JP4203785B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an image forming apparatus such as a laser printer.
[0002]
[Prior art]
  In general, an image forming apparatus such as a laser printer includes a paper feed mechanism such as a paper feed cassette in which sheets are stacked in a stacked manner, and an image forming mechanism for forming an image on the fed sheets.
[0003]
  The paper feed mechanism usually includes a paper feed tray on which paper is placed, and a paper feed roller and a paper feed pad that are provided above one end of the paper feed tray and are arranged to face each other. The sheet on the sheet feeding tray is fed one by one by being sandwiched between the sheet feeding roller and the sheet feeding pad by the rotation of the sheet feeding roller.
[0004]
  In addition, the image forming mechanism includes a photosensitive drum, and a charger, a scanner device, a developing roller, and a transfer roller around the photosensitive drum in order according to the rotation direction of the photosensitive drum. As the photosensitive drum rotates, the surface of the photosensitive drum is first uniformly charged by a charger, then exposed by high-speed scanning of a laser beam from a scanner device, and electrostatically based on predetermined image data. A latent image is formed, and then the toner carried on the developing roller is supplied to the electrostatic latent image formed on the surface of the photosensitive drum and selectively carried by the rotation of the developing roller. As a result, a visible image is formed. Then, the visible image carried on the surface of the photosensitive drum is transferred to the sheet while the sheet fed from the sheet feeding mechanism passes between the photosensitive drum and the transfer roller. The image is formed.
[0005]
  In such an image forming apparatus, the paper is fed one by one while being sandwiched between the paper feed roller and the paper feed pad, so that paper dust is generated on the paper due to rubbing between the paper feed pad and the like. If such paper dust is mixed in the toner in the image forming mechanism, the image quality is degraded.
[0006]
  Therefore, for example, in order to remove paper dust from the paper fed from the paper feed mechanism, there is known one in which a plurality of paper dust removing rollers are provided in the paper feed path.
[0007]
[Problems to be solved by the invention]
  However, in the case where such a plurality of paper dust removing rollers are provided, the paper dust removed by each paper dust removing roller is conveyed and stored for each paper dust removing roller. Since a transport mechanism and a storage space are required for each roller, the configuration of the apparatus is complicated and the number of parts is increased, and an increase in the size of the apparatus is unavoidable.
[0008]
  Therefore, the present invention has been made in view of such circumstances, and an object of the present invention is to be able to perform good paper dust removal by a plurality of paper dust removing means and to simplify the apparatus configuration. An object of the present invention is to provide an image forming apparatus that can reduce the number of parts, reduce the number of parts, and reduce the size of the apparatus.
[0009]
[Means for Solving the Problems]
  In order to achieve the above object, the invention according to claim 1 is a paper dust removing means for removing paper dust from a recording medium supplied to an image forming means, and a paper dust removed by the paper dust removing means. In the image forming apparatus including a paper dust storage unit for storing the paper dust, a plurality of the paper dust removing units are provided in a supply conveyance path for supplying a recording medium to the image forming unit. The unit is configured to collectively store paper dusts respectively removed by the plurality of paper dust removing means.A paper dust conveying means for conveying the paper dust removed by each of the paper dust removing means toward the paper dust storing section.An image forming apparatus comprising:Is.
[0010]
  According to such a configuration, each paper dust removed by the plurality of paper dust removing means is stored in a lump in the paper dust storing unit, so there is no need to store for each paper dust removing means, and the device configuration Can be simplified, the number of parts can be reduced, and the size of the apparatus can be reduced.
  In addition, each paper dust removed by the plurality of paper dust removing means is conveyed toward the paper dust storing part by the paper dust conveying means. Therefore, paper dust removed for each paper dust removing means can be transported and stored in a lump with a simple configuration, further simplifying the device configuration, reducing the number of parts, and reducing the size of the device. Can be achieved.
[0011]
  The invention according to claim 2In an image forming apparatus comprising a paper dust removing unit for removing paper dust from a recording medium supplied to an image forming unit, and a paper dust storing unit for storing the paper dust removed by the paper dust removing unit The paper dust removing means is provided in a plurality of supply conveyance paths for supplying a recording medium to the image forming means, and the paper dust storing section is the paper removed by the plurality of paper dust removing means, respectively. It is comprised so that powder may be stored in a lump, and the paper dust storage part is provided below each paper dust removal means, and is removed by its own weight after being removed by each paper dust removal means. A falling guide path for storing the falling paper dust and guiding the paper dust falling by its own weight after being removed by each of the paper dust removing means is provided, and the supply conveyance path is a guide for guiding the recording medium Equipped with a plate And the drop guide passage is characterized by being composed by the rear side of the guide plate, is an image forming apparatus.
[0012]
  According to such a configuration, each paper dust removed by the plurality of paper dust removing means is stored in a lump in the paper dust storing unit, so there is no need to store for each paper dust removing means, and the device configuration Can be simplified, the number of parts can be reduced, and the size of the apparatus can be reduced.
  AlsoEach paper dust removed by the plurality of paper dust removing means falls by its own weight and is stored in a batch in the paper dust storage unit. Therefore, with a simple configuration, the paper dust removed for each paper dust removing means can be collectively stored in the paper dust storage unit.
[0013]
  AlsoEach of the paper dusts removed by the plurality of paper dust removing means is guided by dropping by its own weight in the dropping guide passage, and is stored in a batch in the paper dust storing unit. Therefore, the paper dust removed for each paper dust removing means can be guided by a simple configuration and stored together in the paper dust storage unit.
[0014]
  AlsoSince the drop guide path is configured using the back surface of the guide plate of the supply conveyance path, the apparatus configuration can be further simplified, the number of parts can be reduced, and the apparatus can be downsized.
[0015]
  Claims3The invention described in claim2In the invention described in (1), the guide plate includes an extending portion that covers at least the upper portion of the paper dust removing means disposed below.
[0016]
  According to such a configuration, even if the paper dust removed by the paper dust removing means arranged above the paper dust removing means arranged below is dropped, the extension part lowers the paper dust removed by the extending portion. It is possible to effectively prevent the paper dust from falling on the paper dust removing means disposed on the. Therefore, a good paper dust removing operation of each paper dust removing means arranged below can be secured over a long period of time.
[0017]
  Claims4The invention described in claim 1 to claim 13In each of the inventions, each of the paper dust removing means is a paper dust removing member that contacts the recording medium to remove the paper dust, and the paper dust removing member is opposed to the paper dust removing member. A scraping member for scraping off the adhering paper dust is provided.
[0018]
  According to such a configuration, in each paper dust removing means, first, the paper dust removing member comes into contact with the recording medium to remove the paper dust on the recording medium, and then the paper adhered to the paper dust removing member. Powder is scraped off by the scraping member. As a result, the paper dust removing performance of the paper dust removing member is maintained, so that each paper dust removing means can achieve good paper dust removal over a long period of time.
[0019]
  Claims5The invention described in claim4In each of the paper dust removing means, the paper dust removing member is configured to be movable in the same direction as the recording medium conveyance direction at a portion facing the supply conveyance path, and the scraping member. The member is configured to scrape the paper dust on the lower side opposite to the supply conveyance path with respect to the paper dust removing member.
[0020]
  According to such a configuration, the paper dust removing member first contacts with the recording medium along with its movement, and after removing the paper dust on the recording medium, the paper dust attached to the paper dust removing member is then removed. The paper dust removing member is scraped off by the scraping member on the lower side opposite to the supply conveyance path. As a result, since the paper dust scraped off by the scraping member stays in the lower part on the opposite side of the supply conveyance path and falls, it effectively prevents the scraped paper powder from entering the supply conveyance path. However, the paper dust removed by each paper dust removing means can be stored in a lump.
[0021]
  Claims6The invention described in claim4 or 5The plurality of paper dust removing means are arranged in the vertical direction on one side of the supply conveyance path through which the recording medium is supplied.
[0022]
  According to such a configuration, since the plurality of paper dust removing means are arranged in the vertical direction on one side of the supply conveyance path, the paper dust that is removed by each paper dust removing means and falls by its own weight is directly in one place. It can be collected and can be collectively stored with a simpler configuration.
[0023]
  Claims7The invention described in claim4Or6In the invention according to any one of the above, a supply unit that includes a separation pad and a supply roller to supply a recording medium to the supply and conveyance path, and a front and back side of the recording medium on which one image is formed by the image forming unit A re-conveying path for reversing and conveying the recording medium again toward the image forming unit, and a downstream end of the re-conveying path is connected in the middle of the supply conveying path, A first paper dust removing unit is provided on the upstream side in the conveyance direction of the recording medium from the connection part of the re-conveyance path in the supply conveyance path, and further downstream in the conveyance direction of the recording medium than the connection part. The paper dust removing member of the first paper dust removing means is at least a separation pad in a direction orthogonal to the recording medium conveyance direction in the separation pad. The paper dust removing member of the second paper dust removing means has at least a width wider than the recording medium width in the direction orthogonal to the recording medium conveyance direction. It is said.
[0024]
  According to such a configuration, the recording medium supplied by the supply unit is first removed after the paper dust removing member of the first paper dust removing unit removes at least a portion of the paper dust corresponding to the separation pad width. The paper dust of the portion corresponding to the recording medium width is removed by the paper dust removing member of the two paper dust removing means. Therefore, a larger amount of paper dust generated by rubbing with the separation pad is removed by the first paper dust removing means and the second paper dust removing means and at the time of cutting the recording medium originally. A smaller amount of paper dust generated throughout is removed by the second paper dust removing means. Therefore, the paper dust generated by rubbing with the separation pad and the originally generated paper dust can be removed in a balanced manner, and uniform paper dust removal with little unevenness of removal can be achieved.
[0025]
  On the other hand, the recording medium re-conveyed by the re-conveying means does not remove the paper dust by the first paper dust removing means. However, since the front and back are reversed, only the second paper dust removing means is used. With removal, efficient paper dust removal can be achieved. Therefore, by the first paper dust removing unit and the second paper dust removing unit, it is possible to efficiently achieve the appropriate removal of the paper dust according to the adhesion state of the paper dust.
[0026]
  Claims8The invention described in claim 1 to claim 17In the invention described in any one of the above, the image forming unit is configured by an electrophotographic system in which an image is formed by transferring a visible image formed by developing an electrostatic latent image onto a recording medium. It is characterized by having.
[0027]
  In an electrophotographic system that develops an electrostatic latent image to form a visible image and transfers it to a recording medium, if there is paper dust on the recording medium, the paper dust is transferred into the image forming means during transfer. It is particularly necessary to remove the paper dust on the recording medium because it is mixed, but according to such a configuration, the paper dust on the recording medium can be efficiently removed by a plurality of paper dust removing means. Therefore, good image formation can be reliably achieved by the electrophotographic method.
[0028]
  Claims9The invention described in claim8The image forming means includes a photoreceptor on which an electrostatic latent image is formed and a developing means for supplying a developer, and a non-magnetic one-component developer is used as the developer. It is characterized in that cleaner-less development is performed in which the developer remaining on the photoconductor after transfer is collected by a developing means.
[0029]
  In the electrophotographic system, if cleaner-less development is performed using a non-magnetic one-component developer, a special member and a reservoir for removing the developer remaining on the photoconductor after transfer are not required, and the apparatus The configuration can be simplified. However, in cleaner-less development, the developer remaining on the photosensitive member after transfer is recovered by the developing means, so when paper dust from the recording medium adheres to the photosensitive member during transfer, the paper dust is recovered. A problem arises that the image quality is directly affected by the developer mixed with the developer.
[0030]
  However, according to such a configuration, since the paper dust on the recording medium can be efficiently removed by the plurality of paper dust removing means, a good image can be obtained while the developer is easily recovered by cleanerless development. Formation can be reliably achieved.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
  FIG. 1 is a side sectional view of an essential part showing an embodiment of a laser printer as an image forming apparatus of the present invention. In FIG. 1, the laser printer 1 is configured as a laser printer that forms an image by an electrophotographic method. In a main body casing 2, a feeder unit 4 for feeding a sheet 3 as a recording medium, An image forming unit 5 is provided as image forming means for forming a predetermined image on the paper 3 that has been printed.
[0032]
  The feeder unit 4 includes a paper feed tray 6 that is detachably attached to the bottom of the main body casing 2, a paper feed mechanism unit 7 as a supply unit provided at one end of the paper feed tray 6, The sheet pressing plate 8 provided in the tray 6 and the sheet feeding mechanism unit 7 in the downstream direction in the transport direction of the sheet 3 (hereinafter, the upstream side or the downstream side in the transport direction of the sheet 3 is simply referred to as the upstream side or the downstream side). The first transport unit 9 as a paper dust removing unit (first paper dust removing unit), which will be described later, and the second transport unit 10 as a paper dust removing unit (second paper dust removing unit). And a registration roller 11 provided on the downstream side in the conveyance direction of the sheet 3 with respect to the first conveyance unit 9 and the second conveyance unit 10.
[0033]
  The paper feed tray 6 has a box shape with an open upper surface that can accommodate the paper 3, and is detachable in the horizontal direction with respect to the bottom of the main casing 2.
[0034]
  The paper feed mechanism unit 7 includes a paper feed roller 12 as a supply roller and a separation pad 13 that faces the paper feed roller 12. As shown in FIG. 2, the separation pad 13 includes a support frame 13a, a pad member 13b, and a spring 13c.
[0035]
  The support frame 13a includes a flat plate-like member that is opposed to the lower side of the paper feed roller 12, and a support member that is bent downward from one side end of the flat plate member in a substantially orthogonal direction. The lower end portion of the support member is supported so as to be swingable. A pad member 13b is embedded in the surface of the flat plate member facing the paper feed roller 12, and a spring 13c is disposed on the back side thereof, and the pad member 13b is pressed against the paper feed roller 12 by the spring 13c. It is energized to
[0036]
  As shown in FIG. 3, the pad member 13b has a substantially rectangular plate shape, is made of an elastic member such as urethane rubber, and has a width B (hereinafter referred to as the sheet 3) of the pad member 13b in a direction perpendicular to the conveyance direction of the sheet 3. The width in the direction orthogonal to the transport direction may be simply referred to as a width.) Is formed narrower than the width A of the paper 3 (the maximum width of the paper 3 that can be printed by the laser printer 1). That is, the pad member 13b is formed as a width that contacts only the central portion in the width direction of the paper 3 for paper feeding.
[0037]
  As shown in FIG. 1, the paper pressing plate 8 can stack the papers 3 in a laminated form, and is supported so as to be swingable at an end portion far from the paper feeding roller 12, so The end is movable in the vertical direction, and is biased upward by a spring (not shown) from the back side. Therefore, the sheet pressing plate 8 is swung downward against the biasing force of the spring, with the end portion farther from the sheet feeding mechanism unit 7 as a fulcrum as the amount of stacked sheets 3 increases. The uppermost sheet 3 on the sheet pressing plate 8 is pressed toward the sheet feeding roller 12 by a spring (not shown) from the back side of the sheet pressing plate 8, and the sheet feeding roller 12 is rotated by the rotation of the sheet feeding roller 12. After being sandwiched between the pad members 13b, they are separated and fed one by one by their cooperation. The fed paper 3 is fed in a paper feed transport path 38 as a paper feed and transport path between the paper feed mechanism section 7 and the image forming section 5. The first transport section 9 and the second transport section 10 described later. Is sent to the registration roller 11. The registration roller 11 is composed of a pair of rollers, and sends the paper 3 to the image forming unit 5 after a predetermined registration.
[0038]
  The image forming unit 5 includes a scanner unit 17, a process unit 18, a fixing unit 19, and the like.
[0039]
  The scanner unit 17 is provided at an upper portion in the main body casing 2 and includes a laser light emitting unit (not shown), a polygon mirror 20 that is driven to rotate, lenses 21a and 21b, a reflecting mirror 22, and the like. As shown by the chain line, the laser beam based on the predetermined image data emitted from is passed or reflected in the order of the polygon mirror 20, the lens 21a, the reflecting mirror 22, and the lens 21b, and the photosensitive drum of the process unit 18 to be described later. The surface 23 is irradiated with high-speed scanning.
[0040]
  The process unit 18 is disposed below the scanner unit 17 and is configured to be detachably attached to the main body casing 2. The process unit 18 includes a photosensitive drum 23 as a photosensitive member, a developing cartridge 24, a transfer roller 25, and a scorotron charger 37. The developing cartridge 24 is detachably attached to the process unit 18 and includes a toner storage unit 26, a developing roller 27 as a developing unit, a layer thickness regulating blade 28, a toner supply roller 29, and the like.
[0041]
  The toner storage unit 26 is filled with a positively charged non-magnetic single-component polymerized toner as a developer, and the toner is supplied to the developing roller 27 by the toner supply roller 29. Further, the layer thickness regulating blade 28 is carried on the developing roller 27 as a thin layer having a constant thickness. On the other hand, the photosensitive drum 23 is rotatably disposed opposite to the developing roller 27, the drum body is grounded, and the surface thereof is formed by a positively chargeable photosensitive layer made of polycarbonate or the like. Yes.
[0042]
  The surface of the photosensitive drum 23 is uniformly positively charged by the scorotron charger 37 as the photosensitive drum 23 rotates in the arrow direction, and then exposed by high-speed scanning of the laser beam from the scanner unit 17. Then, an electrostatic latent image based on predetermined image data is formed, and then, when opposed to the developing roller 27, toner that is carried on the developing roller 27 and positively charged is formed on the surface of the photosensitive drum 23. The electrostatic latent image to be generated, that is, the surface of the uniformly positively charged surface of the photosensitive drum 23 which is exposed to the laser beam and lowered in potential, is selectively carried and is visible. Imaged, thereby achieving reversal development.
[0043]
  The transfer roller 25 is disposed below the photosensitive drum 23 so as to face the photosensitive drum 23. In the transfer roller 25, a metal roller shaft is covered with a roller made of a conductive rubber material, and a predetermined transfer bias is applied to the photosensitive drum 23. Therefore, the visible image carried on the photosensitive drum 23 is transferred to the sheet 3 while the sheet 3 passes between the photosensitive drum 23 and the transfer roller 25. The sheet 3 on which the visible image is transferred is conveyed to the fixing unit 19 via the conveyance belt 30.
[0044]
  The fixing unit 19 is disposed on the downstream side of the process unit 18, and includes a heating roller 31, a pressing roller 32 that presses the heating roller 31, and a conveyance roller that is provided on the downstream side of the heating roller 31 and the pressing roller 32. 33 is provided.
[0045]
  The heating roller 31 is made of a metal and has a halogen lamp for heating, and the toner transferred onto the paper 3 in the process unit 18 is passed while the paper 3 passes between the heating roller 31 and the pressing roller 32. Then, the sheet 3 is conveyed to a conveyance roller 34 and a paper discharge roller 35 provided in the main body casing 2 by a conveyance roller 33 of the fixing unit 19. Thereafter, the sheet 3 sent to the conveying roller 34 is discharged onto a discharge tray 36 by a discharge roller 35.
[0046]
  In the laser printer 1, the residual toner remaining on the surface of the photosensitive drum 23 after being transferred to the sheet 3 by the transfer roller 25 is recovered by the developing roller 27, and the residual toner is recovered by a so-called cleanerless developing system. Yes. If the remaining toner is collected by such a cleaner-less developing method, a special member for removing the remaining toner such as a blade and a waste toner storage part are not required, and the apparatus configuration can be simplified.
[0047]
  Further, the laser printer 1 includes a re-conveying unit 41 for forming images on both sides of the paper 3. In this re-conveying unit 41, a reversing mechanism portion 42 and a re-conveying tray 43 are integrally formed, and the reversing mechanism portion 42 is externally attached from the rear side of the main body casing 2, and the re-conveying tray 43 is In a state where it is inserted above the feeder unit 4, it is detachably mounted.
[0048]
  The reversing mechanism portion 42 is externally attached to the rear wall of the main body casing 2, and includes a flapper 45, a reversing roller 46 and a re-conveying roller 47 in a casing 44 having a substantially rectangular cross section. It protrudes upward.
[0049]
  The flapper 45 is rotatably supported at the rear part of the main casing 2 and is arranged in the vicinity of the downstream side of the transport roller 33. An image is formed on one surface by excitation or non-excitation of a solenoid (not shown). The sheet 3 conveyed by the roller 33 swings so as to be selectively switched between a direction toward the conveyance roller 34 (solid line state) and a direction toward a reverse roller 46 (virtual line state) described later. It is possible.
[0050]
  The reversing roller 46 is arranged on the downstream side of the flapper 45 and on the upper portion of the casing 44, and is composed of a pair of rollers so that the rotation can be switched between the forward direction and the reverse direction. The reversing roller 46 is configured to first rotate in the forward direction and transport the sheet 3 toward the reversing guide plate 48, and then rotate in the reverse direction to transport the sheet 3 in the reversing direction. .
[0051]
  The re-conveying roller 47 is arranged on the downstream side of the reversing roller 46 and almost directly below the reversing roller 46 in the casing 44. The re-conveying roller 47 is composed of a pair of rollers. 43 so that it can be conveyed to 43.
[0052]
  The reverse guide plate 48 is a plate-like member that extends further upward from the upper end of the casing 44, and is configured to guide the paper 3 fed by the reverse roller 46.
[0053]
  When images are formed on both sides of the sheet 3, the reversing mechanism unit 42 first switches the flapper 45 in a direction in which the sheet 3 is directed to the reversing roller 46. A sheet 3 on which an image is formed is received. Thereafter, when the received sheet 3 is sent to the reversing roller 46, the reversing roller 46 rotates forward with the sheet 3 being sandwiched, and the sheet 3 is temporarily moved outside along the reversing guide plate 48. When the paper 3 is conveyed upward, most of the paper 3 is sent to the upper outer side, and the rear end of the paper 3 is sandwiched between the reversing rollers 46, the forward rotation is stopped. Next, the reverse roller 46 rotates in the reverse direction and conveys the paper 3 to the re-conveying roller 47 so as to be directed almost directly below in the reverse direction. The reverse rotation of the reversing roller 46 from the forward rotation is performed when a predetermined time elapses from when the paper passage sensor 56 provided on the downstream side of the fixing unit 19 detects the rear end of the paper 3. It is controlled. Further, when the conveyance of the sheet 3 to the reverse roller 46 is completed, the flapper 45 is switched to the original state, that is, the state in which the sheet 3 sent from the conveyance roller 33 is sent to the conveyance roller 34.
[0054]
  Next, the sheet 3 conveyed in the reverse direction to the reconveying roller 47 is conveyed by the reconveying roller 47 to the reconveying tray 43 described below.
[0055]
  The re-transport tray 43 includes a paper supply unit 49 to which the paper 3 is supplied, a tray main body 50, and a skew roller 51.
[0056]
  The paper supply unit 49 is externally attached to the rear part of the main casing 2 below the reversing mechanism unit 42 and includes a curved paper guide member 52. In the sheet supply unit 49, the sheet 3 fed in the substantially vertical direction from the re-conveying roller 47 of the reversing mechanism unit 42 is guided in the substantially horizontal direction by the sheet guide member 52 and directed toward the tray body 50. Sending out in a substantially horizontal direction.
[0057]
  The tray main body 50 has a substantially rectangular plate shape, and is provided in a substantially horizontal direction above the paper feed tray 6, and its upstream end is connected to the paper guide member 52 and its downstream end In order to guide the sheet 3 from the tray main body 50 to the second transport unit 10, the downstream end portion thereof is connected to a re-transport path 53 connected in the middle of the paper feed transport path 38.
[0058]
  Further, in the middle of the conveyance direction of the sheet 3 of the tray main body 50, a skew roller 51 for conveying the sheet 3 while being in contact with a reference plate (not shown) is spaced at a predetermined interval in the conveyance direction of the sheet 3. Two are arranged.
[0059]
  Each skew roller 51 is disposed in the vicinity of a reference plate (not shown) provided at one end in the width direction of the tray main body 50, and the skew drive roller 54 disposed in a direction substantially orthogonal to the conveyance direction of the paper 3. And the skew driving roller 54 across the sheet 3 and the axis thereof is arranged in a direction in which the feeding direction of the sheet 3 is inclined from the direction substantially perpendicular to the conveyance direction of the sheet 3 toward the reference plane. The skew follower roller 55 is provided.
[0060]
  Then, the sheet 3 sent out from the sheet supply unit 49 to the tray body 50 is again returned via the re-conveying path 53 while the one edge in the width direction of the sheet 3 is in contact with the reference plate by the skew roller 51. Then, the paper is conveyed toward the image forming unit 5 with the front and back sides reversed. Then, the sheet 3 conveyed to the image forming unit 5 is in a state in which the back surface thereof is in contact with the photosensitive drum 23 and the visible image is transferred and then fixed in the fixing unit 19 and images are formed on both sides. Thus, the paper is discharged onto the paper discharge tray 36.
[0061]
  In the laser printer 1, as shown in FIG. 2, paper dust originally generated on the entire sheet 3 when cutting the sheet 3, and the pad member 13 b of the sheet feeding mechanism unit 7 and the sheet feed The paper dust generated on the surface of the paper 3 due to rubbing with the roller 12 is configured to be removed in a balanced manner by the first transport unit 9 and the second transport unit 10 disposed in the paper feed transport path 38. Yes.
[0062]
  The first transport unit 9 is downstream in the transport direction of the paper 3 with respect to the paper feed roller 12 of the paper feed mechanism unit 7 on the front side of the paper feed transport path 38, and is re-transported in the paper feed transport path 38. A first conveyance roller 9 a that conveys the paper 3 and a paper feed conveyance path 38 that are disposed at a predetermined interval from the paper feed roller 12 on the upstream side of the connection portion with the downstream end of the path 53. A first paper dust removing roller 9b as a paper dust removing member disposed opposite to the first conveying roller 9a, and a first scraping member as a scraping member disposed below the first paper dust removing roller 9b. And a sponge member 9c.
[0063]
  The first conveying roller 9a faces the paper feeding / conveying path 38 from the inside, and a metal roller shaft 9d is covered with a rubber roller 9e. When power from a motor (not shown) is transmitted, the direction of the arrow ( It is configured to be driven to rotate in the clockwise direction in FIG.
[0064]
  The first paper dust removing roller 9b faces the paper feeding / conveying path 38 from the outside, and the surface of the metal roller shaft 9f, such as a roller made of fluorine resin or a roller coated with fluorine, is easily charged on the surface. The roller 9g made of is covered. As shown in FIG. 3, the first paper dust removing roller 9 b is a pad member on the surface (image forming surface in contact with the photosensitive drum 23) of the paper 3 fed by the paper feed roller 12 in contact with the pad member 13 b. 13b is arranged at a substantially central portion with respect to the first transport roller 9a that overlaps the separation pad 13 in the transport direction of the paper 3 so as to come into contact with the contact portion of the paper 3b, and the width of the roller 9g is the second paper dust described later. The take-up roller 10b is formed to be narrower than the width of the roller 10g and slightly wider than the width B of the pad member 13b.
[0065]
  The first paper dust removing roller 9b is driven by the first conveying roller 9a in the direction indicated by the arrow, that is, in the same direction as the conveying direction of the paper 3 in the portion facing the paper feeding / conveying path 38 (counterclockwise in FIG. 1). ), And the paper 3 is conveyed while the paper 3 is sandwiched between the first conveying roller 9a and the first paper dust removing roller 9b while removing the paper dust of the paper 3.
[0066]
  As shown in FIG. 2, the first sponge member 9c is made of a material that easily charges the first paper dust removing roller 9b, such as urethane foam, and is opposite to the paper feeding / conveying path 38 with respect to the first paper dust removing roller 9b. The first paper dust removing roller 9b is arranged so as to be pressed against the first paper dust removing roller 9b below the first paper dust removing roller 9b so that the paper dust can be scraped off on the lower side. The surface of the roller 9g of the first paper dust removing roller 9b is frictionally charged by scraping the paper dust adhering to the first paper dust removing roller 9b. Moreover, as shown in FIG. 3, the width | variety is formed a little wider than the width | variety of the roller 9g of the 1st paper dust removal roller 9b.
[0067]
  As shown in FIG. 2, the second transport unit 10 is on the downstream side in the transport direction of the paper 3 with respect to the first transport unit 9 above the first transport unit 9 on the front side of the paper feed transport path 38. The second conveyance roller 10a that conveys the paper 3 and the paper feed conveyance path 38 are disposed nearer to the downstream side than the connection portion of the paper conveyance path 38 to the downstream end of the re-conveyance path 53. A second paper dust removing roller 10b as a paper dust removing member disposed opposite to the second conveying roller 10a and a second sponge as a scraping member disposed opposite to the second paper dust removing roller 10b. And a member 10c.
[0068]
  The second conveying roller 10a faces the paper feeding / conveying path 38 from the inside, the rubber roller 10e is covered on the metal roller shaft 10d, and the direction of the arrow ( It is configured to be driven to rotate in the clockwise direction in FIG.
[0069]
  The second paper dust removing roller 10b faces the paper feeding / conveying path 38 from the outside, and the surface of the metal roller shaft 10f, such as a roller made of fluorine resin or a roller coated with fluorine, is easily charged on the surface. A made roller 10g is covered. As shown in FIG. 3, the second paper dust removing roller 10 b has an entire surface of the sheet 3 fed by the sheet feeding roller 12 in contact with the pad member 13 b (image forming surface in contact with the photosensitive drum 23). The width of the roller 10 g is formed to be slightly wider than the width A of the paper 3 so as to come into contact.
[0070]
  As shown in FIG. 3, the power from a motor (not shown) is input to the second paper dust removing roller 10b from an input gear 10h provided at one end of the roller shaft 10f of the second paper dust removing roller 10b. Accordingly, the paper 3 is configured to be driven to rotate in the direction indicated by the arrow, that is, in the portion facing the paper feed conveyance path 38 in the same direction as the conveyance direction of the paper 3 (counterclockwise in FIG. 1). The paper 3 is transported with the paper 3 sandwiched between the second transport roller 10a and the second paper dust removing roller 10b.
[0071]
  The second sponge member 10c is made of a member that easily charges the second paper dust removing roller 10b, such as urethane foam, and scrapes the paper dust on the lower side opposite to the paper feed conveyance path 38 with respect to the second paper dust removing roller 10b. The second paper dust removing roller 10b is disposed so as to be pressed against the second paper dust removing roller 10b so that the paper dust adhering to the second paper dust removing roller 10b is scraped off. In addition, the surface of the roller 10g of the second paper dust removing roller 10b is frictionally charged by rubbing with the second paper dust removing roller 10b. Moreover, as shown in FIG. 3, the width | variety is formed a little wider than the width | variety of the 2nd paper dust removal roller 10b.
[0072]
  In the laser printer 1, the sheets 3 stacked on the sheet feeding tray 6 are separated and fed one by one by the cooperation of the sheet feeding roller 12 and the separation pad 13. When the paper is fed, a large amount of paper dust is generated on the image forming surface due to rubbing with the separation pad 13. However, when the sheet 3 is first transported to the first transport unit 9, when the sheet 3 is transported by being sandwiched between the first transport roller 9a and the first paper dust removing roller 9b, the image forming surface thereof is the first. It contacts with the roller 9g of the paper dust removing roller 9b. Then, since the first paper dust removing roller 9b is formed slightly wider than the width of the separation pad 13, the first paper dust removing roller 9b is generated on the paper 3 with a width substantially equal to the width of the pad member 13b due to rubbing with the separation pad 13. The paper dust is scraped off by the roller 9g of the first paper dust removing roller 9b and is electrostatically adsorbed. The paper dust adhering to the roller 9g of the first paper dust removing roller 9b is then scraped by the first sponge member 9c when it is opposed to the first sponge member 9c by the rotation of the first paper dust removing roller 9b. Taken.
[0073]
  Next, when the sheet 3 is conveyed to the second conveying unit 10, when the sheet 3 is conveyed by being sandwiched between the second conveying roller 10 a and the second paper dust removing roller 10 b, the image forming surface thereof becomes the second paper dust removing The roller 10b comes into contact with the roller 10g. Then, since the second paper dust removing roller 10b is formed slightly wider than the width of the paper 3, when the paper 3 is cut, the paper dust originally generated on the whole paper 3 and the above-described first The paper dust removed by the paper dust removing roller 9b is scraped by the roller 10g of the second paper dust removing roller 10b and is electrostatically adsorbed. The paper dust adhering to the roller 10g of the second paper dust removing roller 10b is then scraped by the second sponge member 10c when facing the second sponge member 10c by the rotation of the second paper dust removing roller 10b. Taken.
[0074]
  Therefore, in this laser printer 1, the paper 3 fed by the paper feed mechanism unit 7 corresponds to the width B of the pad member 13 b by the first paper dust removing roller 9 b before reaching the image forming unit 5. The paper dust of the portion to be removed is removed, and the paper dust of the portion corresponding to the width A of the paper 3 is removed by the second paper dust removing roller 10b.
[0075]
  Thereby, a larger amount of paper dust generated by rubbing with the pad member 13b is removed by the first paper dust removing roller 9b and the second paper dust removing roller 10b, and at the time of cutting the paper 3 or the like. A smaller amount of paper dust originally generated over the entire paper 3 is removed by the second paper dust removing roller 10b. As a result, the first transport unit 9 and the second transport unit 10 can remove the paper dust generated by rubbing with the pad member 13b and the originally generated paper dust in a well-balanced manner. And uniform removal of paper dust can be achieved. Therefore, in this laser printer 1, the mixing of paper dust into the image forming unit 5 is effectively prevented, and a high quality image can be formed.
[0076]
  In addition, since the second paper dust removing roller 10b is disposed on the downstream side of the first paper dust removing roller 9b in the conveyance direction of the paper 3, the paper 3 fed by the paper feeding mechanism unit 7 is After a larger amount of paper dust generated by rubbing with the pad member 13b is removed by the first paper dust removing roller 9b, the second paper dust removing roller 10b then adds the paper 3 A smaller amount of paper dust originally generated over the entire sheet 3 at the time of cutting or the like is removed. Therefore, efficient removal of paper dust based on the difference in the amount of paper dust can be achieved, and thus even more uniform removal of paper dust can be achieved.
[0077]
  The second paper dust removing roller 10b has a width wider than the width of the paper 3, while the first paper dust removing roller 9b is wider than the separation pad 13 and the second paper dust removing roller. Since it has a width narrower than the width of 10b, the paper dust can be removed in a well-balanced manner without unnecessarily increasing the width of the first paper dust removing roller, and the cost can be reduced.
[0078]
  Further, as described above, in the laser printer 1, the conveyance direction of the paper 3 is separated from the paper feed roller 12 by a predetermined interval so that the first paper dust removing roller 9 b does not contact the paper feed roller 12. It is arranged on the upstream side.
[0079]
  For example, when the first paper dust removing roller 9 b is in contact with the paper feed roller 12, the paper 3 to be fed next is already fed by the sliding of the paper feed roller 12 and the separation pad 13. The paper 3 is pulled out slightly following the paper 3, and the tip of the paper 3 is sandwiched between the paper feed roller 12 and the first paper dust removing roller 9b, and the laser printer 1 is stopped as it is. In such a case, the leading edge of the paper 3 sandwiched between the paper supply roller 12 and the first paper dust removing roller 9b may be curled. In such a case, when the paper 3 is supplied next time, there is a risk of causing a jam, or a dripping of the image on the curled tip portion.
[0080]
  However, as described above, if the first paper dust removing roller 9b is arranged so as not to come into contact with the paper feed roller 12, the paper 3 to be fed next is already fed paper. 3, the paper 3 is not caught between the paper feed roller 12 and the first paper dust removing roller 9 b, and curling-like wrinkles are prevented from being formed at the front end portion of the paper 3. be able to. For this reason, it is possible to always achieve a good feed of the paper 3 while achieving good paper dust removal.
[0081]
  Moreover, in the 1st conveyance part 9 and the 2nd conveyance part 10, the 1st sponge member 9c for scraping off the paper dust adhering to the 1st paper dust removal roller 9b facing the 1st paper dust removal roller 9b. And a second sponge member 10c for scraping the paper dust adhering to the second paper dust removing roller 10b is provided opposite to the second paper dust removing roller 10b. Since the paper dust adhering to the take-off roller 9b and the second paper dust-removing roller 10b is scraped off by the first sponge member 9c and the second sponge member 10c, respectively, the first paper dust-removing roller 9b and the second paper dust-removing roller The paper dust removal performance of 10b can be maintained, and good paper dust removal can be achieved over a long period of time.
[0082]
  Note that the widths of the first sponge member 9c and the second sponge member 10c are slightly wider than the widths of the first paper dust removing roller 9b and the second paper dust removing roller 10b that face each other. Even if the paper dust on the paper 3 slightly spreads in the width direction due to contact with the first paper dust removing roller 9b and the second paper dust removing roller 10b, it can be scraped well.
[0083]
  In the laser printer 1, the paper 3 fed by the paper feed mechanism unit 7 is first sandwiched between the first paper dust removing roller 9b and the first transport roller 9a to remove the paper dust. Is then transported while being sandwiched between the second paper dust removing roller 10b and the second transport roller 10a and being transported while removing the paper dust, while achieving a well-balanced removal of paper dust, Good conveyance of the sheet 3 up to the image forming unit 5 can be ensured.
[0084]
  In addition, the second paper dust removing roller 10b is not driven by the second transport roller 10a but is powered by a motor (not shown) via the input gear 10h. Can be driven by itself. Therefore, even if the paper 3 and the second sponge member 10c come into contact with the entire roller 10g of the second paper dust removing roller 10b and a load torque is applied, the second paper dust removing roller 10b is improved by driving itself. Rotation can be ensured, and good paper dust removal and conveyance of the paper 3 can be achieved.
[0085]
  Further, the laser printer 1 includes a re-conveying unit 41, and the first conveying unit 9 is located upstream of the connection portion of the re-conveying path 53 in the paper feeding and conveying path 38 in the conveying direction of the paper 3. On the other hand, the 2nd conveyance part 10 is arrange | positioned in the conveyance direction of the paper 3 rather than the connection part.
[0086]
  As a result, the first paper dust removing roller 9b is disposed on the upstream side of the connection portion of the re-conveying path 53 in the paper feeding / conveying path 38, so that it contacts only the paper 3 fed from the paper feeding mechanism section 7. In addition, since the second paper dust removing roller 10b is disposed on the downstream side of the connecting portion, the second paper dust removing roller 10b is re-conveyed from the paper 3 fed from the paper feeding mechanism unit 7 and the re-conveying path 53. In contact with both of the sheets 3 to be printed.
[0087]
  Therefore, the first paper dust removing roller 9b removes only a larger amount of paper dust fed from the paper feeding mechanism section 7 and caused by rubbing with the pad member 13b, while the second paper dust removing roller 10b. Is a paper dust of the paper 3 that has been fed from the paper feed mechanism unit 7 and from which most of the larger amount of paper dust already generated by rubbing with the pad member 13b by the first paper dust removing roller 9b has been removed, and In addition, the paper dust of the paper 3 that is re-carryed from the re-carrying path 53 instead of the paper feed mechanism unit 7 (that is, in the case of the re-carrying paper 3, the image formation that contacts the roller 9g of the first paper dust removing roller 9b Since the surface is the normal back side, there is no paper dust generated by rubbing with the pad member 13b on the surface, and it is sufficient to remove the entire paper dust by the second paper dust removing roller 10b. ) So remove 3 of the removal of the appropriate paper dust corresponding to state of adhesion of paper dust can be efficiently attained.
[0088]
  In the laser printer 1, one first conveying unit 9 and one second conveying unit 10 each including a first paper dust removing roller 9b and a second paper dust removing roller 10b are provided. A plurality of each may be provided, or only one of the first transport unit 9 and the second transport unit 10 may be provided.
[0089]
  In addition, the first transport unit 9 including the first paper dust removing roller 9b is disposed on the upstream side of the second transport unit 10 including the second paper dust removing roller 10b. The 2nd conveyance part 10 provided with the 2 paper dust removal roller 10b may be arrange | positioned upstream from the 1st conveyance part 9 provided with the 1st paper dust removal roller 9b.
[0090]
  In this case, since the paper dust on the paper 3 slightly spreads in the width direction of the paper 3 due to contact with the second paper dust removing roller 10b, the first paper dust removing roller 9b and the first sponge member It is desirable to make the width of 9c wider than the above description.
[0091]
  Further, as shown in FIG. 1, the feeder unit 4 of the laser printer 1 further supplies a multipurpose tray 14 on which sheets 3 of an arbitrary size are stacked and a sheet 3 stacked on the multipurpose tray 14. A multi-purpose paper feeding mechanism unit 15 for paper and a multi-purpose transport unit 16 are provided.
[0092]
  As shown in FIG. 2, the multi-purpose paper feed mechanism unit 15 includes a multi-purpose paper feed roller 15a and a multi-purpose separation pad 15b facing the multi-purpose paper feed roller 15a. The multi-purpose separating pad 15b includes a support frame 15c, a multi-purpose pad member 15d, and a spring 15e.
[0093]
  The support frame 15c is integrally formed with a flat plate-like one end facing the lower side of the multi-purpose paper feed roller 15a and the other end having a substantially L-shaped cross section that is swingably supported by the main casing 2. A multi-purpose pad member 15d is embedded in one end of the multi-purpose pad member 15d. A spring 15e is disposed on the back side of the multi-purpose pad member 15d. The spring 15e presses the multi-purpose pad member 15d against the multi-purpose sheet feeding roller 15a. Is being energized.
[0094]
  The multi-purpose pad member 15 d has a substantially rectangular plate shape and is made of an elastic member such as urethane rubber. The width of the multi-purpose separation pad 15 b is narrower than the width A of the paper 3. That is, the multi-purpose separation pad 15b is formed as a width that contacts only the central portion in the width direction of the paper 3 for paper feeding.
[0095]
  The uppermost paper 3 stacked on the multi-purpose tray 14 is sandwiched between the multi-purpose paper feed roller 15a and the multi-purpose separation pad 15b by the rotation of the multi-purpose paper feed roller 15a, and then cooperates with them. Thus, each sheet is separated and fed.
[0096]
  The multi-purpose transport unit 16 is located on the downstream side of the multi-purpose paper feed mechanism unit 15 in the transport direction of the paper 3 above the second transport unit 10 on the front side of the paper feed transport path 38 and is a registration roller. 11, a multi-purpose transport roller 16 a that transports the paper 3, a multi-purpose paper dust removing roller 16 b that is disposed to face the multi-purpose transport roller 16 a, and the multi-purpose paper dust removing roller 16 b. And a multi-purpose sponge member 16c arranged oppositely at the lower side.
[0097]
  The multi-purpose conveying roller 16a has a metal roller shaft 16d covered with a rubber roller 16e, and is driven to rotate in the direction of the arrow (counterclockwise in FIG. 1) by transmitting power from a motor (not shown). It is configured to be.
[0098]
  The multi-purpose paper dust removing roller 16b is formed as a member substantially similar to the first paper dust removing roller 9b described above, and a roller made of a fluororesin or a surface thereof is fluorine coated on a metal roller shaft 16f. A rubber roller 16g whose surface is easy to be charged is covered. The multi-purpose paper dust removing roller 16b is in contact with the contact portion of the multi-purpose pad member 15d on the surface of the paper 3 fed by the multi-purpose paper feeding roller 15 in contact with the multi-purpose pad member 15d of the multi-purpose separating pad 15b. Thus, in the conveyance direction of the paper 3, it is arranged at a substantially central portion with respect to the multi-purpose conveying roller 16a overlapping the multi-purpose separating pad 15b, and the width of the roller 16g is slightly smaller than the width of the multi-purpose pad member 15d. Widely formed.
[0099]
  The multi-purpose paper dust removing roller 16b is driven by the multi-purpose transport roller 16a in the direction of the arrow, that is, in the same direction as the transport direction of the paper 3 at the contact portion with the paper 3 (clockwise in FIG. 1). The paper 3 is conveyed while being rotated and driven while the paper 3 is sandwiched between the multi-purpose transport roller 16a and the multi-purpose paper dust removing roller 16b while removing the paper dust of the paper 3.
[0100]
  The multi-purpose sponge member 16c is made of a material that easily charges the multi-purpose paper dust removing roller 16b, such as urethane foam, and is opposite to the paper feeding path from the multi-purpose paper feeding mechanism unit 15 with respect to the multi-purpose paper dust removing roller 16b. The multi-purpose paper dust removing roller 16b is disposed so as to be pressed against the multi-purpose paper dust removing roller 16b below the multi-purpose paper dust removing roller 16b. The surface of the roller 16g of the multi-purpose paper dust removing roller 16b is frictionally charged by scraping the paper dust adhered to the multi-purpose paper dust removing roller 16b. Moreover, the width | variety is formed a little wider than the width | variety of the roller 16g of the multipurpose paper dust-removing roller 16b.
[0101]
  As described above, the sheet 3 fed from the multi-purpose sheet feeding mechanism 15 is also separated and fed one by one by the cooperation of the multi-purpose sheet feeding roller 15a and the multi-purpose separation pad 15b. However, when the paper is fed, a large amount of paper dust is generated due to rubbing with the multi-purpose separation pad 15b. However, when the paper 3 is conveyed to the multi-purpose conveyance unit 16, the multi-purpose paper dust removing roller 16b is moved between the multi-purpose conveyance roller 16a and the multi-purpose paper dust removing roller 16b. Since it is formed slightly wider than the width of the separation pad 15b, paper dust generated on the paper 3 with a width substantially equal to the width of the multi-purpose pad member 15d due to rubbing with the multi-purpose separation pad 15b is multipurpose. It is scraped off and electrostatically adsorbed by the roller 16g of the paper dust removing roller 16b. The paper dust adhering to the roller 16g of the multi-purpose paper dust removing roller 16b is scraped off by the multi-purpose sponge member 16c by the rotation of the multi-purpose paper dust removing roller 16b in the arrow direction (clockwise in FIG. 1).
[0102]
  As a result, paper dust generated on the paper 3 with a width substantially equal to the width of the multi-purpose separation pad 15b due to rubbing with the multi-purpose separation pad 15b is good from the surface of the paper 3 in the multi-purpose transport unit 16. Removed.
[0103]
  In the laser printer 1, the paper dust scraped off by the first sponge member 9c, the second sponge member 10c, and the multi-purpose sponge member 16c is dropped by its own weight when it becomes a certain mass. A drop guide passage 39 is formed for guiding the falling paper dust. That is, the drop guide passage 39 is formed as a passage extending in the vertical direction on the front side of the paper feed conveyance path 38, and includes a guide plate 61, an extending portion 62, a partition plate 63, and the like.
[0104]
  The guide plate 61 is a thin plate-like member that constitutes the front side of the paper feed conveyance path 38 that guides the paper 3 from the paper feed mechanism unit 7 to the image forming unit 5, and is configured to guide the paper dust on the back side thereof. Has been. More specifically, the guide plate 61 includes a first guide plate 61 a that guides the paper 3 from the second transport unit 10 to the registration roller 11 and a first guide plate 61 a that guides the paper 3 from the first transport unit 9 to the second transport unit 10. 2 guide plates 61b.
[0105]
  The first guide plate 61 a is formed as a thin plate member extending in an inclined manner from the front of the registration roller 11 to the upper side of the second conveyance unit 10, and the sheet 3 from the second conveyance unit 10 to the registration roller 11 on the front side surface. On the other hand, the paper powder falling from the multi-purpose transport unit 16 disposed above the first guide plate 61a is guided downward on the back side. Further, an extended portion 62a extending obliquely downward is integrally formed at the lower end portion so as to cover the upper side of the second transport unit 10.
[0106]
  The second guide plate 61b is formed as a thin plate member that extends from the lower side of the second transfer unit 10 to the lower side of the first transfer unit 9 so as to gently curve in an approximately S shape. While guiding the conveyance of the sheet 3 from the conveyance unit 9 to the second conveyance unit 10, in addition to the paper powder falling from the multi-purpose conveyance unit 16 on the back side, it is arranged at the upper end of the second guide plate 61b. The paper dust falling from the second transport unit 10 is guided downward. In addition, a thin plate-like extension portion 62b extending obliquely downward is provided so as to cover the upper side of the first transport portion 9 from the middle in the vertical direction.
[0107]
  A receiving plate 61c is formed integrally with the lower end portion of the second guide plate 61b. The receiving plate 61c is bent substantially orthogonally toward the front side. The receiving plate 61c is disposed in a substantially horizontal direction along the attachment / detachment path above the attachment / detachment path of the paper feed tray 6, and the upper side surface thereof is the multi-purpose conveyance unit 16, the second conveyance unit 10, and the first conveyance unit. 9 is a receiving surface 65 that receives paper dust that falls after being removed from the paper 3 by 9.
[0108]
  The partition plate 63 is disposed opposite to the front of the second guide plate 61b at a predetermined interval. The partition plate 63 is formed to be bent from the lower end of the side plate 63c to the front side. The bottom plate 63d is integrally formed. In addition, a plate-like fixing portion 63a to which a paper powder conveyance plate 66 and a conveyance driving unit 67, which will be described later, are fixed is formed at the front end portion of the bottom plate 63d so as to be bent substantially vertically upward.
[0109]
  Then, the paper dust scraped off by the multi-purpose sponge member 16c in the multi-purpose conveying unit 16 is guided to the back side surface of the first guide plate 61a and the extending part 62a, and is above the second paper dust removing roller 10b. Then, it is guided by the back side surface of the second guide plate 61b and the extending portion 62b, falls to the upper side of the first paper dust removing roller 9b, and then falls to the receiving surface 65.
[0110]
  Further, the paper powder scraped off by the second sponge member 10c in the second transport unit 10 is guided to the back side surface of the second guide plate 61b and the extending part 62b, and the upper side of the first paper dust removing roller 9b. And then falls onto the receiving surface 65.
[0111]
  Further, the paper powder scraped off by the first sponge member 9 c also falls on the receiving surface 65.
[0112]
  The laser printer 1 collects and collects paper dust that has been removed from the paper 3 by the multi-purpose transport unit 16, the second transport unit 10, and the first transport unit 9 and dropped on the receiving surface 65 by its own weight. Paper dust storage unit 68, paper powder transport plate 66 as a paper powder transport means for transporting the paper powder received on receiving surface 65 to paper powder storage unit 68, and paper powder transport plate 66 And a conveyance driving unit 67 for driving.
[0113]
  As shown in FIG. 5, the paper dust storage unit 68 is formed as a space below the multipurpose transport unit 16, the second transport unit 10, and the first transport unit 9 and on both sides of the receiving surface 65 in the width direction. The paper dust received by the receiving surface 65 can be stored together.
[0114]
  The paper dust conveying plate 66 is disposed above the attachment / detachment path of the paper feed tray 6 through the receiving surface 65, and as shown in FIG. Further, the base 69 is integrally provided with a substantially L-shaped sweeping plate 70 that protrudes rearward in the orthogonal direction from the center in the width direction and extends below the first transport unit 9. As shown in FIG. 4, the sweep plate 70 is formed in a substantially T-shape in which the sweep plate 70 protrudes from the center in the width direction of the base 69 in plan view. And the base 69 of this paper powder conveyance board 66 is being fixed to the rack 74 of the conveyance drive part 67 mentioned later on both sides of the fixing | fixed part 63a of the partition plate 63 with the screw 71, and fixed part is moved by the movement of the rack 74 It is configured to reciprocate in the horizontal direction along the horizontally elongated hole 63b of 63a. Further, as shown in FIG. 2, the lower end edge of the sweep plate 70 is disposed such that a predetermined gap (about 2 mm) is separated from the receiving surface 65, and the lower end edge of the sweep plate 70 reciprocates. The receiving surface 65 is not rubbed during movement.
[0115]
  As shown in FIG. 2, the conveyance drive unit 67 is above the paper powder conveyance plate 66 and the paper powder storage unit 68, and the first conveyance unit 9, the second conveyance unit 10, and the multipurpose conveyance unit 16, The power transmission mechanism 94 (see FIG. 6), a first bevel gear 72, a composite gear 73, and a rack 74 are provided.
[0116]
  The power transmission mechanism 94 is provided along the side wall of the main casing 2 and includes an input gear 77, a conversion gear portion 78, and an output gear 79 as shown in FIG.
[0117]
  The input gear 77 is provided at a shaft end portion of an input shaft 80 that transmits power that is rotationally driven in one direction from a motor (not shown), and meshes with a first conversion gear 81 of a conversion gear portion 78 described later. It is configured.
[0118]
  The conversion gear unit 78 includes a first conversion gear 81, a second conversion gear 82, a pendulum member 83, and a third conversion gear 84.
[0119]
  The first conversion gear 81 is provided on the inner side of the first external gear 85 having a larger diameter that meshes with the input gear 77 and the first external gear 85, and has a smaller first diameter that meshes with the second conversion gear 82 described later. An internal gear 86 is integrally provided.
[0120]
  The second conversion gear 82 has outer peripheral teeth that mesh with the first internal gear 86 of the first conversion gear 81, and is located inward along the axial direction at a position spaced apart from the axial center radially outward. A protruding cylindrical protruding portion 87 is formed, and the protruding protruding portion 87 is loosely inserted into a long hole 88 of a pendulum member 83 described below.
[0121]
  The pendulum member 83 is formed as an elongated, substantially fan-shaped plate member, and an arc tooth portion 89 that meshes with a third internal gear 92 of a third conversion gear 84 described later is formed at the arc portion at the lower end thereof. . Further, the pendulum member 83 is formed with a long hole portion 88 that is elongated along the central portion in the longitudinal direction, and a swing fulcrum is formed between the arc tooth portion 89 and the long hole portion 88. The support part 90 which becomes is provided. The pendulum member 83 is swingably supported with the support portion 90 as a fulcrum, and is disposed in a state where the protruding cylindrical portion 87 of the second conversion gear is loosely inserted into the long hole portion 88.
[0122]
  The third conversion gear 84 is provided inside a third external gear 91 having a larger diameter that meshes with an output gear 79 to be described later, and a smaller diameter that meshes with an arc tooth portion 89 of the pendulum member 83. The third internal gear 92 is integrally provided.
[0123]
  The output gear 79 is provided on one end side of an output shaft 93 that transmits power to a first bevel gear 72 described later, and the power of the third external gear 91 of the third conversion gear 84 is supplied to the first bevel gear described later. It is configured to transmit to the gear 72.
[0124]
  As shown in FIG. 4, the first bevel gear 72 is a compound gear 73 that is disposed substantially orthogonal to the first bevel gear 72 on the other end side of the output shaft 93 that transmits power from the output gear 79. It is provided so as to mesh with the second bevel gear 76.
[0125]
  As shown in FIG. 2, the compound gear 73 includes a pinion gear 75 that meshes with a rack 74 described later on the outer periphery thereof, and a second bevel gear 76 that meshes with the first bevel gear 72 around the inner axis of the pinion gear 75. Are integrally formed, and the pinion gear 75 is disposed so as to face in a substantially horizontal direction.
[0126]
  The rack 74 has a rack tooth 74a that meshes with the pinion gear 75 of the composite gear 73 on its surface, and is formed in a rectangular plate member that is slightly wider than the width of the first paper dust removing roller 9b. The rack 74 is arranged in parallel with the axial direction of the first paper dust removing roller 9 b with the rack teeth 74 a meshing with the pinion gear 75, and the rear surface of the rack 74 is fixed to the partition plate 63 by the rotation of the pinion gear 75. It is configured to slidably contact 63a and linearly reciprocate in the horizontal direction along the axial direction of the first paper dust removing roller 9b.
[0127]
  Then, in the conveyance drive unit 67, as shown in FIG. 6, when power that is rotationally driven in one direction from a motor (not shown) is transmitted to the input gear 77, the first conversion gear 81 that meshes with the input gear 77. Since the first external gear 85 is rotationally driven, the second conversion gear 82 is rotationally driven via the first internal gear 86 of the first conversion gear 81, and the protruding cylindrical portion 87 has a circular orbit. Move in the direction. As a result, the pendulum member 83 in which the protruding cylindrical portion 87 is inserted into the elongated hole portion 88 is swung left and right with the support portion 90 as a fulcrum, and the arc tooth portion 89 reciprocates left and right. Power that is rotationally driven in one direction is converted to power that is driven in a reciprocating direction and transmitted to the third internal gear 92 that meshes with the portion 89. Therefore, when the power is transmitted from the third internal gear 92 to the output gear 79 via the third external gear 91, the output gear 79 is rotationally driven so as to repeat forward and reverse rotation at a predetermined cycle. The
[0128]
  As shown in FIG. 4, when this power is transmitted to the first bevel gear 72 via the output shaft 93 and further transmitted from the second bevel gear 76 to the rack 74 via the pinion gear 75, the rack 74 is reciprocated in the horizontal direction at a predetermined cycle. As a result, the paper dust conveying plate 66 fixed to the rack 74 via the screw 71 is imaginary lines on the receiving surface 65 along the axial direction of the first paper dust removing roller 9b as shown in FIG. Are moved back and forth substantially in the horizontal direction up to both side positions (positions outside both axial ends of the first paper dust removing roller 9b). Therefore, as will be described later, the sweeping plate 70 causes the paper dust dropped on the receiving surface 65 to be substantially horizontal to the paper dust storage portion 68 outside the both axial ends of the first paper dust removal roller 9b. It is driven so as to linearly reciprocate and sweep.
[0129]
  In the conveyance driving unit 67, when driving is transmitted from the input gear 77 to the output gear 79, the speed of reciprocating movement of the paper dust conveying plate 66 is 100 mm / second or less due to deceleration by the combination of gears. Is set.
[0130]
  In the laser printer 1, the conveyance driving unit 67 is disposed above the paper dust conveyance plate 66 and the paper dust storage unit 68 and is defined with the partition plate 63 therebetween. , Paper dust falling by its own weight from the multipurpose transport unit 16, the second transport unit 10 and the first transport unit 9, paper powder transported by the paper powder transport plate 66, and further stored in the paper powder storage unit 68. It is possible to effectively prevent the paper dust from entering the transport drive unit 67. Therefore, it is possible to prevent a malfunction of the transport driving unit 67 due to the intrusion of paper dust, to ensure a good operation of the transport driving unit 67, and to achieve a good paper dust removing operation over a long period of time. .
[0131]
  In the laser printer 1, the paper dust is conveyed to the paper dust storing unit 68 so as to be swept by the sweeping plate 70 of the paper dust conveying plate 66 that reciprocally moves in the horizontal direction. Therefore, reliable transport can be achieved with a simple configuration without using a complicated transport mechanism such as an auger member.
[0132]
  Moreover, since the sweep plate 70 linearly reciprocates along the axial direction of the first paper dust removing roller 9b, the sweeping plate 70 is hardly generated in a minimum space with a simple configuration. Paper dust can be satisfactorily conveyed to the paper dust storage unit 68.
[0133]
  That is, for example, in the case of reciprocating movement by swinging with one end portion on the side of the sweep plate 70 as an axis, it is necessary to enlarge the swing locus in order to prevent the remaining sweep. However, if the swing locus is increased, it is unavoidable to increase the size of the apparatus. On the other hand, in order to prevent an increase in size, it is possible to attach a flexible blade member that bends when it comes into contact with another member without increasing the swing locus. The structure for mounting the flexible blade member becomes complicated and the number of parts increases.
[0134]
  However, if the sweep plate 70 is linearly reciprocated along the axial direction of the first paper dust removing roller 9b as described above, the remaining sweep is generated in a minimum space with a simple configuration. There is almost nothing, and the paper dust can be satisfactorily conveyed to the paper dust storage unit 68.
[0135]
  Further, since the paper dust conveying plate 66 is set to slowly reciprocate at a speed of 100 mm / second or less, the paper dust conveying plate 66 conveys the paper dust on the receiving surface 65 to the paper dust storing unit 68 without scattering. be able to. Therefore, it is possible to more effectively prevent the paper dust from entering the transport driving unit 67 and to achieve a better paper dust removing operation over a longer period of time.
[0136]
  Further, since the sweeping plate 70 reciprocates in the horizontal direction on the receiving surface 65 with a predetermined gap (about 2 mm) from the receiving surface 65, the sweeping plate 70 and the receiving surface 65 are separated from each other. By preventing sliding, it is possible to effectively prevent conveyance failure due to damage of the sweep plate 70. Therefore, the durability of the paper dust conveying plate 66 can be improved, and a better paper dust removing operation can be achieved over a longer period of time. Since the paper dust falling on the receiving surface 65 is a certain amount of lump, even if such a predetermined gap is provided, it can be swept well by the sweep plate 70, and the paper dust can be conveyed. There is no inhibition.
[0137]
  In the laser printer 1, the paper dust removed by the multipurpose transport unit 16, the second transport unit 10, and the first transport unit 9 is provided on both sides in the width direction of the receiving surface 65 by transporting the paper powder transport plate 66. Since the paper dust is stored in the paper dust storage unit 68, it is possible to eliminate the need to provide a space for storing paper dust below the receiving surface 65. For this reason, the paper dust conveying plate 66 is disposed above the attachment / detachment path of the paper feed tray 6 so that the paper dust of the paper 3 fed from the paper feed tray 6 can be removed smoothly and the paper feed is performed. A smooth attaching / detaching operation of the paper tray 6 can also be ensured.
[0138]
  Further, in the laser printer 1, when power that is driven in one direction is input to the input gear 77 in the power transmission mechanism 94, the power that is driven in one direction is driven in the reciprocating direction by the conversion gear unit 78. Since the power that is converted into the power to be driven and then driven in the reciprocating direction is output to the paper dust conveying plate 66 by the output gear 79, the power that is driven in one direction is driven in the reciprocating direction with a simple configuration. By converting to power, the paper dust conveying plate 66 can be reciprocated.
[0139]
  In the laser printer 1, the multi-purpose transport unit 16, the second transport unit 10, and the first transport unit 9 are all arranged in the vertical direction on the front side of the paper feed transport path 38, and the multi-purpose transport unit 16, each paper dust removed by the second transport unit 10 and the first transport unit 9 is guided by dropping in the drop guide passage 39 by its own weight, and is collected on the receiving unit 65 as it is, The paper is stored in the paper powder storage unit 68 by the sweeping plate 70. Therefore, the paper dust removed for each of the multi-purpose transport unit 16, the second transport unit 10, and the first transport unit 9 is guided and transported with a simple configuration, and is stored in the paper powder storage unit 68 in a lump. Can do. As a result, there is no need to store for each of the multipurpose transport unit 16, the second transport unit 10, and the first transport unit 9, and the apparatus configuration can be simplified, the number of parts can be reduced, and the apparatus can be downsized.
[0140]
  Further, in this laser printer 1, the drop guide passage 39 is configured using the back side surface of the guide plate 61 of the paper feed conveyance path 38, so that the apparatus configuration is further simplified and the number of parts is reduced. Therefore, it is possible to reduce the size of the apparatus.
[0141]
  Further, in the laser printer 1, the first guide plate 61 a includes an extending portion 62 a that covers the upper side of the second transport unit 10, and the second guide plate 61 b also extends above the first transport unit 9. Since it has the extending part 62b to cover, even if the paper dust removed by the multi-purpose conveying part 16 disposed above the second conveying part 10 falls, the extending part 62a Paper dust can be prevented from falling on the second transport unit 10 and has been removed by the multi-purpose transport unit 16 and the second transport unit 10 with respect to the first transport unit 9 disposed below the second transport unit 10. Even if the paper dust falls, the extending portion 62b can prevent the paper dust from falling on the first transport unit 9. Therefore, a good paper dust removal operation of the first transport unit 9 and the second transport unit 10 can be ensured over a long period of time.
[0142]
  In the laser printer 1, in the first transport unit 9, the first paper dust removing roller 9 b first contacts with the paper 3 along with the rotation thereof, and then removes the paper dust on the paper 3. The paper dust adhering to the first paper dust removing roller 9b is scraped off by the first sponge member 9c on the opposite side of the paper feed conveyance path 38 with respect to the first paper dust removing roller 9b. Also, in the second transport unit 10, the second paper dust removing roller 10 b comes into contact with the paper 3 along with its rotation to remove the paper dust on the paper 3, and then the second paper dust removing roller 10 b The adhered paper dust is scraped off by the second sponge member 10c on the opposite side of the paper feed conveyance path 38 with respect to the second paper dust removing roller 10b. Then, the paper powder scraped off by the first sponge member 9c and the second sponge member 10c stays on the lower side opposite to the paper feed conveyance path 38, and then forms a certain amount of lump when the paper powder is dropped to its own weight. The paper dust removed by the first transport unit 9 and the second transport unit 10 while effectively preventing the scraped paper powder from entering the paper feed transport path 38 because it falls from the inside. In the powder storage part 68, it can store collectively.
[0143]
  In the multi-purpose transport unit 16, the multi-purpose paper dust removing roller 16 b first contacts with the paper 3 as it rotates to remove the paper dust on the paper 3, and then the multi-purpose paper dust is removed. The paper dust adhering to the take-up roller 16b is scraped off by the multi-purpose sponge member 16c on the opposite side of the paper feed path from the multi-purpose paper feed mechanism unit 15 to the multi-purpose paper dust take-off roller 16b. The paper dust scraped off by the multi-purpose sponge member 16c falls from the inside of the drop guide passage 39 due to its own weight, so that the scraped paper dust enters the paper feed path from the multi-purpose paper feed mechanism section 15. The paper dust removed by the multipurpose transport unit 16 can be stored in a batch in the paper powder storage unit 68 while effectively preventing intrusion.
[0144]
  The laser printer 1 is configured as an electrophotographic laser printer that develops an electrostatic latent image to form a visible image and transfers the image to the paper 3. In this case, since the paper dust is mixed in the image forming unit 5 at the time of transfer, it is particularly necessary to remove the paper dust on the paper 3. According to the above configuration, the first transport unit 9. Since the second transport unit 10 and the multi-purpose transport unit 16 can efficiently remove the paper dust on the paper 3, good image formation can be reliably achieved by the electrophotographic method.
[0145]
  Further, in the laser printer 1, as described above, the residual toner remaining on the surface of the photosensitive drum 23 after the transfer is collected by the developing roller 27 by the cleaner-less development. If the dust adheres to the surface of the photosensitive drum 23, the paper dust is collected together with the remaining toner by the developing roller 27 and mixed into the developing cartridge 24, which causes a problem that the image quality is directly affected. With this configuration, since the paper dust on the paper 3 can be efficiently removed by the first transport unit 9, the second transport unit 10, and the multi-purpose transport unit 16, the residual toner can be easily obtained by cleaner-less development. It is possible to reliably achieve good image formation while collecting the image.
[0146]
  In the above description, the paper powder on the receiving surface 65 is conveyed using the paper powder conveying plate 66 as the paper powder conveying means. For example, the receiving surface is formed using an auger member having spiral blades. You may comprise so that the paper dust on 65 may be conveyed.
[0147]
  More specifically, as shown in FIG. 7, the receiving surface 65 may be formed in a curved concave shape capable of receiving the substantially cylindrical auger member 102, and the auger member 102 may be disposed on the receiving surface 65. .
[0148]
  As shown in FIG. 8, the auger member 102 includes a shaft member 105, and a first spiral portion 106 and a second spiral portion 107 that are formed in a spiral shape around the shaft member 105. In addition, an auger drive gear 108 to which power from a motor (not shown) is input is provided at one end of the shaft member 105 in order to rotationally drive the auger member.
[0149]
  The first spiral portion 106 is formed in a substantially half portion of the shaft member 105 in the axial direction, and the rotation of the shaft member 105 causes the paper dust to flow in one direction in the axial direction of the first paper dust removing roller 9b (arrow X). Direction). Further, the second spiral portion 107 is formed in a substantially half portion in the axial direction on the opposite side of the shaft member 105 where the first spiral member 106 is formed. It is comprised so that it can convey in the other side direction (arrow Y direction) in the axial direction of the powder removal roller 9b.
[0150]
  Thus, the paper dust received on the receiving surface 65 is driven by the rotation of the auger member 102 by the first spiral member 106 and the second spiral member 107 in both axial ends of the first paper dust removing roller 9b (arrows). X and the direction of the arrow Y) and is stored in the paper dust storage unit 68.
[0151]
【The invention's effect】
  As described above, according to the first aspect of the present invention, each paper dust removed by the plurality of paper dust removing means is stored in a lump in the paper dust storing unit, so that each paper dust removing means Therefore, it is not necessary to store them every time, and the configuration of the apparatus can be simplified, the number of parts can be reduced, and the apparatus can be downsized.In addition, paper dust removed for each paper dust removing means can be transported and stored in a lump with a simple configuration, further simplifying the device configuration, reducing the number of parts, and reducing the size of the device Can be achieved.
[0152]
  According to invention of Claim 2,Each paper removed by multiple paper dust removing means Since the powder is stored in a lump in the paper dust storage unit, it is not necessary to store it for each paper dust removing means, and the apparatus configuration can be simplified, the number of parts can be reduced, and the apparatus can be downsized. Also,With a simple configuration, the paper dust removed for each paper dust removing means can be stored in a batch in the paper dust storage unit.
[0153]
  AlsoThe paper dust removed for each paper dust removing means can be guided by a simple configuration and stored together in the paper powder storage unit.
[0154]
  AlsoSince the drop guide path is configured using the back surface of the guide plate of the supply conveyance path, the apparatus configuration can be further simplified, the number of parts can be reduced, and the apparatus can be downsized.
[0155]
  Claim3According to the invention described in the above, it is possible to ensure a good paper dust removing operation of each paper dust removing means disposed below over a long period of time.
[0156]
  Claim4According to the invention described in the above, it is possible to achieve good paper dust removal over a long period in each paper dust removing means.
[0157]
  Claim5According to the invention described in the above, paper dust removed by each paper dust removing means can be stored in a lump while effectively preventing the paper dust from entering the supply conveyance path.
[0158]
  Claim6According to the invention described in (1), the paper dust removed by each paper dust removing means and falling due to its own weight can be collected in one place as it is, and can be stored in a lump with a much simpler configuration.
[0159]
  Claim7According to the invention described in (2), it is possible to efficiently achieve appropriate removal of paper dust according to the state of adhesion of paper dust.
[0160]
  Claim8Since the paper dust on the recording medium can be efficiently removed, good image formation can be reliably achieved by the electrophotographic method.
[0161]
  Claim9According to the invention described in (1), it is possible to reliably achieve good image formation by simply collecting the developer by cleanerless development.
[Brief description of the drawings]
FIG. 1 is a side sectional view of an essential part showing an embodiment of a laser printer as an image forming apparatus of the present invention.
2 is an enlarged side cross-sectional view of a main part showing a paper feed conveyance path of the laser printer shown in FIG. 1;
3A is a plan view of an essential part of a paper, FIG. 3B is a sectional view of a second paper dust removing roller, and FIG. 3C is a first paper dust removing roller in the laser printer shown in FIG. Sectional drawing of (d) shows the top view of a pad member.
4 is a cross-sectional plan view of a main part of a paper dust transport unit and a transport drive unit in the laser printer shown in FIG.
FIG. 5 is a front view of a paper dust conveying unit of the laser printer shown in FIG. 1;
6 is a power transmission mechanism of the laser printer shown in FIG. 1, wherein (a) is a side sectional view of the power transmission mechanism, and (b) is a front view of the power transmission mechanism.
7 is an enlarged side cross-sectional view showing a main part of another embodiment of the paper feeding / conveying path of the laser printer shown in FIG. 1 (conveying paper dust using an auger member). FIG.
8 is a plan view of a main part of a paper dust conveying unit of the laser printer shown in FIG. 7;
[Explanation of symbols]
1 Laser printer
3 paper
5 Image forming section
7 Paper feed mechanism
9 First transport section
9b First paper dust roller
9c 1st sponge member
10 Second transport section
10b Second paper dust removing roller
10c Second sponge member
12 Paper feed roller
13 Separation pad
23 Photosensitive drum
27 Development roller
38 Paper feed path
39 Fall guide passage
41 Re-transport unit
53 Re-transport route
61 Information board
61a First guide plate
61b Second guide plate
62a Extension part
62b Extension part
66 Paper powder transport board
68 Paper dust storage

Claims (9)

In an image forming apparatus comprising a paper dust removing unit for removing paper dust from a recording medium supplied to an image forming unit, and a paper dust storing unit for storing the paper dust removed by the paper dust removing unit ,
A plurality of the paper dust removing means are provided in a supply conveyance path for supplying a recording medium to the image forming means,
The paper dust storage unit is configured to collectively store paper dusts respectively removed by the plurality of paper dust removing means ,
An image forming apparatus comprising: a paper dust conveying means for conveying the paper dust removed by each of the paper dust removing means toward the paper dust storing unit . In an image forming apparatus comprising a paper dust removing unit for removing paper dust from a recording medium supplied to an image forming unit, and a paper dust storing unit for storing the paper dust removed by the paper dust removing unit ,
A plurality of the paper dust removing means are provided in a supply conveyance path for supplying a recording medium to the image forming means,
The paper dust storage unit is configured to collectively store paper dusts respectively removed by the plurality of paper dust removing means ,
The paper dust storage unit is provided below each paper dust removing means, stores paper powder falling by its own weight after being removed by each paper dust removing means,
A drop guide passage for guiding the paper dust falling by its own weight after being removed by each paper dust removing means;
The supply conveyance path includes a guide plate for guiding a recording medium,
The image forming apparatus according to claim 1, wherein the drop guide path is configured by a back side of the guide plate . The image forming apparatus according to claim 2 , wherein the guide plate includes an extending portion that covers at least an upper portion of the paper dust removing unit disposed below. Each of the paper dust removing means scrapes the paper dust attached to the paper dust removing member in contact with the paper dust removing member that contacts the recording medium and opposed to the paper dust removing member. characterized in that it comprises a scraping member, the image forming apparatus according to any one of claims 1 to 3. In each of the paper dust removing means,
The paper dust removing member is configured to be movable in the same direction as the recording medium conveyance direction in the portion facing the supply conveyance path,
The image forming apparatus according to claim 4 , wherein the scraping member is configured to scrape the paper dust on the lower side opposite to the supply conveyance path with respect to the paper dust removing member. . The image forming apparatus according to claim 4 , wherein the plurality of paper dust removing units are arranged in a vertical direction on one side of the supply conveyance path through which the recording medium is supplied. A supply unit that includes a separation pad and a supply roller and supplies the recording medium to the supply and conveyance path; and the recording medium on which one side is formed by the image forming unit is reversed, and the recording medium is again inserted. A re-conveying path for conveying toward the image forming unit,
The downstream end of the re-conveyance path is connected in the middle of the supply and conveyance path,
A first paper dust removing means is provided on the upstream side in the conveyance direction of the recording medium from the connection part of the re-conveyance path in the supply conveyance path,
A second paper dust removing means is provided on the downstream side in the recording medium conveyance direction from the connection portion,
The paper dust removing member of the first paper dust removing unit has a width wider than at least the separation pad width in the direction orthogonal to the conveyance direction of the recording medium in the separation pad, and the paper dust of the second paper dust removing unit. taken member is characterized in that it has a wider width than the direction of the recording medium width perpendicular to the conveying direction of at least a recording medium, the image forming apparatus according to any one of claims 4 to 6. The image forming means is constituted by an electrophotographic system in which an image is formed by transferring a visible image formed by developing an electrostatic latent image onto a recording medium. Item 8. The image forming apparatus according to any one of Items 1 to 7 . The image forming unit includes a photoreceptor on which an electrostatic latent image is formed, and a developing unit that supplies a developer,
As the developer, a non-magnetic one-component developer is used, and cleanerless development is performed in which the developer remaining on the photoconductor after transfer is recovered by a developing means. The image forming apparatus according to claim 8 .

Images