JP5601120B2 - Image forming apparatus - Google Patents

Description

  The present invention relates to an image forming apparatus.

  The image forming apparatus described in Patent Document 1 is provided with forced air intake means for taking outside air into a writing unit provided in the housing of the image forming apparatus.

JP 2006-337589 A

  An object of the present invention is to make it possible to remove a gas generated from a recording medium after image formation from a discharge portion from which the recording medium is discharged with an inexpensive configuration.

An image forming apparatus according to a first aspect of the present invention includes: an image forming unit that includes an image holding member that holds a toner image; a fixing unit that fixes the toner image on a recording medium; and the image holding member and the fixing member. A guide unit that guides air sucked from between the image forming unit, a stack unit that is provided above the image forming unit and on which the recording medium that has passed through the fixing unit is stacked, and an upper unit of the stack unit. An image reading unit that reads an image of a document, a detachable introduction unit that guides air between the stacking unit and the image reading unit, and the guide unit and the introduction unit are detachably connected, and the guide unit And a discharge unit that discharges air guided or guided from the introduction unit to the outside, and is connected to the discharge unit, and guides or guides air from the guide unit and the introduction unit to the discharge unit, and is guided or guided Air flow that discharges air to the outside An air flow generating means for generating, and having an opening for joining the air introduced from the introduction part with the air guided by the guide part as the discharge part, and having the opening part. It is possible to replace the one not to be replaced, or to close the opening.

An image forming apparatus according to a second aspect of the present invention is the image forming apparatus according to the first aspect, wherein the air flow path is provided in the discharge portion and is guided from the introduction portion to the discharge portion, and from the guide portion to the discharge portion. And a partition member that partitions at least a part of the air flow path guided by the air .

An image forming apparatus according to a third aspect of the present invention is the image forming apparatus according to the second aspect, wherein the partition member is guided from the guide portion to the discharge portion, and from the introduction portion to the discharge portion. It arrange | positions so that air quantity may become a predetermined ratio, It is characterized by the above-mentioned.

  An image forming apparatus according to a fourth aspect of the present invention is the image forming apparatus according to any one of the first to third aspects, wherein a purification member for purifying the air discharged from the discharge portion to the outside is detachably provided. Features.

  According to the image forming apparatus of the first aspect of the present invention, as compared with the case where a dedicated air flow generating member for generating an air flow for discharging the air to the outside through the introducing portion is provided, the image forming apparatus after the image forming is provided. The gas generated from the recording medium can be removed from the discharge portion where the recording medium is discharged with an inexpensive configuration.

According to the image forming apparatus of the second aspect of the present invention, compared with the case where the air guided from the introduction unit to the discharge unit and all the air guided from the guide unit to the discharge unit merge in the discharge unit. The desired amount of air can be guided from the introduction unit and the guide unit to the discharge unit with an inexpensive configuration.

According to the image forming apparatus of the third aspect of the present invention, it is possible to guide a desired amount of air from the introduction part and the guide part to the discharge part as compared with the case where no partition member is provided.

  According to the image forming apparatus of the fourth aspect of the present invention, the purification member can be removed when the purification member is unnecessary as compared with the case where the purification member cannot be attached and detached.

1 is a schematic configuration diagram illustrating an image forming apparatus according to an embodiment of the present invention. 1 is a configuration diagram illustrating an image forming unit using an image forming apparatus according to an embodiment of the present invention. FIG. 3 is a perspective view showing the vicinity of a discharge portion of the image forming apparatus according to the embodiment of the present invention. 1 is a perspective view showing an intake section, an inflow duct section, an exhaust duct section, and the like using an image forming apparatus according to an embodiment of the present invention. 1 is a perspective view showing a discharge duct portion using an image forming apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view showing an intake portion and the like using the image forming apparatus according to the embodiment of the present invention. FIG. 4 is an explanatory diagram illustrating the flow of air in the image forming apparatus according to the embodiment of the present invention. It is sectional drawing which showed the inflow duct part etc. which used the image forming apparatus which concerns on embodiment of this invention. It is sectional drawing which showed the inflow duct part etc. which used the image forming apparatus which concerns on embodiment of this invention. 1 is a perspective view showing an inflow duct portion using an image forming apparatus according to an embodiment of the present invention. 1 is a perspective view showing an inflow duct portion using an image forming apparatus according to an embodiment of the present invention. 1 is a perspective view illustrating an inflow duct portion, an exhaust duct portion, and the like using an image forming apparatus according to an embodiment of the present invention. 1 is a perspective view of an image forming apparatus according to an embodiment of the present invention as viewed from the rear side. It is sectional drawing which showed the discharge duct member using the image forming apparatus which concerns on embodiment of this invention. It is the perspective view which showed the discharge duct member using the image forming apparatus which concerns on embodiment of this invention. FIG. 3 is a perspective view showing a discharge duct member, an introduction duct member, and the like using the image forming apparatus according to the embodiment of the present invention. 1 is a perspective view showing a discharge duct member and the like using an image forming apparatus according to an embodiment of the present invention.

  An example of an image forming apparatus according to an embodiment of the present invention will be described with reference to FIGS.

(overall structure)
FIG. 1 shows an image forming apparatus 10 as an example of the embodiment. The image forming apparatus 10 includes a sheet storage unit 12 in which a sheet member P as a recording medium is stored from the lower side to the upper side in the vertical direction (arrow Z direction), and a sheet storage unit provided on the sheet storage unit 12. A sheet processing unit 14 that forms and fixes an image on a sheet member P supplied from the unit 12, an image reading unit 16 that is provided on the sheet processing unit 14 and reads an image of a read original G, and a sheet processing unit 14. And a control unit (not shown) that controls the operation of each unit of the image forming apparatus 10 provided.

  In the following description, the vertical direction of the image forming apparatus 10 is an arrow Z direction, and the horizontal direction shown in the figure, which is one of the horizontal directions orthogonal to the arrow Z direction, is orthogonal to the arrow X direction, the arrow Z direction, and the arrow X direction. The depth direction to be described is described as an arrow Y direction.

  The paper storage unit 12 is provided with a delivery roll 22 that feeds the stored sheet member P to a conveyance path 18 provided in the image forming apparatus 10. In addition, a pair of transport rolls 24 that transport the sheet members P one by one are provided downstream of the feed rolls 22 in the transport path 18. The conveyance path 18 is provided long in the arrow Z direction with the lower side in the drawing as the upstream side and the upper side as the downstream side.

  The sheet processing unit 14 is provided for the image forming unit 30, the image forming unit 30 that forms a toner image (developer image) on the sheet member P that is disposed to face the conveyance path 18 in the case 14 A, and the image forming unit 30. The exposure apparatus 40 as an example of an exposure unit disposed on the opposite side of the conveyance path 18 in the arrow X direction and on the center side in the casing 14A, and the image forming unit 30 in the conveyance path 18 in the casing 14A. A fixing device 50 as an example of a fixing unit provided on the downstream side, an intake unit 60 provided on the front side in the arrow Y direction in the housing 14A, and a back side in the arrow Y direction in the housing 14A. The exhaust part 100 is comprised.

  As shown in FIGS. 1 and 3, a side wall 15 (not shown in FIG. 3) that is a YZ surface erected on the right side in the direction of the arrow X with respect to the transport path 18 is formed on the upper portion of the housing 14A. A side wall 17 that is an XZ plane erected on the back side in the arrow Y direction perpendicular to the side wall 15, and an XY plane that is connected to the lower end of the side wall 15 and the lower end of the side wall 17, and a part thereof is curved toward the side wall 15 The upper wall 19 is provided as an example of a stacking portion having the curved wall 19A.

  The sheet member P is discharged to a discharge portion 28 that is a space surrounded by the side wall 15, the side wall 17, and the upper wall 19. That is, the sheet member P on which an image is formed is stacked on the upper wall 19. Also, as shown in FIG. 3, a front cover 21 that can be opened and closed by a hinge member (not shown) is provided on the front side in the arrow Y direction (front side of the image forming apparatus 10) in the housing 14A. ing.

  As shown in FIG. 1, the sheet member P is temporarily stopped on the upstream side of the image forming unit 30 in the conveyance direction (arrow Z direction) of the sheet member P in the conveyance path 18, and at a predetermined timing. A pair of alignment rolls 26 are provided for feeding the member P to a transfer position described later.

  Further, on the downstream side of the fixing device 50 in the direction of arrow Z in the conveyance path 18, a pair of lower discharge rollers 51 and a pair of discharge members 28 discharge the sheet member P on which the toner image is fixed by the fixing device 50 to the discharge unit 28. An upper discharge roll 53 is provided. Note that an accumulation plate (not shown) for accumulating the sheet members P is attached between the lower discharge roll 51 and the upper discharge roll 53 in the side wall 15 as necessary.

  Further, on the left side surface in the direction of the arrow X from the image forming unit 30 and the fixing device 50 in the housing 14A, the double-sided conveyance unit 80 in which the sheet member P is conveyed and reversed to form images on both sides of the sheet member P. Is attached. The double-sided conveyance unit 80 is provided with a double-sided conveyance path 82 having one end connected downstream of the fixing device 50 in the conveyance path 18 and the other end connected upstream of the alignment roll 26. Further, the double-sided conveyance path 82 is provided with a plurality of conveyance rolls 84 for conveying the sheet member P fed to the double-sided conveyance path 82 by reversing the upper discharge roll 53 toward the alignment roll 26. A gap 86 is formed between the housing 14A and the duplex conveyance unit 80, and outside air can flow into the housing 14A from the gap 86.

  Further, a high voltage power supply unit 92 is provided below the exposure device 40 in the housing 14A, and black toner supplied to the image forming unit 30 is accommodated above the exposure device 40. The toner cartridge 94 is detachably provided. Further, a wall portion 96 is provided on the right side of the intake portion 60 in the arrow X direction in the housing 14 </ b> A, and a low voltage power supply portion 98 is provided on the opposite side of the intake portion 60 with respect to the wall portion 96. Is provided. The high voltage power supply unit 92 and the low voltage power supply unit 98 supply power to each unit of the image forming apparatus 10.

  As shown in FIG. 2, the image forming unit 30 includes a photoconductor cartridge 32 that is provided with an image carrier 36 to be described later, a developing cartridge 34 that is arranged below the photoconductor cartridge 32, and a photoconductor. And a shutter member 38 movably provided on the body cartridge 32 side. The exposure light L emitted from the exposure device 40 passes through a passage 43 formed by the bottom plate of the photosensitive cartridge 32 and the upper wall of the developing cartridge 34 so that the outer peripheral surface of the image carrier 36 is irradiated. It has become.

  The photosensitive cartridge 32 is provided so as to be rotatable in an arrow + R direction (clockwise direction in the drawing), and after charging, an electrostatic latent image is formed on the outer peripheral surface by irradiation with exposure light L from the exposure device 40 (see FIG. 1). An image carrier 36 to be formed, and a charging roll 33 that is provided in contact with the outer peripheral surface of the image carrier 36 and charges the outer peripheral surface of the image carrier 36 by a potential difference generated by a voltage applied by a power source (not shown). The housing 32A is provided with an erase lamp 35 for irradiating the outer peripheral surface of the image holding body 36 after the transfer and a cleaning member 37 for cleaning the outer peripheral surface of the image holding body 36 after the erase lamp irradiation. have.

  A sub toner replenishing unit 39 is provided on the right side of the cleaning member 37 in the housing 32 </ b> A of the photosensitive cartridge 32. The sub-toner replenishing unit 39 is connected to the toner cartridge 94 described above, and the toner is replenished from the toner cartridge 94. Further, on the side wall of the sub-toner replenishment unit 39, a support protrusion 41 is provided that extends in a direction orthogonal to the axial direction of the image carrier 36. The image forming unit 30 is mounted in the image forming apparatus 10 by inserting the support protrusion 41 into a cartridge receiving portion (not shown) of the image forming apparatus 10.

  In the developing cartridge 34, a developing roll 42 that develops the electrostatic latent image on the outer peripheral surface of the image holding member 36 into a toner image with the developer G is disposed to face the outer peripheral surface of the image holding member 36. Further, below the developing roll 42, a first conveying member 45 and a second conveying member that agitate the developer G accommodated in the developer accommodating chamber 44 constituting a part of the developing cartridge 34 in the axial direction. A member 46 is provided. Further, a toner supply unit 48 is provided on the side of the developer storage chamber 44, and the toner supply unit 47 is rotated by rotation of a supply member 47 provided between the developer storage chamber 44 and the toner supply unit 48. The toner is supplied from 48 to the developer storage chamber 44.

  The toner replenishing unit 48 is configured to replenish toner from the sub toner replenishing unit 39 via a supply pipe (not shown). Further, by the operation of a motor (not shown), the first transport member 45 and the supply member 47 rotate in the direction of the arrow −R (counterclockwise direction in the figure), and the second transport member 46 rotates in the direction of the arrow + R. It has become.

  Here, the developer G supplied from the first conveying member 45 and the second conveying member 46 adheres to the outer peripheral surface of the developing roll 42 and is conveyed to a position facing the image carrier 36 by the rotation of the developing roll 42. Is done. The electrostatic latent image formed on the outer peripheral surface of the image carrier 36 is visualized as a toner image by the developer G on the developing roll 42.

  Here, the shutter member 38 is provided so as to be movable in the illustrated arrow −S direction or + S direction with respect to the housing 32 </ b> A between a position covering the image holding body 36 or a position exposing the image holding body 36. It has been. When the image forming unit 30 is detached from the image forming apparatus 10, the shutter member 38 covers the outer peripheral surface of the image carrier 36, and when the image forming unit 30 is attached to the image forming apparatus 10, the shutter member 38 is The outer peripheral surface of the holding body 36 is exposed toward the conveyance path 18 (see FIG. 1). When the image forming unit 30 is attached to the image forming apparatus 10 and the image holding member 36 is exposed, the shutter member 38 is arranged between the photoconductor cartridge 32 and the fixing device 50. .

  As an example of an opening / closing mechanism for the shutter member 38, a spring is attached to the shutter member 38 that is provided so as to be movable in the direction of the arrow + S or −S by a guide member (not shown), and biased in a direction to cover the image carrier 36. . Then, a projection that contacts the shutter member 38 is provided on the image forming apparatus 10 side, and the shutter member 38 and the projection are brought into contact with each other when the image forming unit 30 is mounted, so that the image holding member 36 is exposed. There is a mechanism to move in the direction.

  On the other hand, as shown in FIG. 1, the exposure apparatus 40 has, for example, a configuration in which a semiconductor laser, a polygon mirror, an imaging lens, and a plurality of mirrors (all not shown) are provided in a housing. . Thereby, the light emitted from the semiconductor laser is deflected and scanned by the polygon mirror, and is irradiated as the exposure light L on the outer peripheral surface of the image holding member 36 through the imaging lens and the mirror, so that the outer peripheral surface of the image holding member 36 is irradiated. In addition, an electrostatic latent image corresponding to the image data is formed.

  Further, at a position facing the outer peripheral surface of the image carrier 36 across the conveyance path 18, rotation is possible in a direction opposite to the image carrier 36, and a voltage having a polarity opposite to the polarity (for example, minus) of the toner is applied. A transfer roll 49 is provided as an example of a transfer unit supplied with power from a power supply unit (not shown). Here, the inside of the image carrier 36 is grounded, and a potential difference is generated between the outer peripheral surface of the image carrier 36 and the transfer roller 49 by supplying power to the transfer roller 49. Due to this potential difference (electric field), the toner image present on the outer peripheral surface of the image carrier 36 is transferred onto the sheet member P.

  The fixing device 50 is disposed on the toner image surface side on the sheet member P and is disposed opposite to the outer surface of the heating roll 52 as an example of a heating rotating body provided with a heater, and heats the sheet member P. A pressure roll 54 as an example of a pressure rotating body that pressurizes the roll 52. In the fixing device 50, the sheet member P is sandwiched between the heating roll 52 and the pressure roll 54 to heat and press the sheet member P to fix the toner image on the sheet member P.

  As described above, the image forming unit 58 that forms an image on the sheet member P includes the image carrier 36, the exposure device 40, the transfer roll 49, and the fixing device 50.

  In addition, the image reading unit 16 includes a document conveying device 74 that automatically conveys the read document G placed on the document table 72 one by one, and a single read document G disposed below the document conveying device 74. There is provided a platen glass 76 to be placed, and a document reading device 78 provided to be movable or stationary in the direction of arrow X below the platen glass 76 and reading the read document G on the platen glass 76.

  The document transport device 74 includes a feed roll 71 that feeds the read document G one by one, and an automatic transport path 75 in which a plurality of pairs of transport rolls 73 are arranged. A part of the automatic transport path 75 is a sheet member. P is disposed so as to pass over the platen glass 76. Further, the document reading device 78 reads the read document G conveyed by the document conveying device 74 in a state of being stationary under the left end portion of the platen glass 76 or reading on the platen glass 76 while moving in the arrow X direction. The original G is read.

  Next, the intake section 60 will be described.

  As shown in FIG. 4, the air intake unit 60 is activated by energization to intake air from the outside of the image forming apparatus 10, and the air intake fan 62 is attached to one opening (not shown) so as to be integrated. It is comprised including the made air duct 64. Further, as shown in FIG. 1, the center of the installation height of the intake section 60 in the direction of arrow Z is higher than the installation height of the exposure apparatus 40, and the air flowing from the intake section 60 into the housing 14A It flows on the upper side of the exposure apparatus 40.

  On the other hand, as shown in FIG. 6, an opening 21 </ b> A penetrating in the arrow Z direction is formed at the lower end of the front cover 21. Outside air can flow into the inside of the cover 21. An inner cover 23 is provided inside the front cover 21 (inside the image forming apparatus 10).

  The inner cover 23 is formed in a hollow rectangular parallelepiped shape, and a lower portion of the front wall 23A on the front cover 21 side of the inner cover 23 is formed between slits 25A that allow inflow of outside air into the inner cover 23. A plurality of louvers 25 are formed. Further, the front wall 23 </ b> A of the inner cover 23 is provided with a rib 27 protruding to the front cover 21 in the arrow Y direction, and the plurality of louvers 25 are surrounded by the rib 27. Accordingly, the outside air that has flowed in from the opening 21 </ b> A flows into the inner cover 23 through the plurality of louvers 25.

  Further, an opening 29 that opens toward the inside of the image forming apparatus 10 is formed in an upper portion of the rear wall 23B that is disposed to face the front wall 23A of the inner cover 23. An intake fan 62 is attached to the periphery of the opening 29 with screws. As a result, when the intake fan 62 is activated to perform intake air, outside air flows from the opening 21 </ b> A of the front cover 21 into the opening 29 via the louver 25 of the inner cover 23, and passes through the air duct 64. Outside air is blown into the image forming apparatus 10.

  Next, the exhaust part 100 will be described.

  As shown in FIG. 4, the exhaust unit 100 is arranged side by side with the end of the shutter member 38 in the arrow X direction when the shutter member 38 is opened, and a part of the air flow blown from the air duct 64 flows in. The inflow duct portion 102 as an example of the guide portion to be performed, the discharge duct member 140 as an example of the discharge portion disposed on the back side in the arrow Y direction with respect to the inflow duct portion 102, and the air in the discharge duct member 140 An exhaust fan 106 as an example of an airflow generation unit that exhausts to the outside, an introduction duct member 146 that guides the air of the discharge unit 28 from which the sheet member P is discharged into the discharge duct member 140, and the arrow Y direction of the image forming apparatus 10 And an exhaust cover 108 (see FIG. 13) attached to a back panel (not shown) erected on the back side.

  First, the inflow duct portion 102 will be described.

  The inflow duct portion 102 has a bottom plate 102A that is formed in a trapezoidal shape in a plan view from the opened shutter member 38 to the discharge duct member 140 and disposed on the XY plane. On the bottom plate 102A, side walls 102B and 102C are erected on both ends of the upper surface toward the upper side in the arrow Z direction.

  Furthermore, the inflow duct part 102 is divided | segmented into the 1st flow path 114 and the 2nd flow path 116 as an example of an air flow path by the partition wall 112 standingly arranged by the upper surface center side of the baseplate 102A. Further, the inflow duct portion 102 is covered with a curved wall 19 </ b> A (see FIG. 3) attached to the upper side, so that the air flows through the first flow path 114 and the second flow path 116. Yes. Details of the inflow duct portion 102 will be described later.

  Here, the image carrier 36 is divided into three regions, that is, an end region W1 on the back side (left side in the drawing) in the arrow Y direction that is the rotation axis direction, a central region W2, and an end region W3 on the near side (right side in the drawing) When divided into two, the first air inlet 118 formed at the end of the first flow path 114 on the shutter member 38 side is disposed opposite to the end region W1. Further, the second air inlet 124 formed at the end of the second channel 116 on the shutter member 38 side is disposed to face the central region W2. Further, the inflow duct portion 102 is not provided in a portion facing the end portion region W3, and a clearance provided between the shutter member 38 and the curved wall 19A is closed by a sealing member 120 described later. ing.

  As shown in FIG. 4, the sealing member 120 includes a first sealing member 120 </ b> A that faces the end region W <b> 1 and the central region W <b> 2 of the shutter member 38, and a second sealing member that faces the end region W <b> 3 of the shutter member 38. 120B. 120 A of 1st sealing members are affixed on the rib 132 (refer FIG. 8) which protruded below from the lower surface of 102 A of bottom plates of the 1st inlet 118 and the 2nd inlet 124 in the inflow duct part 102 with an adhesive agent. The second sealing member 120B is attached to the rib 134 (see FIG. 9) protruding downward from the lower surface of the curved wall 19A with an adhesive.

  As an example, the first sealing member 120A and the second sealing member 120B are formed of a rectangular parallelepiped polyurethane foam. The first sealing member 120A and the second sealing member 120B are disposed so as to be elastically deformed in contact with the end of the shutter member 38 when the shutter member 38 is in an open state.

  Next, the discharge duct member 140 and the introduction duct member 146 will be described.

  As shown in FIG. 4, the discharge duct member 140 is connected to the inflow duct portion 102 and the introduction duct member 146, and the discharge duct member 140 has a first flow path 114 of the introduction duct member 146 and the inflow duct portion 102. A first duct 142 to be connected and a second duct 144 to be connected to the second flow path 116 of the inflow duct portion 102 are formed.

  With this configuration, when the exhaust fan 106 is operated, the air that has flowed into the discharge duct member 140 from the introduction duct member 146 and the first flow path 114 is discharged to the outside through the first duct 142 and discharged from the second flow path 116. The air that has flowed into the duct member 140 is discharged to the outside through the second duct 144.

  Details of the discharge duct member 140 and the introduction duct member 146 will be described later.

  Next, a general flow of air in the image forming apparatus 10 will be described.

  As shown in FIG. 7, among the paths through which the air exhausted by the intake section 60 and the exhaust section 100 flows, the path A 1, as an example, around the image forming unit 30, the exposure device 40, and the toner cartridge 94. There are A2, A3, A4, and A5.

  The path A <b> 1 passes between the toner cartridge 94 and the exposure device 40 from the intake portion 60, passes through the lower side of the inflow duct portion 102 and the lower side of the shutter member 38, and passes the upper side of the shutter member 38. And a discharge path from the exhaust cover 108 to the outside of the casing 14A through the discharge duct member 140 (see FIG. 8). The route A1 merges with the routes A2 and A3.

  The path A2 passes from the gap 86 (see FIG. 1) of the casing 14A to the periphery of the fixing device 50 (see FIG. 1), passes between the fixing device 50 and the shutter member 38, and further passes through the first flow path 114. And a path that passes through the first duct 142 and is discharged to the outside of the housing 14A.

  The path A3 passes from the gap 86 (see FIG. 1) to the periphery of the fixing device 50 (see FIG. 1), between the fixing device 50 and the shutter member 38, and further to the second flow path 116 and the second duct 144. This is a path that passes through the casing 14A and passes through the casing 14A.

  Further, the path A4 is a path that passes from the intake section 60 to the periphery of the toner cartridge 94 and is discharged to the outside of the housing 14A through the exhaust section 100 or the periphery of the exhaust section 100.

  In addition, as shown in FIG. 12, the path A <b> 5 passes through the introduction duct member 146, the first duct 142 formed in the discharge duct member 140, and the air from the exhaust section 28 from the exhaust cover 108. It is a route discharged to the outside of the body 14A.

(Main part configuration)
Next, the inflow duct portion 102, the discharge duct member 140, the introduction duct member 146, and the like will be described.

  First, the inflow duct portion 102 will be described.

  As shown in FIGS. 10 and 11, a curved wall 19 </ b> A is attached above the inflow duct portion 102, and the upper portion of the inflow duct portion 102 is closed, whereby the first flow path 114 and the second flow path 116. The air flows inside.

  Specifically, the first flow path 114 includes a bottom plate 102A disposed on the lower side as viewed from the direction of air flow (arrow D shown in FIG. 10), and a side wall 102B that is erected from the bottom plate 102A and disposed on the left side. A partition wall 112 erected from the bottom plate 102A and disposed on the right side, a curved wall 19A disposed on the upper side, and a partition formed in a convex shape from the lower surface of the curved wall 19A so as to contact the upper end of the partition wall 112 It has a cylindrical shape surrounded by the ribs 20.

  Further, a first suction port 122 is formed on the side of the first flow path 114 opposite to the first suction port 118 (on the discharge duct member 140 side), and the first flow path 114 is L-shaped in plan view. ing.

  On the other hand, the second flow path 116 partitioned by the partition wall 112 and the partition rib 20 with respect to the first flow path 114 includes a bottom plate 102A disposed on the lower side and a partition disposed on the left side as viewed from the air flow direction. The wall 112 and the partition rib 20, the side wall 102C arranged on the right side, the side wall 66 formed in a convex shape from the lower surface of the curved wall 19A so as to come into contact with the upper end of the side wall 102C, and the curved wall 19A arranged on the upper side It has a cylindrical shape surrounded by.

That is, the first flow path 114 and the second flow path 116 are partitioned by the partition member 170 configured to include the partition wall 112 and the partition rib 20. Further, the second air inlet 124 in the second flow path 116. A second suction port 126 is formed on the opposite side (on the discharge duct member 140 side), and the second flow path 116 has an L-shape disposed outside the first flow path 114 in plan view. Yes.

  Thus, since the 2nd flow path 116 is made into the L shape arrange | positioned on the outer side of the 1st flow path 114, the flow path length of the 1st flow path 114 and the flow path length of the 2nd flow path 116 are as follows. Have been of different lengths.

  Moreover, the partition wall 112 and the partition rib 20 which partition the 1st flow path 114 and the 2nd flow path 116 are fixed to the baseplate 102A or the curved wall 19A by inserting a base end part into the groove part which is not shown in figure. ing. And the position of the partition wall 112 and the partition rib 20 is movable by changing the insertion position.

  Next, the discharge duct member 140 and the introduction duct member 146 will be described.

  As shown in FIG. 5, the first duct 142 formed in the discharge duct member 140 and into which the air flowing through the first flow path 114 (see FIG. 4) flows is in the direction in which the air flows (the direction of the arrow F shown in FIG. 5). ), The bottom plate 148 disposed on the lower side, the side wall 152 erected on the upper left end of the bottom plate 148, the partition wall 154 erected on the center of the upper surface of the bottom plate 148, and the curved surface disposed on the upper side. It has a cylindrical shape surrounded by an upper wall 156 that is inclined at the same inclination angle as the wall 19A (see FIG. 3). For this reason, in the first duct 142, the partition wall 154 is higher than the side wall 152 in accordance with the inclination of the curved wall 19A.

  On the other hand, the second duct 144 formed in the discharge duct member 140 and into which the air that has flowed through the second flow path 116 (see FIG. 4) flows is a bottom plate that is disposed on the lower side when viewed from the direction in which the air flows. 148, a side wall 158 erected on the right end of the upper surface of the bottom plate 148, a partition wall 154 disposed on the left side, and a top wall 156 disposed on the upper side. Since the upper wall 156 is inclined according to the curved wall 19A, in the second duct 144, the side wall 158 is higher than the partition wall 154 in accordance with the inclination of the curved wall 19A.

  Further, as shown in FIGS. 15 and 16, a rectangular opening 174 is formed on the upper surface of the discharge duct member 140, and a flow path is formed through the opening 174 so that the introduction duct is formed. A member 146 is detachably attached to the discharge duct member 140.

  The introduction duct member 146 includes a cylindrical portion 162 extending in the arrow Z direction from the upper surface of the discharge duct member 140, and an opening portion 164 opened in a vertically long rectangular shape toward the near side in the arrow Y direction at the upper end of the cylindrical portion 162. It is comprised including.

  A plurality of air inlets 166 (see FIG. 3) formed in the side wall 17 are arranged on the front side of the opening 164 in the arrow Y direction.

  Then, the air guided from the opening 164 of the introduction duct member 146 toward the discharge duct member 140 flows into the discharge duct member 140 through the opening 174, and enters the discharge duct member 140 from the first duct 142. It is designed to be discharged to the outside after merging with the air that has flowed into it.

  Here, in the discharge duct member 140, the air that flows into the discharge duct member 140 from the second duct 144 does not join the air that flows into the discharge duct member 140 from the introduction duct member 146 and the first duct 142. In addition, a plate-like partition member 176 (see FIG. 14) is provided.

  In addition, the arrangement of the partition member 176 is such that when the exhaust fan 106 is operated, the amount of air that must be guided from the introduction duct member 146 and the first flow path 114 into the discharge duct member 140 and the second flow path 116. It is determined in consideration of the amount of air that must be guided into the discharge duct member 140.

  When the exhaust fan 106 is operated, the air guided into the exhaust duct member 140 from the introduction duct member 146, the first flow path 114, and the second flow path 116 is converted into the air gas provided in the exhaust cover 108. The gas filter 172 for reduction is discharged to the outside.

  On the other hand, as shown in FIG. 17, the discharge duct member 140 can be replaced with a discharge duct member 180 having no opening formed on the upper surface, and when suction of gas from the discharge portion 28 is unnecessary. In this case, the introduction duct member 146 is abolished and replaced with a discharge duct member 180 having no opening on the upper surface. At this time, the gas filter 172 is also unnecessary (removed).

(Function)
Next, the flow of air that flows into the discharge duct member 140 from the inflow duct portion 102 or the introduction duct member 146 and is discharged to the outside from the exhaust port 108A of the exhaust cover 108 will be described.

  As shown in FIG. 12, when the intake fan 62 and the exhaust fan 106 are operated, the first intake port 118 and the second flow channel 116 of the first flow path 114 provided in the inflow duct portion 102 through the discharge duct member 140. Suction force is generated at the second air inlet 124 and the opening 164 of the introduction duct member 146.

  Then, the air (refer to FIGS. 7 and 8) flowing through the path A1 and the path A2 passes between the fixing device 50 and the image forming unit 30 and flows into the first flow path 114 from the first air inlet 118. Then, it flows into the first duct 142 of the discharge duct member 140 through the first suction port 122.

  The air flowing into the first duct 142 passes through the exhaust fan 106, passes through the gas filter 172, and is discharged to the outside from the exhaust port 108 </ b> A formed in the exhaust cover 108.

  That is, as shown in FIG. 4, the air in the end region W <b> 1 whose temperature has increased by the heating roll 52 (see FIG. 1) is discharged to the outside through the first flow path 114.

  On the other hand, as shown in FIG. 12, the air (see FIGS. 7 and 8) flowing through the path A3 passes between the fixing device 50 and the image forming unit 30 and passes through the second air inlet 124 to the second. It flows into the flow path 116 and flows into the second duct 144 of the discharge duct member 140 through the second suction port 126.

  The air flowing into the second duct 144 passes through the exhaust fan 106, passes through the gas filter 172, and is discharged to the outside from the exhaust port 108 </ b> A formed in the exhaust cover 108.

  That is, as shown in FIG. 4, the air in the central region W <b> 2 and the end region W <b> 3 whose temperature has increased by the heating roll 52 (see FIG. 1) is discharged to the outside through the second flow path 116.

  Further, the air in the discharge portion 28 from which the sheet member P is discharged passes through the plurality of air inlets 166 formed in the side wall 17 by the suction force generated in the opening portion 164 of the introduction duct member 146 to the introduction duct member 146. Inflow. The air that has flowed into the introduction duct member 146 flows into the discharge duct member 140 through an opening 174 (see FIG. 16) provided on the upper surface of the discharge duct member 140, and enters the discharge duct member 140 from the first duct 142. It merges with the air that flows into. Then, after merging, the air passes through the exhaust fan 106, passes through the gas filter 172, and is discharged to the outside from the exhaust port 108 </ b> A formed in the exhaust cover 108.

  As described above, simply by operating the exhaust fan 106 and the intake fan 62, the air in the vicinity of the discharge portion 28 and the air in the vicinity of the fixing device 50 are discharged to the outside through the introduction duct member 146 or the inflow duct portion 102.

  That is, it is not necessary to provide a dedicated fan for discharging the gas generated from the sheet member P discharged to the discharge portion 28 to the outside through the introduction duct member 146 through the gas filter 172. For this reason, the gas generated from the sheet member P after image formation is removed from the discharge portion 28 where the sheet member P is discharged with an inexpensive configuration.

  That is, in the case of so-called in-cylinder discharge in which the sheet member P is discharged between the image reading unit 16 and the image forming unit 58, the gas generated from the sheet member P may be particularly worrisome. In addition, it is possible to take gas countermeasures with an inexpensive configuration.

  Further, as described above, the arrangement position of the partition member 176 provided inside the discharge duct member 140 is the amount of air that has to be guided into the discharge duct member 140 from the introduction duct member 146 and the first flow path 114, and It is determined in consideration of the amount of air that must be guided from the two flow paths 116 into the discharge duct member 140. Thus, by providing the partition member 176, a desired amount of air is guided from the introduction duct member 146 and the inflow duct portion 102 into the discharge duct member 140.

  Further, as described above, the discharge duct member 140 (see FIG. 16) in which the opening 174 is formed can be replaced with the discharge duct member 180 (see FIG. 17) in which the opening is not formed, so that no gas countermeasure is required. If this is the case, the number of parts is reduced. On the other hand, when the discharge duct member 180 in which the opening is not formed is initially mounted, the discharge duct member 180 is replaced with the discharge duct member 140 in which the opening 174 is formed, and the introduction duct member 146 is added. Thus, gas countermeasures are taken with a simple configuration.

  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, when no countermeasure against gas is required, the discharge duct member 140 in which the opening 174 is formed is replaced with the discharge duct member 180 in which the opening is not formed, but the opening 174 in the discharge duct member 140 is replaced. May be closed with a lid member.

  Although not particularly mentioned in the above embodiment, the exhaust fan 106 is driven when the introduction duct member 146 is provided and measures against gas are taken, and when the introduction duct member 146 is abolished and measures against gas are not taken. You may change the power.

DESCRIPTION OF SYMBOLS 10 Image forming apparatus 16 Image reading part 19 Upper wall (stacking part)
36 Image carrier 40 Exposure apparatus (exposure unit)
49 Transfer roll (transfer section)
50 Fixing device (fixing part)
52 Heating roll (heating rotating body)
54 Pressurizing roll (Pressurizing rotating body)
58 Image forming section 102 Inflow duct section (guide section)
106 Exhaust fan (air flow generation means)
118 First inlet (inlet)
124 Second inlet (inlet)
140 Discharge duct member (discharge part)
146 Introduction duct member (introduction part)
172 Gas filter (purification member)
174 Opening 176 Partition member 180 Discharge duct member

Claims (4)

An image forming section having an image holding body for holding a toner image, and a fixing section for fixing the toner image on a recording medium;
A guide unit for guiding air sucked from between the image carrier and the fixing unit;
A stacking unit that is provided above the image forming unit and on which the recording medium that has passed through the fixing unit is stacked;
An image reading unit provided on an upper portion of the stacking unit for reading an image of a document;
A detachable introduction unit for guiding air between the stacking unit and the image reading unit;
The guide part and the introduction part are detachably connected, and a discharge part for discharging the air guided or guided from the guide part and the introduction part to the outside,
An air flow generating means connected to the discharge unit, for guiding or guiding air from the guide unit and the introduction unit to the discharge unit, and generating an air flow for discharging the guided or guided air to the outside;
With
As the discharge part, it is possible to replace the one having an opening for joining the air introduced from the introduction part with the air guided by the guide part and the one not having the opening part. Alternatively, the image forming apparatus is capable of closing the opening.   A partition member that is provided in the discharge part and that partitions an air flow path that is guided from the introduction part to the discharge part and at least a part of the air flow path that is guided from the guide part to the discharge part. Item 2. The image forming apparatus according to Item 1. The partition member is arranged so that an air amount guided from the guide portion to the discharge portion and an air amount guided from the introduction portion to the discharge portion are in a predetermined ratio. The image forming apparatus according to 2.   The image forming apparatus according to claim 1, wherein a purification member that purifies air discharged from the discharge unit to the outside is detachably provided.

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