JP2014089393A - Image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus in which a conductive gear plate can be grounded with a simple configuration.SOLUTION: The image forming apparatus includes: a side frame 110 supporting an image forming part; a gear mechanism 140 connected to the image forming part; a conductive gear plate 300 disposed in a position where the conductive gear plate 300 holds the gear mechanism 140 between the conductive gear plate 300 and the side frame 110 and supporting the gear mechanism 140; a paper feed roller; a placing table on which a recording sheet is placed and which can move the recording sheet toward the paper feed roller; an uplifting member 210 having conductivity and moving the placing table toward the paper feed roller; and a tension spring 220 engaged with the uplifting member 210 and biasing the uplifting member 210 so that the placing table approaches the paper feed roller. The uplifting member 210 is electrically grounded, and the tension spring 220 has conductivity and is engaged with an engagement part 320 provided in the gear plate 300.

Description

  The present invention relates to an image forming apparatus including a gear plate.

  2. Description of the Related Art Conventionally, there is known an image forming apparatus including a frame that supports an image forming unit, a gear, and a gear plate that holds the gear between the frame and supports the gear (see Patent Document 1). In such an image forming apparatus, in general, a metal gear plate may be used in order to reduce an error in the distance between the axes of the gears.

JP 2008-15077 A

  By the way, since the metal gear plate has conductivity, it needs to be electrically grounded to remove static electricity accumulated on the surface of the gear plate. However, in the case of an image forming apparatus provided with a resin frame, the gear plate cannot be grounded via the frame. Therefore, it is necessary to newly add a grounding member, and the configuration of the image forming apparatus is complicated. There is a risk of becoming.

  Accordingly, an object of the present invention is to provide an image forming apparatus capable of grounding a conductive gear plate with a simple configuration.

In order to achieve the above object, an image forming apparatus of the present invention is arranged at a position where a gear is sandwiched between a frame that supports the image forming unit, a gear that is connected to the image forming unit, and the frame, and supports the gear. An electrically conductive gear plate, a paper feed roller, a placement table on which a recording sheet is placed, the recording sheet being movable toward the paper feed roller, and a conductive material, the placement table facing the paper feed roller And a urging member that engages with the lifting member and urges the lifting member to bring the mounting table closer to the paper feed roller.
The lifting member is electrically grounded, and the biasing member is electrically conductive and is engaged with an engaging portion provided on the gear plate.

  According to such a configuration, since the urging member having conductivity is engaged with the engaging portion provided on the gear plate, the lifting member that is electrically grounded via the urging member. Can be conducted. Therefore, the gear plate can be grounded with a simple configuration.

  In the above-described configuration, the gear plate has a recess formed in its contour so as to be recessed on the side opposite to the lifting member side, and the engaging portion is provided on one side of the pair of side portions sandwiching the recess. Can be configured.

  According to such a configuration, an urging force can be applied to the lifting member with a simple configuration while preventing interference between the gear plate and the lifting member.

  The above-described image forming apparatus includes a conductive roller having a conductive shaft and supported by a member different from the gear plate, and a conductive member having conductivity and electrically connecting the shaft and the gear plate. It can be configured.

  According to such a configuration, since the shaft of the transport roller is electrically connected to the gear plate via the conductive member, the charge accumulated on the shaft can be removed.

  The image forming apparatus including the above-described transport roller and the conductive member has conductivity and includes a bearing that rotatably supports the shaft, and the gear plate is positioned on the opposite side of the engaging portion with respect to the lifting member. The conducting member may be configured to connect the bearing and the second engaging portion.

  In the configuration including the above-described conveyance roller and the conductive member, the gear plate may have a notch, and the conveyance roller may be in a position overlapping the notch when viewed from the axial direction of the shaft.

  According to such a configuration, since the transport roller is at a position overlapping the notch portion when viewed from the axial direction, the transport roller gear can be easily assembled from the axial direction.

In the above-described configuration, the frame is disposed on one side with the image forming unit interposed therebetween, and the first resin frame that fixes the gear plate and the second resin frame disposed on the other side with the image forming unit interposed therebetween. And a frame.
In this configuration, the image forming apparatus connects the first frame and the second frame, the conductive plate connected to the lifting member, and the ground unit fixed to the second frame, covering the power supply board, and electrically grounded. The conductive plate can be configured to be grounded by being connected to the cover member.

  According to such a configuration, since the conductive plate is grounded by connecting to the power supply substrate, the lifting member (gear plate) can be grounded with a simple configuration.

  In the above-described configuration, the lifting member may have a conductive shaft member, and the shaft member and the conductive plate may be electrically connected.

  According to such a configuration, the lifting member and the conductive plate can be easily conducted through the shaft member.

  The above-described image forming apparatus may further include a conductive elastic member for connecting the conductive plate and the lifting member to electrically connect the conductive plate and the lifting member.

  According to such a configuration, the lifting member and the conductive plate can be easily conducted through the conductive elastic member.

  The image forming apparatus described above is provided in the image forming unit by connecting the driving source provided in the first frame, the belt transmission mechanism that transmits the driving force of the driving source to the gear, and the first frame and the second frame. A conductive scanner plate that supports the scanner and a conductive drive source support member that supports the drive source. The scanner and the drive source support member are grounded by connecting to the cover member via the scanner plate. It can be configured.

  According to such a configuration, the scanner and the drive source support member can be grounded via the scanner plate.

  According to the present invention, since the biasing member having conductivity is engaged with the engaging portion provided on the gear plate, the gear plate is electrically connected to the lifting member electrically grounded via the biasing member. Can be made. Therefore, the gear plate can be grounded with a simple configuration.

It is sectional drawing of the laser printer which concerns on embodiment of this invention. It is the figure which looked at the gear plate arrange | positioned at the laser printer from the left side. It is AA sectional drawing of FIG. It is the perspective view (a) which shows a conductive plate and a lifting member, and the enlarged view (b) which shows the part by which the elastic member is arrange | positioned. It is the figure which looked at the 2nd frame from the right side.

  Next, an embodiment of the present invention will be described in detail with reference to the drawings as appropriate. In the following description, first, the overall configuration of a laser printer according to an embodiment of the present invention will be described, and then the features of the present invention will be described in detail.

  In the following description, the direction will be described with reference to the user when using the laser printer. That is, in FIG. 1, the left side toward the paper surface is “front side”, the right side toward the paper surface is “rear side”, the rear side toward the paper surface is “left side”, and the front side toward the paper surface is “right side”. To do. In addition, the vertical direction toward the page is defined as the “vertical direction”.

<Schematic configuration of laser printer>
As shown in FIG. 1, the laser printer 1 includes an apparatus main body 2, a feeder unit 3 for feeding a sheet P as an example of a recording sheet, and an image forming unit 4 for forming an image on the sheet P. It has.

  The apparatus main body 2 includes a housing 100, a top cover 22, and a front cover 23. The casing 100 has an opening 21 </ b> A for attaching / detaching a process cartridge 6 to be described later at an upper portion thereof, and an insertion port 21 </ b> B for inserting the paper P at the front portion thereof.

  Specifically, the top cover 22 is provided with a pivot shaft 22A of the top cover 22 provided on the upper rear side of the apparatus main body 2, and pivots upward about the pivot shaft 22A. The top cover 22 is a cover that covers from the rear end portion to the front end portion of the apparatus main body 2, and the upper side of the apparatus main body 2 is opened by rotating upward.

  The front cover 23 is provided with a rotation shaft 23A of the front cover 23 provided at a lower portion on the front side of the apparatus main body 2, and rotates forward about the rotation shaft 23A. In FIG. 1, the front cover 23 indicated by a two-dot chain line is in a state where the front side of the apparatus main body 2 is closed, and the front cover 23 indicated by a solid line is in a state where the front side of the apparatus main body 2 is opened. The configuration of the housing 100 will be described later.

  The feeder unit 3 is located at the lower part of the apparatus main body 2 and is fed with a paper feed tray 31 for placing paper P, a paper feed mechanism 32 for feeding paper P on the paper feed tray 31, and A conveyance roller 33 that conveys the sheet P toward the image forming unit 4 is provided.

  The paper feed tray 31 includes a mounting table 31 </ b> A disposed at the lower part of the apparatus main body 2 and the above-described front cover 23. Specifically, the front cover 23 can swing back and forth around the lower end portion, and constitutes a part of the paper feed tray 31 in a state of being tilted forward.

  The placement table 31A is a plate-like member on which the paper P is placed, and is configured to be able to move the paper P placed on the upper surface thereof toward a paper feed roller 32A described later. Further, the placing table 31A is moved to a lifting member 210, which will be described later, so that the rear end portion can move to a position where the paper P can be fed to the paper feeding roller 32A.

  The paper feed mechanism 32 mainly includes a paper feed roller 32A, a separation roller 32B, and a separation pad 32C. The paper feed roller 32A is arranged on the upstream side of the separation roller 32B in the transport direction of the paper P and on the rear end of the placement table 31A. The separation roller 32B is disposed to face the separation pad 32C.

  As shown in FIG. 3, the transport roller 33 has a transport roller shaft 34 as an example of a metal (conductive) shaft. The transport roller shaft 34 is supported by a pair of bearings 240 provided on a first frame 111 and a second frame 112 described later. That is, the transport roller 33 is supported by a member different from the gear plate 300 described later.

The pair of bearings 240 is a member formed of a conductive resin for rotatably supporting the transport roller shaft 34 and supported by the shaft support portion 112D of the second frame 112 and the shaft support portion 111D of the first frame 111. Has been.
The left bearing 240 is provided with a conductive hook portion 241 with which a conductive member 250 described later is engaged.

  Returning to FIG. 1, in the feeder unit 3, the front cover 23 is tilted forward to form the paper feed tray 31, and then the paper P is placed on the paper feed tray 31. Then, when the paper feed roller 32A comes into contact with the paper P placed on the paper feed tray 31 and rotates, the paper P placed on the paper feed tray 31 is sent to the separation roller 32B and sent out. The sheets P are separated one by one between the separation roller 32B and the separation pad 32C. Then, the paper P passes through the conveyance roller 33 and is supplied to the image forming unit 4.

  The image forming unit 4 includes a scanner unit 5 as an example of a scanner, a process cartridge 6, and a fixing device 7.

  The scanner unit 5 is provided on the front side in the apparatus body 2 and includes a laser light emitting unit, a polygon mirror, a lens, a reflecting mirror, and the like (not shown). In the scanner unit 5, a laser beam is irradiated on the surface of a photosensitive drum 61 described later by high-speed scanning.

  The process cartridge 6 is located in the vicinity of the central portion on the rear side of the apparatus main body 2 and is provided on the upper portion of the paper feed mechanism 32. The process cartridge 6 is detachable from the housing 100 toward the upper front side through the opening 21A, and includes a photosensitive drum 61, a transfer roller 62 that transfers the toner image on the photosensitive drum 61 onto the paper P, and a publicly known not shown. A charger, a developing roller, a layer thickness regulating blade, a toner storage chamber, and the like.

  In the process cartridge 6, the surface of the rotating photosensitive drum 61 is uniformly charged by a charger and then exposed by high-speed scanning of a laser beam from the scanner unit 5. As a result, the potential of the exposed portion is lowered, and an electrostatic latent image based on the image data is formed on the surface of the photosensitive drum 61.

  Next, the toner in the toner storage chamber is supplied to the electrostatic latent image on the photosensitive drum 61 by the developing roller, and a toner image is formed on the surface of the photosensitive drum 61. Thereafter, the paper P is transported between the photosensitive drum 61 and the transfer roller 62, whereby the toner image carried on the surface of the photosensitive drum 61 is transferred onto the paper P.

  The fixing device 7 is located on the upper rear side of the apparatus main body 2 and is disposed above the process cartridge 6. The fixing device 7 mainly includes a heating roller 71 and a pressure roller 72.

The heating roller 71 is a member that heats the paper P, and a heat source (not shown) such as a halogen lamp is provided inside the heating roller 71.
The pressure roller 72 is a member that sandwiches and conveys the paper P with the heating roller 71 and is provided obliquely above the heating roller 71.

  In the fixing device 7 configured as described above, the toner transferred onto the paper P is thermally fixed while the paper P passes between the heating roller 71 and the pressure roller 72. The paper P thermally fixed by the fixing device 7 is conveyed to a discharge roller 8 disposed on the downstream side of the fixing device 7, and is discharged from the discharge roller 8 onto a discharge tray 9.

<Detailed configuration of housing>
Next, a detailed configuration of the casing 100 that constitutes the apparatus main body 2 will be described.
The housing 100 includes a side frame 110 as an example of a frame, as shown in FIGS.

  The side frame 110 is made of resin and supports the image forming unit 4. The side frame 110 includes a first frame 111 disposed on the left side (one side) with the image forming unit 4 interposed therebetween, and a second frame 112 disposed on the right side (the other side).

  The first frame 111 mainly includes a motor 120 as an example of a drive source, a belt transmission mechanism 130, a gear mechanism 140, and a gear plate 300.

  The motor 120 is a drive source for rotationally driving the photosensitive drum 61 and the like, and is provided on the side facing the second frame 112 on the side wall 111A of the first frame 111 via a motor support member 200 described later. The motor 120 is disposed at the front portion of the first frame 111, and a gear 121 is provided on an output shaft 122 (see FIG. 3) protruding outside the side wall 111A.

The belt transmission mechanism 130 is a mechanism that transmits the driving force of the motor 120 to the gear mechanism 140, and includes a driving pulley 131, a belt 132, and a driven pulley 133.
The drive pulley 131 is disposed at a position where it can mesh with the gear 121, and includes a gear portion 131A that meshes with the gear 121 and a pulley portion 131B that is configured integrally with the gear portion 131A.

The driven pulley 133 is disposed behind the first frame 111, and includes a gear part 133A that transmits a driving force to the gear mechanism 140, and a pulley part 133B that is configured integrally with the gear part 133A.
The belt 132 is insulative and is stretched between the pulley portion 131 </ b> B of the driving pulley 131 and the pulley portion 133 </ b> B of the driven pulley 133, and transmits the rotational driving force of the driving pulley 131 to the driven pulley 133.

  The gear mechanism 140 is a mechanism that transmits the driving force transmitted from the driven pulley 133 to the photosensitive drum 61 and the like. The gear mechanism 140 includes a drum gear 141, a discharge gear mechanism 142, a transport gear mechanism 143, and a paper feed gear mechanism 144.

The drum gear 141 is a gear that rotationally drives the photosensitive drum 61, and is disposed behind the driven pulley 133 so as to mesh with the gear portion 133 </ b> A.
The discharge gear mechanism 142 is a mechanism that transmits driving force to the discharge roller 8 and is disposed above the driven pulley 133.

  The discharge gear mechanism 142 includes a discharge transmission gear 142A that transmits a driving force by meshing with the gear portion 133A of the driven pulley 133, and a first discharge intermediate gear 142B that transmits a driving force by meshing with the discharge transmission gear 142A. The second discharge intermediate gear 142C that transmits the driving force by meshing with the first discharge intermediate gear 142B and the discharge roller gear 142D that transmits the driving force by engaging with the second discharge intermediate gear 142C. .

  The transport gear mechanism 143 is a mechanism that transmits a driving force to the transport roller 33, and is disposed obliquely below the driven pulley 133. The transport gear mechanism 143 is disposed behind the transmission gear 143A meshing with the gear portion 133A of the driven pulley 133, the first intermediate gear 143B disposed obliquely above the rear of the transmission gear 143A, and the first intermediate gear 143B. Conveying roller gear 145.

  The conveyance roller gear 145 is a gear that rotationally drives the conveyance roller 33, and the driving force is transmitted by meshing with the first intermediate gear 143B that meshes with the transmission gear 143A. Further, the transport roller gear 145 is provided on the transport roller shaft 34 of the transport roller 33 (see FIG. 3).

  The paper feed gear mechanism 144 is a mechanism that transmits a driving force to the paper feed roller 32 </ b> A and the separation roller 32 </ b> B, and is disposed below the transport gear mechanism 143. The paper feed gear mechanism 144 includes a second intermediate gear 146 disposed obliquely below the transmission gear 143A, a paper feed roller gear 144A disposed obliquely below the second intermediate gear 146, and a paper feed roller gear 144A. It is comprised from the separation roller gear 144B arrange | positioned in back diagonally upward.

  The second intermediate gear 146 includes a gear portion 146A that can mesh with the transmission gear 143A and the paper feed roller gear 144A, and a missing tooth portion 146B that cannot mesh with the transmission gear 143A and the paper feed roller gear 144A. Thus, the transmission gear 143A and the gear portion 146A mesh with each other, so that the driving force is transmitted to the paper feed roller gear 144A and the separation roller gear 144B.

The paper feed roller gear 144A is a gear that rotationally drives the paper feed roller 32A, and is engaged with the gear portion 146A of the second intermediate gear 146 to transmit a driving force.
The separation roller gear 144B is a gear that rotationally drives the separation roller 32B, and a driving force is transmitted by meshing with the paper feed roller gear 144A.

  The gear plate 300 is a metal (conductive) member that supports the gear mechanism 140, and is disposed at a position sandwiching the gear mechanism 140 with the first frame 111. The configuration of the gear plate 300 will be described later.

  As shown in FIG. 3, the housing 100 includes a conductive plate 150, a power supply substrate 160, a cover member 170, a metal member 180, a scanner plate 190, and a motor support member as an example of a drive source support member. 200.

  The conductive plate 150 is formed of, for example, a metal (conductive) plate such as a sheet metal, and connects the first frame 111 and the first frame 111 so as to connect the bottom of the first frame 111 and the bottom of the second frame 112. Two frames 112 are fixed. In addition, the conductive plate 150 is disposed slightly rearward of the center portion of the side frame 110 in the front-rear direction (see FIG. 2).

  As shown in FIG. 4A, the conductive plate 150 is provided with a pair of holes 150A and 150B at the left end and the right end, respectively, at the front and rear. The holes 150A and 150B are holes for passing a screw penetrating in the vertical direction. The left end portion and the right end portion of the conductive plate 150 are screwed into screw holes (not shown) provided in the first frame 111 and the second frame 112 through screws (not shown) in the holes 150A and 150B. 112 is fixed.

  The conductive plate 150 is provided with a shaft support portion 151, a latching portion 153, and a fixing portion 154.

  The shaft support portion 151 is a portion that supports the lifting member 210 and is provided in a pair at a position on the right side and a left end portion with respect to the central portion in the left-right direction of the conductive plate 150. Further, the shaft support portion 151 is formed by raising a part of the conductive plate 150.

  The latching portion 153 is a portion that latches an elastic member 230 described later, and is provided at the right position of the left shaft support portion 151. Further, as shown in FIG. 4B, the latching portion 153 is provided by cutting and raising a part of the conductive plate 150, and is formed to be bent forward after protruding upward.

  Returning to FIG. 4A, the fixing portion 154 is a portion for fixing a cover member 170 to be described later, and is formed so as to protrude upward from the right end portion of the conductive plate 150. The fixing portion 154 is provided with a fixing hole 154A penetrating therethrough. The fixing portion 154 is disposed at a position where it enters the outside of the side wall 112A of the second frame 112 (see FIG. 3).

A lifting member 210 is supported on the conductive plate 150 so as to be rotatable up and down.
The lifting member 210 is a member that moves the mounting table 31A toward the paper feed roller 32A, and is formed of a metal member such as a sheet metal, for example.

The lifting member 210 has a contact portion 212 that is a portion that comes into contact with the mounting table 31 </ b> A, and a latching hole 217 that is disposed to face the latching portion 153.
The retaining hole 217 is a portion that latches the elastic member 230.

  The elastic member 230 is, for example, a conductive coil spring as shown in FIG. 4B, and the rear end 231 is hooked on the hook hole 217 and the front end 232 is hooked on the hook 153. It has been stopped. As described above, the lifting member 210 and the conductive plate 150 can be easily conducted through the elastic member 230.

  Returning to FIG. 4A, the lifting member 210 includes a first rotating shaft 211, a second rotating shaft 213, and a spring support portion 214 as an example of a shaft member.

  The first rotation shaft 211 is made of a conductive resin, and includes a shaft portion 211A that is supported by the shaft support portion 151 on the right side of the conductive plate 150, and a fixing portion 211B that is fixed to the lifting member 210. ing.

  The second rotation shaft 213 is made of a conductive resin and is supported by the left shaft support portion 151 of the conductive plate 150. As described above, the lifting member 210 and the conductive plate 150 can be easily conducted through the first rotating shaft 211 and the second rotating shaft 213.

  The spring support portion 214 is formed in an approximately L shape extending upward and rearward (see FIG. 2), and is configured integrally with the second rotation shaft 213. The spring support portion 214 has a hook portion 215 for engaging the tension spring 220 at the upper end of the portion extending upward.

  The tension spring 220 is a member that urges the lifting member 210 so that the mounting table 31A approaches the paper feed roller 32A, and has electrical conductivity. The tension spring 220 has a rear end portion 221 engaged with the hook portion 215 and a front end portion 222 engaged with the gear plate 300.

  As shown in FIG. 3, the power supply board 160 is a circuit board that supplies electric power to the inside of the laser printer 1, and is disposed under the second frame 112.

  The cover member 170 is a conductive member that covers the power supply substrate 160 and includes a cover portion 171 and a lid portion 172.

The cover portion 171 is formed in a box shape opened on the right side and surrounds the power supply substrate 160. As shown in FIG. 5, the cover portion 171 is provided with a ground terminal 270 as an example of a ground portion connected to the ground wire of the power cable.
The lid portion 172 is disposed so as to close the opened portion of the cover portion 171 and is electrically connected to the cover portion 171. Further, the power supply substrate 160 is fixed to the lid portion 172 by screws 172A, and is electrically connected to the ground of the power supply substrate 160.

  As shown in FIG. 3, mounting holes 173 and 174 for fixing the cover member 170 are provided at the lower end and the upper end on the bottom surface side of the cover portion 171. The fixing hole 154 </ b> A of the conductive plate 150 is fixed with the screw 113 at the fixing hole 173, and the fixing hole 112 </ b> B provided with the mounting hole 181 of the metal member 180 is fixed with the screw 114 at the fixing hole 174.

  The metal member 180 is made of, for example, sheet metal, and mounting holes 181 and 182 provided at the lower end and the upper end are fixed by screws 114 and 115 at fixing holes 112B and 112C provided in the second frame 112. ing.

  The scanner plate 190 is a conductive member that supports the scanner unit 5 and is electrically connected to the scanner unit 5. Further, the scanner plate 190 is formed to extend in the left-right direction so as to connect the first frame 111 and the second frame 112, and a pair of fixing portions extending downward from the both ends at the left and right ends thereof. 191 is provided.

  Each of the pair of fixing portions 191 is provided with a mounting hole 191A, the right fixing portion 191 is fixed to the second frame 112 with a screw 115, and the left fixing portion 191 is first together with a motor support member 200 described later. The fixing hole 111 </ b> B provided in the frame 111 is fixed to the first frame 111 with a screw 116. Thereby, the scanner plate 190 and the metal member 180 are electrically connected via the screw 115, and the scanner plate 190 and the motor support member 200 are also electrically connected.

  The motor support member 200 is a metal (conductive) member that supports the motor 120, and the mounting holes 201 and 202 provided in the lower end and the upper end are fixed holes 111 </ b> B and 111 </ b> C provided in the first frame 111. Are fixed by screws 116 and 117.

[Configuration of gear plate]
Next, a detailed configuration of the gear plate 300 will be described.
As shown in FIG. 2, the gear plate 300 is fixed at a position substantially corresponding to the second half of the first frame 111, and includes a pair of side portions 311 </ b> A and 311 </ b> B, a concave portion 310, an engaging portion 320, and a second engaging portion. It has a mating part 330 and a notch part 340.

  The side portion 311A is formed to extend forward from the front end of the lower end portion of the gear plate 300, and the side portion 311B is formed to extend rearward from the vicinity of the center of the lower end portion of the gear plate 300. And the side part 311A, 311B is extended and formed in the front and back, and the part dented on the upper side (opposite side to the lifting member 210 side) formed between them is the recessed part 310. FIG. The recess 310 is disposed at a position corresponding to the lifting member 210.

  The engaging portion 320 is provided at the lower end of the front side (one side) 311A, that is, in front of the lifting member 210, and has a hook shape that opens to the front side. By engaging the engaging portion 320 with the front end portion 222 of the tension spring 220, the gear plate 300 is electrically connected to the lifting member 210 via the tension spring 220.

  The second engaging portion 330 is provided on the rear end upper portion of the rear side portion 311B. As shown in FIG. 3, the second engaging portion 330 is formed in a hook shape that protrudes to the right side and then extends downward, and the conducting member 250 is engaged therewith.

  The conduction member 250 is, for example, a conductive coil spring, and the upper end portion 251 is engaged with the hook portion 241 and the lower end portion 252 is engaged with the second engagement portion 330. Thus, the gear plate 300 is electrically connected to the transport roller shaft 34 via the conductive member 250 and the bearing 240 by engaging the lower end portion 252 of the conductive member 250 with the second engaging portion 330.

  The notch 340 is formed to be recessed forward in the lower part of the rear end of the gear plate 300 and above the side part 311B. Further, the transport roller 33 is disposed at a position overlapping the notch 340 when viewed from the left-right direction (the axial direction of the transport roller shaft 34). Here, for example, in the case of a configuration not having the notch 340, the transport roller 33 and the transport roller gear 145 cannot be assembled unless the gear plate 300 is assembled to the first frame 111. However, in this embodiment, since the gear plate 300 has the notch portion 340, the transport roller 33 and the transport roller gear 145 can be assembled from the position of the notch portion 340 even after the gear plate 300 is assembled to the first frame 111. . For this reason, the degree of freedom of the assembly work can be improved.

  The laser printer 1 configured as described above has a configuration in which the gear plate 300 cannot be grounded through the first frame 111 because the first frame 111 that fixes the gear plate 300 is made of resin. However, in the laser printer 1 of the present embodiment, the gear plate 300 is electrically connected to the lifting member 210 via the tension spring 220 as shown in FIG. As shown in FIG. 4A, the lifting member 210 is electrically connected to the conductive plate 150 via the first rotating shaft 211, the second rotating shaft 213, and the elastic member 230. As shown in FIGS. 3 and 5, the conductive plate 150 is electrically connected to the cover portion 171, and the cover portion 171 is electrically connected to the ground terminal 270.

  That is, the gear plate 300, the lifting member 210, and the conductive plate 150 are electrically connected to the ground terminal 270 via the cover portion 171 and are electrically grounded. Therefore, the gear plate 300 can be grounded with a simple configuration.

  Further, since the transport roller shaft 34 is made of metal (conductive), the charge on the surface of the paper P transported by the transport roller 33 is easily accumulated. However, in the laser printer 1 of this embodiment, the bearing 240 of the transport roller shaft 34 and the gear plate 300 are electrically connected by the conductive member 250.

  That is, the conveyance roller shaft 34 is electrically connected to the ground terminal 270 via the bearing 240 and the gear plate 300 and is electrically grounded. Therefore, even when charges accumulated on the surface of the paper P are accumulated on the conveyance roller shaft 34, the charges accumulated on the conveyance roller shaft 34 can be removed via the gear plate 300.

  As shown in FIG. 2, the motor support member 200 is configured not to be electrically connected to the gear plate 300 because the belt 132 of the belt transmission mechanism 130 is insulative. However, in the laser printer 1 of the present embodiment, the motor support member 200 is electrically connected to the scanner plate 190 as shown in FIG. The scanner plate 190 is electrically connected to the metal member 180 via the screw 115, and the metal member 180 is electrically connected to the cover portion 171.

  That is, the motor support member 200, the scanner plate 190, and the metal member 180 are electrically connected to the ground terminal 270 via the cover portion 171 and are electrically grounded. Therefore, the motor support member 200 can be easily grounded via the scanner plate 190.

  Further, since the scanner unit 5 is also electrically connected to the scanner plate 190, it is electrically connected to the ground terminal 270 via the scanner plate 190 and is electrically grounded. Therefore, the scanner unit 5 can be easily grounded via the scanner plate 190.

  Further, since the engaging portion 320 of the gear plate 300 is provided on the front side (one side) 311A of the concave portion 310, the lifting member can be configured with a simple structure while preventing interference between the gear plate 300 and the lifting member 210. A biasing force can be applied to 210.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment. About a concrete structure, it can change suitably in the range which does not deviate from the meaning of this invention.

  In the above-described embodiment, the lifting member 210 is grounded by connecting to the cover member 170. However, the lifting member 210 may be directly grounded, or may be grounded by grounding the conductive plate 150.

  In the embodiment, the tension spring 220 is exemplified as the biasing member. However, the present invention is not limited to this, and may be a plate spring or a torsion spring, for example.

  In the said embodiment, although the elastic member 230 illustrated the electroconductive coil spring, this invention is not limited to this, For example, a conductive rubber may be sufficient.

  In the said embodiment, although the electroconductive member 250 illustrated the electroconductive coil spring, this invention is not limited to this, For example, electroconductive resin may be sufficient.

DESCRIPTION OF SYMBOLS 1 Laser printer 4 Image formation part 5 Scanner unit 31A Mounting base 32A Paper feed roller 33 Conveyance roller 34 Conveyance roller axis | shaft 100 Case 110 Side frame 111 1st frame 112 2nd frame 120 Motor 130 Belt transmission mechanism 140 Gear mechanism 150 Conductive plate 160 Power supply board 170 Cover member 190 Scanner plate 200 Motor support member 210 Lifting member 211 First rotating shaft 220 Tension spring 230 Elastic member 240 Bearing 250 Conducting member 270 Ground terminal 300 Gear plate 310 Recessed part 311A, 311B Side part 320 Engagement part 330 Second engagement portion 340 Notch P Paper

Claims (9)

A frame that supports the image forming unit;
A gear connected to the image forming unit;
A conductive gear plate disposed at a position sandwiching the gear between the frame and supporting the gear;
A feed roller;
A mounting table on which a recording sheet is mounted, the recording sheet being movable toward the paper feed roller;
A lifting member having electrical conductivity and moving the mounting table toward the paper feed roller;
A biasing member that engages with the lifting member and biases the lifting member to bring the mounting table closer to the paper feed roller;
The lifting member is electrically grounded;
The image forming apparatus, wherein the urging member has conductivity and is engaged with an engaging portion provided on the gear plate. The gear plate has a recess formed in its contour so as to be recessed on the side opposite to the lifting member side,
The image forming apparatus according to claim 1, wherein the engaging portion is provided on one side of a pair of side portions sandwiching the concave portion. A transport roller having a conductive shaft and supported by a member different from the gear plate;
3. The image forming apparatus according to claim 1, further comprising a conductive member that has conductivity and conducts the shaft and the gear plate. 4. A bearing having electrical conductivity and rotatably supporting the shaft;
The gear plate has a second engagement portion located on the opposite side of the engagement portion with respect to the lifting member,
The image forming apparatus according to claim 3, wherein the conducting member connects the bearing and the second engaging portion. The gear plate has a notch,
The image forming apparatus according to claim 3, wherein the conveyance roller is located at a position overlapping the notch when viewed from the axial direction of the shaft. The frame is disposed on one side with the image forming unit interposed therebetween, and a first resin frame that fixes the gear plate, and a second resin frame disposed on the other side with the image forming unit interposed therebetween. And
A conductive plate that connects the first frame and the second frame and is electrically connected to the lifting member;
A conductive cover member fixed to the second frame, covering the power supply board, and electrically connected to an electrically grounded earth part;
The image forming apparatus according to claim 1, wherein the conductive plate is grounded by being connected to the cover member.   The image forming apparatus according to claim 6, wherein the lifting member includes a conductive shaft member, and the shaft member and the conductive plate are electrically connected.   The image forming apparatus according to claim 6, further comprising a conductive elastic member for connecting the conductive plate and the lifting member to electrically connect the conductive plate and the lifting member. . A drive source provided in the first frame;
A belt transmission mechanism for transmitting a driving force of the driving source to the gear;
A conductive scanner plate that connects the first frame and the second frame and supports a scanner provided in the image forming unit;
A conductive drive source support member that supports the drive source,
9. The image formation according to claim 6, wherein the scanner and the drive source support member are grounded by being connected to the cover member through the scanner plate. 10. apparatus.

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