JP2011257712A - Cleaning structure and image-forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a cleaning structure capable of restraining toner scraped off an image holder from penetrating a discharge area of a charger, and an image-forming device.SOLUTION: Part of toner T which is scraped off a surface of an image holder 62 and is collected within a case 106 passes between an apical portion of a lower seal 110 and the surface of the image holder 62 and falls. The toner T is deposited and captured in a capture portion 124 which is arranged below the lower seal 110. The capture portion 124 captures the toner T outside an airflow path for emitting a discharge product generated in a shield case 116 to the outside, which prevents the captured toner T from flying by an airflow. Therefore, the toner T captured by the capture portion 124 is restrained from penetrating inside of the shield case 116 (a discharge area) of an adjustment charger 86.

Description

  The present invention relates to a cleaning structure and an image forming apparatus.

  In the image forming apparatus described in Patent Document 1, an image holding body on which a toner image is formed, a transfer material holding body that rotates by electrostatically adsorbing a recording sheet on the surface, and a surface formed on the image holding body A transfer charger that transfers the toner image to the recording sheet, and a pre-cleaning static eliminator that neutralizes the image carrier after the toner image is transferred to the recording sheet are provided.

  The pre-cleaning static eliminator includes a long discharge electrode (discharge wire) and a casing in which the discharge electrode is disposed.

JP-A-8-171318

  An object of the present invention is to suppress the toner scraped off from the image carrier from entering the discharge region of the charger.

  The cleaning structure according to the first aspect of the present invention is provided to face an image carrier on which a toner image is formed on the surface while rotating, and scrapes off residual toner remaining on the surface of the image carrier to form the image. A cleaning device provided with a fall suppressing member that cleans the surface of the holding body and suppresses the residual toner scraped off from the image holding body from falling down in contact with the surface of the image holding body; Opposing the holding body, disposed below the cleaning device, provided with a box-shaped housing having an opening facing the image holding body, and provided with a discharge electrode disposed inside the housing, A charger that applies a voltage to the discharge electrode to adjust the charging potential of the surface of the image carrier, and a hole edge of the through hole and an opening of the housing as viewed from the rotation axis direction of the image carrier Provided below the extension line connecting the opening edge of the part And a capture unit that captures toner that falls through the space between the fall-suppressing member and the surface of the image carrier, and the casing is generated by discharging the discharge electrode. A through-hole through which an air flow for discharging discharge products from the inside of the housing passes is provided, and a contact point between the fall-suppressing member and the surface of the image carrier is relative to the rotation axis of the image carrier. In the case of the upper vertical direction, a part of the capturing part is a rotation axis of the image holding body with respect to a tangent extending in the vertical direction in contact with the surface of the image holding body when viewed from the rotation axis direction of the image holding body. When the contact point between the drop suppressing member and the surface of the image carrier is at the same vertical position as or below the rotation axis of the image carrier, the rotational axis direction of the image carrier As seen from above, the drop restraining member is in contact with the surface of the image carrier. Some of the capturing portion with respect to the vertical line extending vertically downward from is characterized in that it is arranged in the rotation axis direction of the image carrier.

  A cleaning structure according to a second aspect of the present invention is the cleaning structure according to the first aspect, wherein the casing is made of metal and grounded.

  According to a third aspect of the present invention, there is provided an image forming apparatus comprising: the cleaning structure according to the first or second aspect; and an image holding body on which a toner image is formed and rotationally driven. The provided charger is provided on the upstream side in the rotation direction of the image carrier with respect to the cleaning device provided in the cleaning structure.

  According to the cleaning structure of the first aspect of the present invention, as viewed from the rotation axis direction of the image carrier, the upper side is an extension line connecting the hole edge of the through hole and the opening edge of the opening of the housing. Compared with the case where the capture unit is disposed, it is possible to suppress the toner scraped off from the image holding member from entering the discharge region of the charging device.

  According to the cleaning structure of the second aspect of the present invention, it is possible to efficiently capture the toner scraped off from the surface of the image carrier as compared with the case where the metal casing is not grounded.

  According to the image forming apparatus of the third aspect of the present invention, the charging failure of the image carrier can be suppressed as compared with the case where the cleaning structure according to the first or second aspect is not provided.

It is the side view which showed the cleaning structure which concerns on 1st Embodiment of this invention. It is the expanded side view which showed the cleaning structure which concerns on 1st Embodiment of this invention. It is the side view which showed the cleaning structure which concerns on 1st Embodiment of this invention. 1 is a schematic configuration diagram illustrating an image forming apparatus according to a first embodiment of the present invention. It is the expanded side view which showed the cleaning structure which concerns on 2nd Embodiment of this invention.

  An example of the cleaning structure and the image forming apparatus according to the first embodiment of the present invention will be described with reference to FIGS.

  As shown in FIG. 4, the image forming apparatus 10 according to the present embodiment includes an accommodating portion 12 that accommodates a sheet member P as a recording medium from the lower side to the upper side in the vertical direction (arrow V direction). An image forming unit 14 that forms an image on a sheet member P that is provided on the storage unit 12 and is supplied from the storage unit 12; a document reading unit 16 that is provided on the image forming unit 14 and reads a read document G; And a control unit 20 that is provided in the image forming unit 14 and controls the operation of each unit of the image forming apparatus 10. In the following description, the vertical direction (arrow V direction) of the apparatus main body 10A of the image forming apparatus 10 is simply referred to as the vertical direction, and the horizontal direction (arrow H direction shown in FIG. 4) is simply referred to as the horizontal direction.

  The storage unit 12 is provided with a first storage unit 22, a second storage unit 24, and a third storage unit 26 that store sheet members P having different sizes. Further, the first storage unit 22, the second storage unit 24, and the third storage unit 26 are provided with a delivery roll 32 that sends out the stored sheet member P to a conveyance path 28 provided in the image forming apparatus 10. ing. Then, on the downstream side in the conveyance direction of the sheet member P with respect to the delivery roll 32 in the conveyance path 28 (hereinafter simply referred to as the downstream side in the conveyance direction), the conveyance roll 34 and the conveyance roll 36 that convey the sheet member P one by one. Are provided. An alignment roll 38 that stops the sheet member P at one end and feeds the sheet member P to a secondary transfer position, which will be described later, at a predetermined timing on the downstream side in the conveyance direction with respect to the conveyance roll 36 in the conveyance path 28. Is provided.

  Further, the downstream portion of the conveyance path 28 provided on the lower side of the image forming unit 14 is provided on the right side surface of the image forming unit 14 from the lower left side of the image forming unit 14 in the front view of the image forming apparatus 10. The paper discharge unit 15 is provided. The conveyance path 28 is connected to a double-side conveyance path 29 through which the sheet member P is conveyed and reversed in order to form an image on both sides of the sheet member P.

  The double-sided conveyance path 29 includes a first switching member 31 that switches between the conveyance path 28 and the double-sided conveyance path 29 from the lower right side of the image forming unit 14 to the right side of the storage unit 12 in the front view of the image forming apparatus 10. The reversing unit 33 provided in a straight line in the vertical direction, the rear end of the sheet member P conveyed to the reversing unit 33 enters and is conveyed in the horizontal direction, and the reversing unit 33 and the conveying unit 37 And a second switching member 35 that is switched. The reversing unit 33 is provided with a plurality of conveyance rollers 42 at intervals, and the conveyance unit 37 is provided with a plurality of conveyance rollers 44 at intervals.

  The first switching member 31 is a member having a triangular prism shape in cross section, and the conveyance direction of the sheet member P is switched by moving the leading end portion to either the conveyance path 28 or the double-sided conveyance path 29 by a driving unit (not shown). It is like that. Similarly, the second switching member 35 is a member having a triangular prism shape in cross section, and the conveyance direction of the sheet member P is changed by moving the leading end to either the reversing unit 33 or the conveyance unit 37 by a driving unit (not shown). It is supposed to switch.

  Note that the end of the transport unit 37 on the downstream side in the transport direction is connected to the transport path 28 by a guide member (not shown). Further, a foldable manual sheet feeding unit 46 is provided on the left wall surface of the image forming unit 14, and is connected from the manual sheet feeding unit 46 to a position in front of the alignment roll 38 in the conveyance path 28. Yes.

  On the other hand, an original reading unit 16 provided on the upper side of the image forming apparatus 10 includes an original conveying device 52 that automatically conveys the read original G one by one, and a single reading that is disposed below the original conveying device 52. A platen glass 54 on which the document G is placed and a document reading device 56 that reads the read document G conveyed by the document conveying device 52 or the read document G placed on the platen glass 54 are provided.

  The document conveying device 52 has an automatic conveying path 55 in which a plurality of conveying rolls 53 are arranged, and a part of the automatic conveying path 55 is arranged so that the sheet member P passes over the platen glass 54. The document reading device 56 reads the read document G conveyed by the document conveying device 52 while being stationary at the left end of the platen glass 54, or reads the read document G placed on the platen glass 54 while moving in the horizontal direction. Is supposed to read.

  Further, the image forming unit 14 provided on the lower side of the document reading unit 16 is provided with a cylindrical image holding body 62 that forms and holds a toner image on the surface of the main body 10A of the image forming apparatus 10. ing. The image holding body 62 is rotated in the direction of the arrow + R (clockwise direction in the drawing) by a driving unit (not shown) and holds an electrostatic latent image formed by light irradiation. A scorotron charging member 64 that charges the surface of the image carrier 62 is provided above the image carrier 62 and at a position facing the surface of the image carrier 62.

  Further, an exposure device 66 is provided at a position downstream of the charging member 64 in the rotation direction of the image carrier 62 and facing the surface of the image carrier 62. The exposure device 66 is composed of an LED (Light Emitting Diode), and the surface of the image carrier 62 charged by the charging member 64 is irradiated (exposed) with light based on the image signal corresponding to each toner color, and is statically exposed. An electrostatic latent image is formed. The exposure device 66 is not limited to the LED system, and may be one that scans laser light with a polygon mirror, for example.

  Further, the electrostatic latent image formed on the surface of the image holding body 62 is formed with toner of a predetermined color on the downstream side of the portion irradiated with the exposure light of the exposure device 66 in the rotation direction of the image holding body 62. A rotation switching type developing device 70 for developing and visualizing is provided.

  As shown in FIG. 3, the developing device 70 includes yellow (Y), magenta (M), cyan (C), black (K), first special color (E), and second special color (F). Developing units 72Y, 72M, 72C, 72K, 72E, and 72F corresponding to the toner colors are arranged side by side in the circumferential direction (counterclockwise in this order). Then, the developing devices 72Y, 72M, 72C, 72K, 72E, and 72F that perform the development processing are switched by rotating the central unit by 60 ° by a motor (not shown) that is a rotating means, and the surface of the image holding body 62 is switched. It comes to oppose. Since the developing units 72Y, 72M, 72C, 72K, 72E, and 72F have the same configuration, the developing unit 72Y will be described here, and the other developing units 72M, 72C, 72K, 72E, and 72F will be described. Is omitted.

  The developing device 72Y includes a case member 76 serving as a main body, and includes toner and a carrier that are supplied into the case member 76 from a toner cartridge 78Y (see FIG. 4) via a toner supply path (not shown). A developer (not shown) is filled. Further, the case member 76 is formed with a rectangular opening 76 </ b> A facing the surface of the image holding body 62, and the developing roll 74 whose surface faces the surface of the image holding body 62 is formed in the opening 76 </ b> A. Is provided. Further, a plate-like regulating member 79 for regulating the layer thickness of the developer is provided along the longitudinal direction of the opening 76A at a portion near the opening 76A in the case member 76.

  The developing roller 74 includes a cylindrical developing sleeve 74A that is rotatably provided, and a magnetic member 74B that includes a plurality of magnetic poles fixed inside the developing sleeve 74A. The developing sleeve 74A rotates. Thus, the developer (carrier) magnetic brush is formed, and the layer thickness is regulated by the regulating member 79, whereby the developer layer is formed on the surface of the developing sleeve 74A. The developer layer on the surface of the developing sleeve 74A is conveyed to a position facing the image carrier 62, and a toner corresponding to a latent image (electrostatic latent image) formed on the surface of the image carrier 62 is attached. To develop.

  Further, in the case member 76, two conveying augers 77 formed in a spiral shape are arranged in parallel so as to be rotatable, and the two conveying augers 77 are rotated to be filled in the case member 76. The developer is circulated and conveyed in the axial direction of the developing roll 74 (longitudinal direction of the developing device 72Y). The six developing rolls 74 provided in each of the developing units 72Y, 72M, 72C, 72K, 72E, and 72F are arranged in the circumferential direction so that the distance from the adjacent developing roll 74 is a central angle of 60 °. The next developing roller 74 is opposed to the surface of the image holding member 62 by switching the developing device 72.

  Further, an intermediate transfer belt to which a toner image formed on the surface of the image carrier 62 is transferred is downstream of the developing device 70 in the rotation direction of the image carrier 62 and below the image carrier 62. 68 is provided. The intermediate transfer belt 68 is endless and is in contact with a drive roll 61 that is rotationally driven by the control unit 20, a tension applying roll 63 for applying tension to the intermediate transfer belt 68, and a back surface of the intermediate transfer belt 68. It is wound around a plurality of transport rolls 65 that are driven to rotate, and an auxiliary roll 69 that is driven to rotate in contact with the back surface of the intermediate transfer belt 68. The intermediate transfer belt 68 rotates in the direction of the arrow -R (the counterclockwise direction in the drawing) as the driving roll 61 rotates.

  A primary transfer roll 67 is provided on the opposite side of the image carrier 62 across the intermediate transfer belt 68 to primarily transfer the toner image formed on the surface of the image carrier 62 to the intermediate transfer belt 68. The primary transfer roll 67 is in contact with the back surface of the intermediate transfer belt 68 at a position away from the position where the image carrier 62 and the intermediate transfer belt 68 are in contact with the downstream side in the moving direction of the intermediate transfer belt 68. When the primary transfer roll 67 is energized from a power source (not shown), the toner image on the image carrier 62 is primarily transferred to the intermediate transfer belt 68 by a potential difference from the grounded image carrier 62. Yes.

  Further, on the opposite side of the auxiliary roll 69 across the intermediate transfer belt 68, a secondary transfer roll 71 for secondary transfer of the toner image primarily transferred onto the intermediate transfer belt 68 to the sheet member P is provided. A space between the secondary transfer roll 71 and the auxiliary roll 69 is a secondary transfer position for transferring the toner image to the sheet member P. The secondary transfer roll 71 is in contact with the surface of the intermediate transfer belt 68. The secondary transfer roll 71 is grounded, and the toner image of the intermediate transfer belt 68 is transferred to the sheet by a potential difference between the auxiliary roll 69 biased to the shaft from a power source (not shown) and the grounded secondary transfer roll 71. Secondary transfer is performed on the member P.

  Further, on the opposite side of the drive roll 61 across the intermediate transfer belt 68, a cleaning device 100 including a blade 100A that scrapes off residual toner after secondary transfer of the intermediate transfer belt 68 is provided.

  Further, a predetermined reference on the intermediate transfer belt 68 is detected by detecting a mark (not shown) on the surface of the intermediate transfer belt 68 at a position facing the tension applying roll 63 around the intermediate transfer belt 68. A position detection sensor 83 is provided for detecting a position and outputting a position detection signal that serves as a reference for the start timing of the image forming process.

  Further, on the downstream side of the primary transfer roll 67 in the rotation direction of the image carrier 62, adjustment charging as an example of a corotron type charger that adjusts by charging the charging potential on the surface of the image carrier 62 to the negative side. A vessel 86 is provided. Further, an example of a cleaning device that cleans residual toner remaining on the surface of the image carrier 62 without being primarily transferred to the intermediate transfer belt 68 on the downstream side of the adjustment charger 86 in the rotation direction of the image carrier 62. A cleaning device 73 is provided. The cleaning structure 98 includes the adjustment charger 86 and the cleaning device 73. Details of the cleaning structure 98 will be described later.

  Further, on the downstream side of the cleaning device 73 (upstream side of the charging member 64) in the rotation direction of the image carrier 62, a static eliminator 75 is provided that performs static elimination by irradiating the surface of the image carrier 62 with light. Yes.

  On the other hand, as shown in FIG. 4, the secondary transfer position of the toner image by the secondary transfer roll 71 is set in the middle of the above-described conveyance path 28, and the conveyance direction (arrow) of the sheet member P in the conveyance path 28. A fixing device 80 for fixing the toner image to the sheet member P to which the toner image has been transferred by the secondary transfer roll 71 is provided downstream of the secondary transfer roll 71 in FIG.

  The fixing device 80 is disposed on the toner image surface side (upper side) of the sheet member P and has a heating roll 82 having a heat source that generates heat when energized, and the sheet member P disposed on the lower side of the heating roll 82 and the surface of the heating roll 82. It is comprised with the pressurization roll 84 which pressurizes toward. A transport roll 39 that transports the sheet member P toward the paper discharge unit 15 or the reversing unit 33 is provided downstream of the fixing device 80 in the transport direction of the sheet member P in the transport path 28.

  On the other hand, below the document reading device 56 and above the developing device 70, yellow (Y), magenta (M), cyan (C), black (K), first special color (E), and second special color. Toner cartridges 78Y, 78M, 78C, 78K, 78E, and 78F that store the respective color (F) toners are provided to be replaceable in the horizontal direction. The first special color E and the second special color F are selected from special colors (including transparent) other than yellow, magenta, cyan, and black, or are not selected. Then, when the first special color E and the second special color F are selected, the developing device 70 forms an image with six colors of Y, M, C, K, E, and F, and the first special color E When the second special color F is not selected, image formation with four colors Y, M, C, and K is performed. In this embodiment, as an example, a case where image formation is performed with four colors Y, M, C, and K and the first special color E and the second special color F are unused will be described. As an example, image formation may be performed with five colors using four colors Y, M, C, and K and the first special color E or the second special color F.

  With the above configuration, as shown in FIG. 4, when the image forming apparatus 10 is operated, yellow (Y), magenta (M), cyan (C), black (from the image processing apparatus (not shown) or from the outside. The image data of each color of K) is sequentially output to the exposure device 66. At this time, as an example, the developing device 70 is rotated and held so that the developing device 72 </ b> Y (see FIG. 2) faces the surface of the image holding body 62. Further, the blade 100 </ b> A and the secondary transfer roll 71 of the cleaning device 100 are separated from the surface of the intermediate transfer belt 68 until the toner images of the respective colors are multiplexed (primary) transferred to the intermediate transfer belt 68.

  Subsequently, the light emitted from the exposure device 66 according to the image data exposes the surface of the image carrier 62 charged by the charging member 64. For example, an electrostatic latent image corresponding to yellow image data is formed on the surface of the image carrier 62. Further, the electrostatic latent image formed on the surface of the image carrier 62 is developed as a yellow toner image by the developing device 72Y. Then, the yellow toner image on the surface of the image carrier 62 is transferred to the intermediate transfer belt 68 by the primary transfer roll 67.

  Subsequently, the developing device 70 is rotated by 60 ° in the direction of the arrow + R, and the developing device 72M faces the surface of the image carrier 62. Then, charging, exposure, and development steps are performed, and the magenta toner image on the surface of the image carrier 62 is transferred onto the yellow toner image on the intermediate transfer belt 68 by the primary transfer roll 67. Similarly, cyan (C) and black (K) toner images are sequentially transferred onto the intermediate transfer belt 68 in a multiple transfer manner. When the transfer of the toner image to the intermediate transfer belt 68 is completed, the blade 100A and the secondary transfer roll 71 of the cleaning device 100 come into contact with the surface of the intermediate transfer belt 68.

  On the other hand, the sheet member P sent out from the storage unit 12 and conveyed through the conveyance path 28 is moved to the secondary transfer position by the alignment roll 38 in synchronism with the multiple transfer of each toner image to the intermediate transfer belt 68. Be transported. The toner image that has been multiple-transferred onto the intermediate transfer belt 68 is secondarily transferred by the secondary transfer roll 71 onto the sheet member P that has been conveyed to the secondary transfer position. Further, residual toner adhering to the surface of the intermediate transfer belt 68 is scraped off from the intermediate transfer belt 68 by the blade 100A and collected.

  Subsequently, the sheet member P to which the toner image has been transferred is conveyed toward the fixing device 80 in the direction of arrow A (right direction in the drawing). In the fixing device 80, the toner image is fixed on the sheet member P by being heated and pressed by the heating roll 82 and the pressure roll 84. Furthermore, the sheet member P on which the toner image is fixed is discharged to the paper discharge unit 15 as an example. When images are formed on both surfaces of the sheet member P, after the image is fixed on the surface by the fixing device 80, the sheet member P is sent to the reversing unit 33 along the arrow -V direction and along the arrow + V direction. The leading end and the trailing end of the sheet member P are exchanged. Then, the sheet member P is conveyed in the direction of arrow B (left direction in the figure) by the double-sided conveyance path 29 and further fed into the conveyance path 28 to perform image formation and fixing on the back surface of the sheet member P in the same manner as the front surface.

(Main part configuration)
Next, the adjustment charger 86 and the cleaning device 73 provided in the cleaning structure 98 will be described.

  As shown in FIG. 1, the cleaning device 73 provided facing the image carrier 62 is in contact with the residual toner remaining on the surface of the image carrier 62 without being primarily transferred to the intermediate transfer belt 68. A rotating brush 102 is provided to disturb the above. The rotating brush 102 is rotatably supported by a housing 106 constituting the cleaning device 73.

  Further, the cleaning device 73 has a plate-like blade 104 whose front end is in contact with the surface of the image holding body 62 and whose base end is fixed to the housing 106, above the rotating brush 102 (the rotation direction of the image holding body 62). On the downstream side). The blade 104 scrapes the residual toner that has been disturbed by the rotating brush 102 from the surface of the image carrier 62.

  In addition, a conveyance auger 108 that conveys the toner scraped off by the blade 104 and collected inside the casing 106 to the outside while rotating is provided inside the casing 106. Further, a lower seal 110 as an example of a thin plate-like drop suppressing member whose base end is fixed to the housing 106 and whose tip is in contact with the surface of the image holding body 62 is provided below the rotating brush 102. . A contact point between the lower seal 110 and the surface of the image holding member 62 is arranged vertically above the rotation shaft 62 </ b> A of the image holding member 62. With this configuration, the lower seal 110 prevents the toner collected in the housing 106 from falling downward.

  That is, the cleaning device 73 includes the rotating brush 102, the blade 104, the housing 106, the transfer auger 108, and the lower seal 110.

  Further, a corotron type adjustment charger 86 is provided below the cleaning device 73 for adjusting the surface of the image holding body 62 by charging the charged potential to the negative side.

  Specifically, the adjustment charger 86 is provided with a discharge wire 114 as an example of a discharge electrode extending in the rotation axis direction of the image carrier 62. Further, a shield as an example of a box-shaped casing that accommodates the discharge wire 114 and has an opening 126 facing the surface of the image carrier 62 and includes the bottom wall 116A and the side wall 116B. A case 116 is provided. The shield case 116 is grounded so as to release electric charges. With this configuration, a corona discharge is generated by applying a high voltage to the discharge wire 114, and the surface of the image carrier 62 is charged to the negative side.

  Further, a through hole 118 penetrating the front and back of the bottom wall 116 </ b> A is formed in the bottom wall 116 </ b> A (the left wall shown in FIG. 1) of the shield case 116 so as to extend in the rotation axis direction of the image holding body 62. A suction fan 120 that discharges discharge products generated by corona discharge of the discharge wire 114 to the outside through the through hole 118 is provided on the opposite side of the image holding body 62 with the adjustment charger 86 interposed therebetween. . Further, the suction fan 120 is attached to one end of a duct 122 that guides discharge products to the outside.

  With this configuration, when the suction fan 120 is operated, the air staying on the surface of the image carrier 62 facing the adjustment charger 86 passes through the inside of the shield case 116 and passes through the through hole 118. 122 flows. The discharge product generated by corona discharge of the discharge wire 114 by this air flow passes through the duct 122, passes through a filter (not shown), and is discharged to the outside.

  In addition, as shown in FIG. 2, the toner T that has passed through between the lower seal 110 and the surface of the image holding body 62 and dropped downward is placed below the opening edge 126 </ b> A of the opening 126 of the shield case 116. A capture unit 124 that captures (catch) is provided integrally with the shield case 116. The capture unit 124 is formed in an L shape when viewed from the rotation axis direction of the image holding body 62.

  Specifically, the capture unit 124 has an extension line (which extends between the hole edge 118A of the through hole 118 and the opening edge 126A of the opening 126 of the shield case 116 when viewed from the rotation axis direction of the image carrier 62). It is provided below the lines G and H) shown in FIG.

  Further, a part of the capture unit 124 is located on the rotational axis direction side of the image holding body 62 with respect to the tangent line J extending in the vertical direction in contact with the surface of the image holding body 62 when viewed from the rotational axis direction of the image holding body 62. Has been placed.

  As a result, the capture unit 124 passes through the space between the lower seal 110 and the surface of the image holding body 62 outside the air flow path for discharging the discharge products from the shield case 116, and has dropped the toner T. The captured toner T is prevented from flying up by the air flow.

(Function)
Next, the operation of the cleaning structure 98 including the cleaning device 73 and the adjustment charger 86 will be described.

  As shown in FIG. 1, the toner image formed on the surface of the image carrier 62 rotating in the + R direction is transferred to the intermediate transfer belt 68 by the primary transfer roll 67. The surface of the image carrier 62 after the toner image is transferred to the intermediate transfer belt 68 passes through a position facing the adjustment charger 86. By applying a high voltage to the discharge wire 114 of the adjustment charger 86, corona discharge occurs, and the charged potential on the surface of the image carrier 62 that has passed through the position facing the adjustment charger 86 is charged to the negative side.

  On the other hand, the residual toner remaining on the surface of the image carrier 62 without being transferred to the intermediate transfer belt 68 is conveyed downstream in the rotational direction of the image carrier 62 while being held on the surface of the image carrier 62. The The residual toner conveyed downstream in the rotation direction of the image carrier 62 passes through a position facing the adjustment charger 86 and then rotates between the lower seal 110 and the surface of the image carrier 62. It touches 102 and is disturbed. Further, the residual toner that has been agitated by the rotating brush 102 and has reduced adhesion to the image carrier 62 is scraped off from the surface of the image carrier 62 by the blade 104 whose tip is in contact with the surface of the image carrier 62.

  Then, most of the toner T scraped off from the surface of the image holding body 62 and collected in the housing 106 is transported to the outside by the transport auger 108. On the other hand, a part of the toner T scraped off from the surface of the image carrier 62 passes between the front end portion of the lower seal 110 and the surface of the image carrier 62 and falls.

  The toner T that has passed through between the front end portion of the lower seal 110 and the surface of the image holding body 62 is deposited and captured on a capturing portion 124 provided below the lower seal 110.

  Here, as described above, the capturing unit 124 captures the toner T outside the air flow path for discharging discharge products generated in the shield case 116 to the outside. As a result, the captured toner T does not rise by the air flow.

  As described above, since the toner T captured by the capture unit 124 does not fly up by the air flow, the toner T captured by the capture unit 124 enters the shield case 116 (discharge region) of the adjustment charger 86. Can be suppressed.

  Further, since the entry of the toner T into the discharge region is suppressed, the adhesion of the toner T to the discharge wire 114 is suppressed.

  Further, since the toner T is prevented from adhering to the discharge wire 114, the discharge failure is suppressed, and thus the charging failure of the image carrier 62 is suppressed.

  Further, as described above, since the shield case 116 is grounded, there is a gap between the capture unit 124 formed integrally with the shield case 116 and the toner T scraped off from the surface of the image carrier 62. A potential difference occurs. When the potential difference is generated, the toner T is attracted to the capturing unit 124 by the Coulomb force. In this way, the toner T scraped off from the surface of the image carrier 62 is effectively captured.

  Further, since the toner T is captured by the capturing unit 124, the toner T is suppressed from adhering to the transfer belt 68, and therefore, the quality of the output image is suppressed from being deteriorated.

  Although the present invention has been described in detail with respect to specific embodiments, the present invention is not limited to such embodiments, and various other embodiments are possible within the scope of the present invention. It is clear to the contractor. For example, in the above embodiment, the air for discharging discharge products from the inside of the shield case 116 flows from the surface of the image carrier 62 toward the suction fan 120, but is particularly limited to this flow direction. Instead, air may flow from the suction fan toward the image carrier.

  In the above embodiment, the fan 120 is disposed on the opposite side of the image holding body 62 with the adjustment charger 86 interposed therebetween. However, the discharge product is discharged from the inside of the shield case 116 without being limited to this position. The fan may be arranged at another position.

  Next, an example of the cleaning structure and the image forming apparatus according to the second embodiment of the present invention will be described with reference to FIG. In addition, about the same member as 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

  As shown in FIG. 5, the contact point between the lower seal 140 of the present embodiment and the surface of the image holding body 62 is disposed at the same position in the vertical direction or below the rotation shaft 62 </ b> A of the image holding body 62. With this configuration, the lower seal 140 prevents the toner collected in the housing 106 from dropping downward.

  In addition, a part of the capturing unit 142 is viewed from the rotational axis direction of the image carrier 62, and the image carrier with respect to a vertical line K that extends vertically downward from a contact point M at which the lower seal 140 contacts the surface of the image carrier 62. 62 is arranged on the rotational axis direction side.

DESCRIPTION OF SYMBOLS 10 Image forming apparatus 62 Image holding body 62A Rotating shaft 73 Cleaning apparatus (cleaning apparatus)
86 Adjusting charger (charger)
98 Cleaning structure 110 Lower seal (falling suppression member)
114 Discharge wire (discharge electrode)
116 Shield case (housing)
118 Through-hole 118A Hole edge portion 124 Capture portion 126 Open portion 126A Open edge portion 140 Lower seal 142 Capture portion

Claims (3)

It is provided opposite to an image carrier on which a toner image is formed on the surface while rotating. The residual toner remaining on the surface of the image carrier is scraped off to clean the surface of the image carrier and to hold the image A cleaning device provided with a drop suppressing member that is in contact with the surface of the body and prevents the residual toner scraped off from the image carrier from falling downward;
A box-shaped casing that is disposed below the cleaning device and that faces the image holding body and has an opening facing the image holding body is provided, and a discharge electrode is provided inside the casing. A charger for applying a voltage to the discharge electrode to adjust a charging potential on the surface of the image carrier;
When viewed from the rotation axis direction of the image carrier, the drop suppression member and the image are provided below an extension line that connects a hole edge of the through hole and an opening edge of the opening of the housing. A capturing section that captures toner that falls through the surface of the holding body and falls downward;
The casing is provided with a through hole through which an air flow for discharging a discharge product generated by discharging the discharge electrode from the inside of the casing,
When the contact point between the drop suppressing member and the surface of the image carrier is vertically above the rotational axis of the image carrier, the image carrier is viewed from the rotational axis direction of the image carrier. A part of the capture unit is arranged on the rotation axis direction side of the image carrier with respect to a tangent extending in a vertical direction in contact with the surface,
When the contact point between the drop suppressing member and the surface of the image carrier is at the same vertical position as or below the rotation axis of the image carrier, the drop is viewed from the direction of the rotation axis of the image carrier. A cleaning structure in which a part of the capture unit is disposed on the rotation axis direction side of the image holding body with respect to a vertical line extending downward in the vertical direction from a contact point at which the suppressing member contacts the surface of the image holding body.   The cleaning structure according to claim 1, wherein the casing is made of metal and grounded. A cleaning structure according to claim 1 or 2,
A toner image formed on the surface and an image holding member that is rotationally driven,
The charger provided in the cleaning structure is an image forming apparatus provided on the upstream side in the rotation direction of the image carrier with respect to the cleaning device provided in the cleaning structure.

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