliably. In this embodiment, the nonwoven fabric 62 used what was integrated by the entanglement of the constituent fibers. This is because it is preferable to use a constituent fiber having a high degree of freedom in order to supplement fine paper powder between the fibers. The material of the nonwoven fabric 62 was selected so that even if the surface of the intermediate transfer roller 56 was rubbed with the nonwoven fabric 62, the surface of the intermediate transfer roller 56 was not damaged. Since the non-woven fabric 62 can be easily changed in shape, it can easily follow the surface of the intermediate transfer roller 56, and the fine unevenness caused by the entanglement of the fibers is effective for scraping off the foreign matter adhering and adhering along the surface unevenness of the intermediate transfer roller 56. It is.
[0052]
FIG. 6 shows an example in which the brush roller 63 is used as the foreign matter removing member. The brush roller 63 can exhibit a scraping effect both in the direction of rotation of the surface of the intermediate transfer roller 56 (same as the direction of rotation of the roller) or in the same direction (reverse of the direction of rotation of the roller). The direction opposite to the direction of surface movement is more efficient because of the larger linear velocity difference.
[0053]
FIG. 7 shows an example in which a metal blade 64 is used as a foreign matter removing member. The counter direction of the metal blade 64 is efficient with respect to the rotation direction of the intermediate transfer roller 56. With rubber blades, the thickness is also relatively large, and it is difficult to scrape off foreign substances such as hard and fixed resin. However, since the metal blade 64 can be made thin, it is convenient for scraping off the sticking foreign matters, and the metal blade 64 scrapes off the sticking matter that cannot be scraped off by various rubber blades.
[0054]
Another example of the intermediate transfer member foreign matter removing means is one that injects high temperature steam (high temperature steam) onto the intermediate transfer member. FIG. 8 shows an example of the intermediate transfer member foreign matter removing means using high-temperature steam. In this means, as shown in FIG. 8, a device 65 for ejecting high-temperature steam from the jet nozzle toward the surface of the intermediate transfer roller 56 is provided. By spraying the high-temperature steam onto the surface of the intermediate transfer roller 56, the foreign matter attached and fixed to the surface of the intermediate transfer roller 56 is floated using high-temperature steam and its pressure. The temperature of the high temperature steam is 80 to 100 ° C. Moreover, when steam is passed through such a narrow jet nozzle, it is ejected vigorously.
[0055]
Further, it is more effective to use a solvent capable of dissolving the adhered / fixed foreign matter before or at the same time as the foreign matter removing means as described above. As the solvent, a solvent having higher solubility is advantageous in that the material on the surface of the intermediate transfer member is not dissolved. For example, decane, pentane, hexane, heptane and the like may be used depending on the surface material of the intermediate transfer member. These may be applied to the surface of the intermediate transfer member before or at the same time as the foreign matter removing means to dissolve the foreign matter and to reduce scraping.
[0056]
Furthermore, a collecting means may be required for the foreign matter scraped or floated by the solvent or foreign matter removing means. Therefore, it is preferable to provide a cleaning blade 66 downstream of the foreign matter removing means and collect the scraped foreign matter. The cleaning blade 66 may also serve as a cleaning unit for cleaning the secondary transfer residual toner during image formation.
[0057]
Further, the number of foreign matter removing means is not limited to one, but two or more may be used in combination. The device is complicated but can be removed more reliably.
[0058]
As described above, according to the image forming apparatus of the present embodiment, in the image forming apparatus using the liquid developer, adhesion of foreign matters on the intermediate transfer member is prevented, and good transfer performance is maintained over a long period of time. High-quality images can be obtained.
Examples of the intermediate transfer member foreign matter removing means include those using a foam roller 61. The foam roller 61 rubs the surface of the intermediate transfer member to scrape and remove foreign matters on the intermediate transfer member. Further, since the foam roller 61 is easily deformed, the foreign matter adhering along the unevenness on the surface of the intermediate transfer member can be scraped out. Therefore, foreign matters can be efficiently removed.
Moreover, the thing using the nonwoven fabric 62 as an intermediate transfer body foreign material removal means is mentioned. The surface of the intermediate transfer member is rubbed with the non-woven fabric 62 to scrape and remove foreign matters on the intermediate transfer member. The nonwoven fabric 62 is entangled with fibers, and this fine entanglement is preferable for capturing fine foreign matters between the fibers. Further, since the shape of the non-woven fabric 62 can be easily changed, it is easy to follow the surface of the intermediate transfer member, and is effective in scraping off the foreign matter adhering and adhering along the surface of the intermediate transfer member. Therefore, foreign matters can be efficiently removed.
Further, an intermediate transfer body foreign matter removing means using a brush roller 63 can be used. The brush roller 63 rubs the surface of the intermediate transfer member to scrape and remove foreign matters on the intermediate transfer member. The brush roller 63 can also remove foreign matter adhering along the roughness of the surface of the intermediate transfer member, and is effective in scraping out fine foreign matter with brush fibers. Therefore, foreign matters can be efficiently removed.
Further, an intermediate transfer member foreign matter removing means using a metal blade 64 can be used. The metal blade 64 rubs the surface of the intermediate transfer member to remove foreign matters on the intermediate transfer member. With rubber blades, the thickness is also relatively large, and it is difficult to scrape off foreign substances such as hard and fixed resin. On the other hand, since the metal blade 64 can be made thin, it is convenient for scraping off the sticking foreign matter, and the sticking matter that cannot be scraped off by various rubber blades is scraped off. Therefore, foreign matters can be efficiently removed.
Further, a foreign matter removing member that is softer than the intermediate transfer member surface and harder than the foreign matter is used as the intermediate transfer member foreign matter removing means, and the foreign matter on the intermediate transfer member is scraped and removed by rubbing the intermediate transfer member surface with the foreign matter removing member. . Thereby, foreign matter can be scraped out without damaging the surface of the intermediate transfer member.
Also, as a means for removing foreign matter on the intermediate transfer member, a foreign matter removing member having a surface roughness rougher than that of the surface of the intermediate transfer member is provided, and the foreign matter on the intermediate transfer member is scraped off by rubbing the surface of the intermediate transfer member with this foreign matter removing member. Remove. As a result, even if foreign matter adheres to or adheres to the concave portion on the surface of the intermediate transfer member, if the surface roughness of the foreign matter removing member is rougher, the foreign matter removing member reaches the foreign matter behind the concave portion on the surface of the intermediate transfer member. Can be taken. On the other hand, if the surface roughness of the intermediate transfer member is rough, the foreign matter removing member may not reach the concave portion of the intermediate transfer member, and the foreign matter cannot be removed efficiently.
Further, as the intermediate transfer member foreign matter removing means, there may be mentioned an apparatus 65 for injecting high temperature steam onto the intermediate transfer member. Using the high-temperature steam and its pressure, the foreign matter is lifted and removed by pressure while softening the foreign matter with heat. This can also remove foreign matter adhering along the roughness of the surface of the intermediate transfer member.
Further, in addition to the member for rubbing the surface of the intermediate transfer member, an intermediate transfer member cooling device for cooling the intermediate transfer member or its surface is provided. Among the resins adhering to the intermediate transfer member, there are resins that are cured by cooling and become powdery or flaky, which can be easily scraped off from the intermediate transfer member. Therefore, for those exhibiting such characteristics, the removal efficiency of the foreign matter is improved by cooling the intermediate transfer member or its surface. Further, in addition to the member for rubbing the surface of the intermediate transfer member, an intermediate transfer member heating device for heating the intermediate transfer member or the surface is provided. Among the resins adhering to the intermediate transfer member, there are some resins that are softened by heating and have a reduced viscosity and are easily scraped off. Therefore, for those exhibiting such characteristics, the removal efficiency of the foreign matter is improved by heating the intermediate transfer member or its surface.
In addition, a solvent coating apparatus is provided that dissolves the resin constituting the toner and attaches a solvent that does not dissolve the surface of the intermediate transfer member to the surface of the intermediate transfer member. Dissolving the foreign material makes it easier to scrape and improves the removal efficiency of the foreign material.
Further, a cleaning 66 as a cleaning member is provided downstream of the intermediate transfer member foreign matter removing means. The blade 66 can reliably collect the foreign matter scraped by the intermediate transfer member foreign matter removing means.
In addition, in order to improve the dispersibility of the liquid developer in the carrier liquid of the toner, there is a type in which a dispersant made of a liquid resin is added in a use environment. Since such a resin is liquid, it has high adhesiveness and is easily attached and fixed on the intermediate transfer member. Accordingly, the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing means. As a result, even when a liquid developer containing liquid resin is used in the usage environment, it is possible to prevent foreign matter from adhering to and sticking to the intermediate transfer member.
In addition, foreign matter removal is performed during image formation. This is because the foreign matter removing operation takes a long time and foreign matter can be removed immediately during image formation, so that sticking can be reliably prevented.
In addition, foreign matter removal is performed during non-image formation. Even if there is vibration during the foreign substance removal operation, it does not affect image formation. Moreover, since it carries out intermittently, it becomes energy saving.
In addition, the foreign matter removal is performed every predetermined time or every predetermined number of printed sheets. As a result, it is possible to remove foreign matters that regularly adhere to the surface of the intermediate transfer member.
Further, two or more intermediate transfer member foreign matter removing means are combined. As a result, foreign matter removal is reliably performed.
[0059]
【The invention's effect】
  Claims 1 to9According to the invention, in the image forming apparatus using the liquid developer, it is possible to prevent foreign matter from adhering to the intermediate transfer member, maintain good transfer performance over a long period of time, and obtain a high-quality image. Has an excellent effect.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an image forming apparatus using an intermediate transfer belt according to an embodiment.
FIG. 2 is a schematic configuration diagram of an image forming apparatus using an intermediate transfer roller of the present embodiment.
FIG. 3 is an explanatory diagram illustrating an example of a configuration of an intermediate transfer roller.
FIG. 4 is a schematic configuration diagram using a non-contact heating source heat source by radiant heat transfer as a heating means of the intermediate transfer member.
FIG. 5 is a schematic configuration diagram of an image forming apparatus using a nonwoven fabric as an intermediate transfer body foreign matter removing unit.
FIG. 6 is a schematic configuration diagram of an image forming apparatus using a brush roller as an intermediate transfer member foreign matter removing unit.
FIG. 7 is a schematic configuration diagram of an image forming apparatus using a metal blade as intermediate transfer member foreign matter removing means.
FIG. 8 is a schematic configuration diagram of an image forming apparatus using high-pressure steam as an intermediate transfer member foreign matter removing unit.
[Explanation of symbols]
1 Photoconductor
2 Charging device
3 Exposure equipment
4 Development device
5 Primary transfer device
6 Cleaning device
7 Secondary transfer roller
40 Liquid developer
41 Developer storage tank
42 Development roller
43 Sweep Roller
44 Anilox Roller
45 Gear pump
46 Stirrer roller
47, 48 Cleaning member
49 Doctor blade
50 Intermediate transfer belt
51, 52, 53 Roller
54 Primary transfer roller
55 Primary transfer position
56 Intermediate transfer roller
57 drums
58 Elastic layer
59 Surface layer
60 Intermediate transfer member cleaning blade
61 Foreign matter removal roller
62 Nonwoven fabric
63 Brush roller
64 metal blade
65 High-pressure steam injection device
66 blade
71 Halogen lamp
72 reflector
80 Sweep roller

Claims (9)

An image bearing member for bearing an electrostatic latent image, a developing device using at least a liquid developer including toner and carrier liquid containing a resin and a pigment, to develop the electrostatic latent image on the image bearing member, said image In an image forming apparatus comprising: a primary transfer device that transfers an image on a carrier onto an intermediate transfer member; and a secondary transfer device that transfers an image on the intermediate transfer member to a transfer material.
An image forming apparatus comprising an intermediate transfer member foreign matter removing means for injecting high temperature steam onto the intermediate transfer member . The image forming apparatus 請 Motomeko 1, the intermediate transfer member foreign matter removing means dissolving the resin constituting the toner, a solvent coating device to deposit a solvent which does not dissolve the surface of the intermediate transfer body to the intermediate transfer member surface An image forming apparatus comprising the image forming apparatus. 3. The image forming apparatus according to claim 1, further comprising a cleaning member downstream of the intermediate transfer member foreign matter removing means with respect to the rotation direction of the intermediate transfer member. 4. The image forming apparatus according to claim 1, wherein the liquid developer contains a liquid resin in a use environment. 5. The image forming apparatus according to claim 1, wherein the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing unit during image formation. 6. The image forming apparatus as claimed in claim 1, wherein the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing means except during image formation. 7. The image forming apparatus according to claim 6 , wherein the foreign matter on the intermediate transfer member is removed at regular intervals by the intermediate transfer member foreign matter removing means. 7. The image forming apparatus according to claim 6 , wherein the foreign matter on the intermediate transfer member is removed by the intermediate transfer member foreign matter removing means for every predetermined number of prints. 2. The image forming apparatus according to claim 1, wherein a plurality of intermediate transfer member foreign matter removing means are used in combination .

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