JP6972597B2 - Image forming device - Google Patents

Description

The present invention relates to an image forming apparatus.

The image forming apparatus described in Patent Document 1 is transferred to a medium and a developer moving body that rotates in a predetermined rotation direction to move the developer while carrying the developer in order to transfer the developer to the medium. It has a recovery unit for recovering the developer left on the moving body of the developer.

Japanese Unexamined Patent Publication No. 2007-101750

The image forming apparatus is provided with a receiving member that receives the developer discharged from the discharge port in order to collect the developer discharged from the developer discharge port. When the receiving member is detached from the main body of the image forming apparatus, the developer may fall from this discharge port. Then, the dropped developer accumulates below the discharge port and spoils the appearance.

The object of the present invention is that the lower part of the discharge port from which the developer is discharged falls from the discharge port when the receiving member is detached from the main body of the apparatus, as compared with the case where the lower portion is formed only by a flat surface facing upward. This is to suppress the deterioration of the appearance caused by the developer.

The image forming apparatus according to the first aspect is an image forming unit having a downward discharge port for forming an image to be transferred to a recording medium using a developer, transferring the image to the recording medium, and discharging the developer. A receiving member that receives the developer discharged from the discharge port and is detachable from the main body of the apparatus, and a recess that is arranged below the discharge port and collects the developer that has fallen from the discharge port. It is characterized by including a lid portion that covers the opening of the recess and has a hole through which the developer dropped from the discharge port passes.

The image forming apparatus according to the second aspect is the image forming apparatus according to the first aspect , in which the lid portion is composed of a plurality of crosspieces, the hole is formed by the plurality of crosspieces, and the crosspiece is formed on the crosspiece. It is characterized in that an inclined surface inclined with respect to the horizontal direction is formed.

The image forming apparatus according to the third aspect is characterized in that, in the image forming apparatus according to the second aspect , the crosspieces are arranged in a grid pattern.

The image forming apparatus according to a fourth aspect is the image forming apparatus according to any one aspect of the third embodiment from the first embodiment, the lower of the discharge port, upward surface facing upward is formed, the The concave portion is formed by making a part of the upward surface concave, and the receiving member comes into contact with the developer adhering to the upward surface as the receiving member is attached. It is characterized in that a transport member for transporting the developer toward the recess is provided.

According to the image forming apparatus of the first aspect , when the receiving member is detached from the main body of the apparatus as compared with the case where the lower part of the discharging port from which the developer is discharged is formed only by the plane facing upward. It is possible to suppress the deterioration of the appearance caused by the developer dropped from the discharge port.

According to the image forming apparatus of the second aspect, the appearance caused by the developer dropped on the crosspiece is different from the case where the crosspiece is formed of the plate member whose plate surface faces in the vertical direction. Deterioration can be suppressed.

According to the image forming apparatus of the third aspect , it is possible to suppress the developer accumulated in the concave portion from being visually recognized from the outside as compared with the case where the crosspiece extends in only one direction.

According to the image forming apparatus of the fourth embodiment, as compared with the case where a state in which the developer is adhered to the upward surface is maintained, the developer dropped from the outlet when disengaging the receiving winding member from the main assembly It is possible to suppress the deterioration of the appearance caused by the result.

It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on Embodiment of this invention. It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on Embodiment of this invention. (A) (B) It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on embodiment of this invention. It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on Embodiment of this invention. It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on Embodiment of this invention. It is a perspective view which showed the transport box of the image forming apparatus which concerns on Embodiment of this invention. (A) (B) It is sectional drawing which showed the transport box and the like of the image forming apparatus which concerns on embodiment of this invention. It is a block diagram which showed the collecting mechanism and the like of the image forming apparatus which concerns on Embodiment of this invention. It is a block diagram which showed the collecting mechanism and the like of the image forming apparatus which concerns on Embodiment of this invention. It is sectional drawing which showed the developing apparatus of the image forming apparatus which concerns on Embodiment of this invention. It is sectional drawing which showed the developing apparatus of the image forming apparatus which concerns on Embodiment of this invention. It is a perspective view which showed the collection box of the image forming apparatus which concerns on Embodiment of this invention. It is a perspective view which showed the collection box, the discharge port, the collection box and the like of the image forming apparatus which concerns on embodiment of this invention. It is an image forming apparatus which concerns on 1st Embodiment of this invention, and is the perspective view which showed the state which the transport box was detached. It is a perspective view which shows the state which is the image forming apparatus which concerns on the 1st Embodiment of this invention, and has attached the transport box. It is a perspective view which shows the state which is the image forming apparatus which concerns on the 1st Embodiment of this invention, and has attached the transport box. It is a perspective view which showed the image forming apparatus which concerns on Embodiment of this invention. It is a schematic block diagram which showed the image forming apparatus which concerns on Embodiment of this invention.

An example of the image forming apparatus according to the embodiment of the present invention will be described with reference to FIGS. 1 to 18. The arrow H shown in the figure indicates the device vertical direction (vertical direction), the arrow W indicates the device width direction (horizontal direction), and the arrow D indicates the device depth direction (horizontal direction).

(overall structure)
As shown in FIG. 18, in the image forming apparatus 10 according to the present embodiment, the accommodating portion 14 accommodating the sheet member P as a recording medium and the accommodating portion P accommodating the accommodating portion 14 are conveyed. A section 16 is provided. Further, the image forming apparatus 10 includes an image forming unit 20 that forms an image on the sheet member P conveyed from the accommodating unit 14 to the sheet member P, a document reading unit 42 that reads a document, and a control unit 12 that controls each unit. Is provided.

[Accommodation]
The accommodating portion 14 is provided with two accommodating members 26 that can be pulled out from the apparatus main body 10A of the image forming apparatus 10 toward the front side in the depth direction of the apparatus, and the sheet member P is loaded on each accommodating member 26. There is. Further, each of the accommodating members 26 is provided with a delivery roll 30 for delivering the sheet member P loaded on the accommodating member 26 to the transport path 28 constituting the transport unit 16.

[Transport section]
The transport unit 16 is provided with a plurality of transport rolls (reference numerals omitted) for transporting the sheet member P along the transport path 28 to which the seat member P is transported.

[Original reader]
The document scanning unit 42 includes a document transporting device 44 that automatically transports scanned documents one by one, and a platen glass 46 that is arranged under the document transporting device 44 and on which one scanned document is placed. .. Further, the document reading unit 42 is provided with a document reading device 48 that reads the scanned document transported by the document transport device 44 or the scanned document placed on the platen glass 46.

[Image forming part]
The image forming unit 20 is provided with four image forming units 18Y, 18M, 18C, and 18K of yellow (Y), magenta (M), cyan (C), and black (K). In the following description, if it is not necessary to distinguish Y, M, C, and K, Y, M, C, and K may be omitted.

The image forming unit 18 of each color is attached to and detached from the apparatus main body 10A, respectively. As shown in FIG. 11, the image forming unit 18 of each color includes a photoconductor drum 36 that rotates in the direction of arrow B in the figure, and a charging member 38 that charges the outer peripheral surface 36A of the photoconductor drum 36. Has been done. Further, in the image forming unit 18, an exposure device 39 for irradiating the charged photoconductor drum 36 with exposure light and an electrostatic latent image formed by irradiating the exposure light are developed with the developer G. A developing device 40 for visualizing as a toner image is provided. Further, the image forming unit 18 is provided with a collecting mechanism 32 for scraping and collecting foreign matter adhering to the photoconductor drum 36 from the photoconductor drum 36.

The developer G is a two-component developer composed of toner T and magnetic carrier particles (hereinafter referred to as “carrier C”) as main components. The details of the developing device 40 and the collecting mechanism 32 will be described later.

Further, the image forming apparatus 10 is provided with a maintenance door 24 (see FIG. 17) that opens the inside of the apparatus main body 10A when the image forming unit 18 is attached to and detached from the apparatus main body 10A. The details of the maintenance door 24 will be described later.

Further, in the image forming unit 20, an endless transfer belt 22 which is wound around a plurality of rolls and circulates in the direction of arrow A in the figure, and a toner image formed by an image forming unit 18 of each color are transferred to the transfer belt 22. A primary transfer roll 54 for transfer is provided. Further, as shown in FIG. 18, the image forming unit 20 is provided with a collecting mechanism 34 that adheres to the transfer belt 22 and scrapes foreign matter such as residual toner from the transfer belt 22 to collect the foreign matter. The details of the collection mechanism 34 will be described later.

Further, the image forming unit 20 is provided with a collecting mechanism 58 (see FIG. 15) for collecting the toner and the like collected by the collecting mechanism 32 and the collecting mechanism 34. The details of the recovery mechanism 58 will be described later.

Further, the image forming unit 20 heats and pressurizes the secondary transfer roll 56 that transfers the toner image transferred to the transfer belt 22 to the sheet member P and the sheet member P to which the toner image is transferred to obtain the toner image. Is provided with a fixing device 50 for fixing the toner to the sheet member P.

Further, on the opposite side of the transfer belt 22 with respect to the secondary transfer roll 56, an auxiliary roll 52 around which the transfer belt 22 is wound and is driven by the rotating transfer belt 22 is arranged.

(Action of image forming device)
In the image forming apparatus 10, an image is formed as follows.

First, the charging member 38 (see FIG. 11) of each color to which a voltage is applied uniformly negatively charges the outer peripheral surface 36A of the photoconductor drum 36 of each color at a predetermined potential. Subsequently, the exposure apparatus 39 irradiates the outer peripheral surface 36A of the charged photoconductor drum 36 of each color with the exposure light based on the image data read by the document reading unit 42 (see FIG. 18) to obtain an electrostatic latent image. Form.

As a result, an electrostatic latent image corresponding to the data is formed on the outer peripheral surface 36A of the photoconductor drum 36 of each color. Further, the developing device 40 for each color develops this electrostatic latent image and visualizes it as a toner image. Further, the toner images formed on the outer peripheral surface 36A of the photoconductor drum 36 of each color are sequentially transferred to the transfer belt 22 by the primary transfer roll 54. In this way, the transfer belt 22 holds the toner image on the outer peripheral surface.

Therefore, the sheet member P sent out from the accommodating member 26 to the transfer path 28 by the delivery roll 30 is sent out to the transfer position T where the transfer belt 22 and the secondary transfer roll 56 come into contact with each other. At the transfer position T, the sheet member P is conveyed between the transfer belt 22 and the secondary transfer roll 56, so that the toner image on the outer peripheral surface of the transfer belt 22 is transferred to the surface of the sheet member P.

Further, the toner image transferred to the surface of the sheet member P is fixed to the sheet member P by the fixing device 50. Then, the sheet member P on which the toner image is fixed is discharged to the outside of the apparatus main body 10A.

(Main part composition)
Next, the maintenance door 24, the collection mechanism 32, the collection mechanism 34, the developing device 40, the collection mechanism 58, and the like will be described.

[Maintenance door]
The maintenance door 24 (hereinafter referred to as “door 24”) is arranged on the front side of the apparatus main body 10A shown in FIGS. 16 and 17 in the device depth direction. The door 24 is attached to the lower side of the rectangular plate-shaped door body 24A, the two hinges and 24B arranged in the width direction of the device, and the two stoppers that regulate the opening angle of the door body 24A. It is equipped with 24C.

In this configuration, by rotating the door body 24A around the hinge 24B, the door body 24A opens the closing position (see FIG. 17) that closes the inside of the device body 10A and at least a part of the inside of the device body 10A. It is designed to move to the open position (see FIG. 16).

Then, the stopper 24C regulates the opening angle of the door body 24A that has moved to the opening position. In the present embodiment, the stopper 24C regulates the opening angle of the door body 24A at a position where the plate surface of the door body 24A faces in the vertical direction.

[Collection mechanism 32]
As shown in FIG. 11, the collecting mechanism 32 is downstream of the contact portion S where the photoconductor drum 36 and the transfer belt 22 are in contact with each other and upstream of the charging member 38 in the rotation direction of the photoconductor drum 36. It is placed on the side. Then, as shown in FIG. 8, the collecting mechanism 32 uses a blade 72 for scraping off foreign substances such as the developer G remaining on the outer peripheral surface of the photoconductor drum 36 (hereinafter, “developer G and the like”) and the blade 72. It is provided with a receiving unit 74 for receiving the scraped developer G and the like. Further, the collecting mechanism 32 discharges the developer G and the like received by the receiving unit 74 into the transport auger 76 and the developer G and the like conveyed by the transport auger 76 into the transport box 120 described later (FIG. FIG. 14) and.

The blade 72 extends in the depth direction of the device, and the tip portion 72A is in contact with the outer peripheral surface 36A of the photoconductor drum 36 when viewed from the depth direction of the device, and the base end portion 72B is located below the tip portion 72A. ing.

The receiving portion 74 extends in the depth direction of the device and is arranged below the base end portion 72B of the blade 72. The cross section of the receiving portion 74 has a U-shape with an open upper portion.

The transport auger 76 extends in the depth direction of the device and is arranged inside the receiving portion 74. Further, the transport auger 76 has a columnar shaft portion 76A and a spiral spiral blade 76B formed on the outer peripheral surface of the shaft portion 76A. Then, the transport auger 76 rotates by transmitting a rotational force from a drive member (not shown), and transports the developer G or the like received by the receiving unit 74 from the back side in the depth direction of the device to the front side. It has become.

As shown in FIGS. 13 and 14, the discharge unit 78 is provided outside the device main body 10A with the door main body 24A arranged in an open position and the transport box 120 described later being detached from the device main body 10A. It is designed to be exposed.

The discharging portion 78 is arranged at the same position as the transport auger 76 (see FIG. 8) when viewed from the depth direction of the device. The discharge unit 78 has a cylindrical main body 80 extending in the depth direction of the device, and a lid 82 for closing the front end portion of the main body 80 in the depth direction of the device. Inside the main body 80, a portion on the front side of the device depth of the transport auger 76 is arranged, and in the lower portion of the main body 80, a downward direction for discharging the developer G and the like inside the main body 80 downward. Discharge port 81 is formed. Further, the main body 80 is equipped with a shutter (not shown) that opens and closes the discharge port 81. This shutter is connected to a lever 122, which will be described later, by an interlocking mechanism (not shown), and although details will be described later, the shutter opens and closes the discharge port 81 by operating the lever 122.

[Collection mechanism 34]
As shown in FIG. 18, the collecting mechanism 34 is arranged so as to face one end of the transfer belt 22 in the device width direction (right end in the figure) in the device width direction. As shown in FIG. 9, the collecting mechanism 34 has a blade 86 that scrapes off the developer G and the like remaining on the outer peripheral surface 22A of the transfer belt 22, and a receiving unit 88 that receives the developer G and the like scraped off by the blade 86. And have. Further, the collecting mechanism 34 discharges the developer G and the like received by the receiving unit 88 into the transport auger 90 and the developer G and the like conveyed by the transport auger 90 to the transport box 120 described later (FIG. FIG. 14) and.

The blade 86 extends in the depth direction of the device, the tip portion 86A is in contact with the outer peripheral surface 22A of the transfer belt 22 and the base end portion 86B is located below the tip portion 86A when viewed from the device depth direction. There is.

The receiving portion 88 extends in the depth direction of the device and is arranged below the base end portion 86B of the blade 86. The cross section of the receiving portion 88 has a U-shape with an open upper portion.

The transport auger 90 extends in the depth direction of the device and is arranged inside the receiving portion 88. Further, the transport auger 90 has a columnar shaft portion 90A and a spiral spiral blade 90B formed on the outer peripheral surface of the shaft portion 90A. Then, the transport auger 90 rotates by transmitting a rotational force from a drive member (not shown), and transports the developer G or the like received by the receiving unit 88 from the back side in the depth direction of the device to the front side. It has become.

As shown in FIGS. 13 and 14, the discharge unit 92 is placed outside the device main body 10A with the door main body 24A arranged in an open position and the transport box 120 described later being detached from the device main body 10A. It is designed to be exposed.

Further, the discharge unit 92 is arranged at the same position as the transport auger 90 (see FIG. 9) when viewed from the depth direction of the device. The discharge unit 92 has a cylindrical main body 94 extending in the depth direction of the device and a lid 96 for closing the front end portion of the main body 94 in the depth direction of the device. Inside the main body 94, a portion on the front side of the device depth of the transport auger 90 is arranged, and in the lower portion of the main body 94, a downward direction for discharging the developer G and the like inside the main body 94 downward. The discharge port 95 is formed. Further, a shutter (not shown) for opening and closing the discharge port 95 is attached to the main body 94. This shutter is connected to a lever 122, which will be described later, by an interlocking mechanism (not shown), and although details will be described later, the shutter opens and closes the discharge port 95 by operating the lever 122.

[Developer 40]
Next, the developing device 40 will be described. Note that FIG. 10 is a view of the developing apparatus 40 shown in FIG. 11 as viewed from the direction in which the partition wall 102E of the developing apparatus 40 extends (arrow J in the drawing).

As shown in FIG. 11, the developing device 40 is located downstream of the exposure device 39 and upstream of the contact portion S where the photoconductor drum 36 and the transfer belt 22 are in contact with each other in the rotation direction of the photoconductor drum 36. It is placed on the side. Then, the developing device 40 stirs the housing 102, the developing roll 100 arranged so as to face the photoconductor drum 36, the supply auger 106 that supplies the developing agent G to the developing roll 100, and the developing agent G. It is equipped with a stirring auger 108.

-Case 102-
The housing 102 is formed with a delivery path 102A in which the developing roll 100 facing the photoconductor drum 36 is arranged and a supply path 102B in which the supply auger 106 is arranged diagonally downward of the delivery path 102A. Has been done. Further, the housing 102 is formed with a stirring path 102C in which the stirring auger 108 is arranged on the opposite side of the delivery path 102A with respect to the supply path 102B. The delivery path 102A, the supply path 102B, and the stirring path 102C extend in the depth direction of the device.

Further, in the housing, a partition wall 102E that separates the supply path 102B and the stirring path 102C is formed between the supply path 102B and the stirring path 102C.

Further, as shown in FIG. 10, the stirring path 102C extends to the inner side (right side in the figure) in the depth direction of the device with respect to the supply path 102B, and this extended portion extends the developer G to the developing device 40. It is said to be a supply route 102F for replenishing. That is, the supply path 102F is formed on one end side of the stirring path 102C in the device width direction. A portion of the stirring auger 108 on the inner side in the depth direction of the device is arranged in the supply path 102F.

Further, the supply path 102B extends toward the front side (left side in the figure) in the depth direction of the device with respect to the stirring path 102C, and this extended portion extends the discharge path 102G for discharging the developer G to the outside of the developing device 40. It is said that. That is, the discharge path 102G is formed on the other end side of the supply path 102B in the device width direction. A portion of the supply auger 106 on the front side in the device depth direction is arranged in the discharge path 102G.

Further, the partition wall 102E separating the supply path 102B and the stirring path 102C is the supply path 102B and the stirring path 102C except for the portion of the supply path 102B on the inner side in the device depth direction and the portion on the front side in the device depth direction. It divides with. Then, in the housing 102, a continuous passage 102K connecting the supply path 102B and the stirring path 102C is formed in a portion of the supply path 102B on the inner side in the device depth direction and a portion on the front side in the device depth direction.

Further, in the upper portion of the supply path 102F, a supply port 102H for supplying the developer G to the developing device 40 is formed.

Further, in the discharge path 102G, as shown in FIGS. 13 and 14, the door main body 24A is arranged in the open position, and the transport box 120 described later is separated from the device main body 10A. It is formed inside the discharge portion 110 exposed to the outside.

The discharge unit 110 has a cylindrical main body 112 extending in the depth direction of the device, and a lid 114 for closing the front end portion of the main body 112 in the depth direction of the device. As described above, the discharge path 102G is formed inside the main body 112, and the portion of the supply auger 106 on the front side of the device depth is arranged. Further, a downward discharge port 104 for discharging the developer G inside the main body 112 downward is formed in the lower portion of the main body 112. Further, a shutter (not shown) for opening and closing the discharge port 104 is attached to the main body 112. This shutter is connected to a lever 122, which will be described later, by an interlocking mechanism (not shown), and although details will be described later, the shutter opens and closes the discharge port 104 by operating the lever 122.

-Development roll 100-
As described above, the developing roll 100 is arranged in the delivery path 102A and extends in the depth direction of the apparatus. As shown in FIG. 11, the developing roll 100 includes a magnet roll 100A having a circular cross section and a rotary sleeve 100B that is placed on the magnet roll 100A and rotates around the magnet roll 100A. The rotary sleeve 100B is adapted to rotate in the arrow C direction (counterclockwise direction) in the figure by transmitting a rotational force from a drive source (not shown).

-Supply auger 106-
As described above, the supply auger 106 is arranged in the supply path 102B and the discharge path 102G. Then, as shown in FIG. 10, the supply auger 106 has a supply shaft 106A extending in the depth direction of the device and two spiral supply blades 106B and 106C formed on the outer peripheral surface of the supply shaft 106A. , And a blade portion 106D composed of a plurality of spiral blades.

The two supply blades 106B and 106C are formed in the portion of the supply shaft 106A arranged in the supply passage 102B, and the blade portion 106D is formed in the portion of the supply shaft 106A arranged in the discharge passage 102G. ing.

Further, both ends of the supply shaft 106A are rotatably supported by a wall portion of the housing 102, and a gear (not shown) to which a rotational force is transmitted from a drive source to one end of the supply shaft 106A. Is fixed.

-Stirring auger 108-
As described above, the stirring auger 108 is arranged in the stirring path 102C and the supply path 102F. The stirring auger 108 includes a stirring shaft 108A extending in the depth direction of the device and two spiral stirring blades 108B and 108C formed on the outer peripheral surface of the stirring shaft 108A. ..

Further, both ends of the stirring shaft 108A are rotatably supported by the wall portion of the housing 102, and a gear (not shown) to which the rotational force is transmitted from the drive source to one end of the stirring shaft 108A. Is fixed.

In this configuration, the rotating supply auger 106 conveys the developer G in the supply path 102B from the front side in the depth direction of the device (left side in the figure) to the back side in the depth direction of the device (right side in the figure) while stirring. The developer G is supplied to the developing roll 100. Further, the rotating supply auger 106 passes the developer G to the stirring auger 108 through the communication passage 102K on the inner side in the depth direction of the device.

Further, the blade portion 106D of the rotating supply auger 106 is passed from the stirring auger 108 to the supply auger 106 through the communication passage 102K on the front side in the device depth direction, and the surplus developer G is transferred to the device depth direction. It is designed to be transported from the side to the front side in the depth direction of the device. The developer G conveyed by the blade portion 106D is discharged to the outside of the developing apparatus 40 through the discharge port 104 (see FIG. 13).

On the other hand, the rotating stirring auger 108 stirs the developer G supplied from the supply port 102H to the supply path 102F and the developer G delivered from the supply auger 106 through the communication passage 102K on the inner side in the depth direction of the device. It is designed to be transported while. Specifically, the rotating stirring auger 108 carries the developer G from the back side in the depth direction of the device (right side in the figure) to the front side in the depth direction of the device (left side in the figure) while stirring the developer G. There is. Then, the rotating stirring auger 108 passes the developer G to the supply auger 106 through the communication passage 102K on the front side in the depth direction of the device.

In this way, the developer G circulates between the supply path 102B and the stirring path 102C (see the arrow in the figure).

[The Resolution and Collection Corporation 58]
As shown in FIGS. 14 and 15, the collection mechanism 58 is detachable from the apparatus main body 10A, and is discharged from the discharge ports 81, 95, 104 of the discharge units 78, 92, 110 (see FIG. 13). It is provided with a transport box 120 for transporting the developer G and the like. Further, the collection mechanism 58 collects the developer G and the like collected by the transport box 120, and the developer G dropped from the discharge ports 81, 95, and 104 when the transport box 120 is attached and detached. It is equipped with a box 160. The transport box 120 is an example of a receiving member.

-Transport box 120-
As shown in FIG. 15, the transport box 120 is exposed to the outside of the apparatus main body 10A with the door main body 24A arranged in the open position. The transport box 120 extends in the device width direction when viewed from the device depth direction, and is arranged so as to cover the discharge portions 78, 92, 110 (see FIG. 13) from the front side in the device depth direction.

The transport box 120 is held in the apparatus main body 10A by a holding mechanism (not shown). Further, the transport box 120 has a dial type lever 122. By rotating the lever 122, the transport box 120 shifts to a holding state held by the device main body 10A by the holding mechanism and a non-holding state capable of being detached from the device main body 10A.

Specifically, as shown in FIG. 7A, the lever 122 includes a shaft portion 122A extending in the depth direction of the device and a pair of grip portions 122B extending in the radial direction from the shaft portion 122A to the shaft portion 122A. have. Then, at the first position (see FIG. 7A) in which the grip portion 122B of the lever 122 is tilted with respect to the vertical direction of the device, the transport box 120 is held by the holding mechanism in the device main body 10A. It becomes a state.

Further, in the state where the lever 122 is arranged at the first position, the shutter of the discharge unit 78 connected by the interlocking mechanism opens the discharge port 81, and the shutter of the discharge unit 92 opens the discharge port 95. Moreover, the shutter of the discharge unit 110 opens the discharge port 104.

On the other hand, when the lever 122 at the first position is rotated and the lever 122 is moved to the second position along the vertical direction of the device by the grip portion 122B as shown in FIG. 7 (B). , The transport box 120 is in a non-holding state that can be detached from the apparatus main body 10A.

Further, with the lever 122 arranged at the second position, the shutter of the discharge unit 78, which is connected by the interlocking mechanism, closes the discharge port 81, and the shutter of the discharge unit 92 closes the discharge port 95. Moreover, the shutter of the discharge unit 110 closes the discharge port 104.

Further, the transport box 120 has a hollow inside. Then, as shown in FIG. 6, on the back surface side of the transport box 120 (the surface facing the back side in the depth direction of the device when the transport box 120 is mounted on the device main body 10A), the discharge portion of the collection mechanism 32 is provided. An insertion portion 124 into which the 78 is inserted is formed. Further, the transport box 120 is formed with an insertion portion 126 into which the discharge portion 110 of the developing device 40 is inserted, and an opening 128 into which the discharge portion 92 of the collection mechanism 34 is inserted.

Further, an opening 130 through which the developer G or the like discharged from the discharge port 81 (see FIG. 13) of the discharge unit 78 passes is provided on the lower side inside the insertion unit 124. As a result, the developer G or the like discharged from the discharge port 81 of the discharge unit 78 enters the inside of the transport box 120 through the opening 130.

Further, on the lower side inside the insertion portion 126, an opening 132 through which the developer G or the like dropped from the discharge port 104 (see FIG. 13) of the discharge portion 110 passes is provided. As a result, the developer G or the like discharged from the discharge port 104 of the discharge unit 110 enters the inside of the transport box 120 through the opening 132.

Further, with the transport box 120 mounted on the apparatus main body 10A, the discharge unit 92 is arranged inside the transport box 120 through the opening 128. As a result, the developer G or the like discharged from the discharge port 95 (see FIG. 13) of the discharge unit 92 enters the inside of the transport box 120.

On the other hand, in the bottom plate 120A constituting the space inside the transport box 120, as shown in FIGS. 4 and 5, one side in the device width direction (right side in the figure) is the other side in the device width direction (FIG. 5). It is tilted so that it is located above the part (on the left side of the center). A space 120B extending in the width direction of the device is formed on the upper side of the bottom plate 120A. The developer G and the like that have entered through the openings 130 and 132, and the developer G and the like that have been discharged from the discharge port 95 of the discharge unit 92 inserted through the openings 128, have come to fall to the bottom plate 120A through this space 120B. There is.

Further, in the bottom plate 120A, an opening 120C is formed at one end in the width direction of the device to open the space 120B to the outside. Further, the opening 120C is provided with a shutter (not shown) for opening and closing the opening 120C. Then, by an opening / closing mechanism (not shown), the shutter opens the opening 120C when the transport box 120 is attached to the apparatus main body 10A, and the shutter opens the opening 120C when the transport box 120 is detached from the apparatus main body 10A. It is designed to close.

Further, in the space 120B, a transport auger 136 extending in the width direction of the device is arranged along the bottom plate 120A. The transport auger 136 includes a shaft portion 136A and a spiral blade portion 136B formed on the outer peripheral surface of the shaft portion 136A. Then, the transport auger 136 transports the developer G or the like that falls into the space 120B by transmitting a rotational force from a drive member (not shown) to the outside in the width direction of the apparatus, and transports the developer G or the like to the outside from the opening 120C. It is designed to be discharged.

Further, a transport member 138 made of a sponge having a rectangular cross section extending in the width direction of the device is attached to the lower surface 134 of the bottom plate 120A facing downward with an adhesive (see FIGS. 1 and 2).

Specifically, in a state where the transport box 120 is mounted on the device main body 10A, the transport member 138 is placed in a portion of the collection box 160 on the inner side of the recess 162 formed on the upward surface 172, which will be described later, in the device depth direction. Have been placed. Further, as the detached transport box 120 is moved in the depth direction of the apparatus and mounted on the apparatus main body 10A, the lower end of the transport member 138 is the collection box 160 in the process of moving the transport box 120. It comes into contact with the upward surface 172.

-Recovery box 140-
The collection box 140 is removable from the device main body 10A, and is arranged below one end of the transport box 120 in the device width direction, as shown in FIG. Then, as shown in FIGS. 13 and 14, the collection box 140 is formed with an opening 140A that can be visually recognized from the outside with the transport box 120 detached from the apparatus main body 10A.

As shown in FIG. 4, with the transport box 120 mounted on the apparatus main body 10A, the opening 140A faces the opening 120C of the transport box 120 in the vertical direction. The developer G or the like discharged from the opening 120C of the transport box 120 is collected in the recovery box 140 through the opening 140A.

-Collection box 160-
The collection box 160 is individually removable from the device body 10A, and as shown in FIG. 15, is on the lower side of the transport box 120 and on the other side of the collection box 140 in the device width direction. Have been placed.

As shown in FIGS. 1 and 2, the collection box 160 is formed with an upward facing surface 172 facing upward. Further, the upward surface 172 is formed with a concave recess 162 which is arranged below at least one discharge port 81, 104 and in which the developer G or the like dropped from the discharge port 81, 104 is collected.

Here, the fact that the recess 162 is arranged on the lower side (lower side) of the discharge ports 81 and 104 means that at least a part of the range T1 and T2 in the device depth direction of the discharge ports 81 and 104 is in the device depth direction. It means that the opening of the recess 162 overlaps with the range T3 in the device depth direction.

Further, a lid portion 164 that covers the opening of the recess 162 is provided. As shown in FIG. 12, the lid portion 164 extends in the device depth direction and extends in the device width direction with a plurality of crosspieces 164A arranged at intervals in the device width direction, and extends in the device width direction and is spaced in the device depth direction. It is composed of a plurality of crosspieces 164B arranged in a row. In this way, the crosspieces 164A and 164B are arranged in a grid pattern.

Further, a hole 174 through which the developer G or the like passes is formed between the adjacent crosspieces 164A and 164A and between the adjacent crosspieces 164B and 164B. Further, the crosspieces 164A and 164B are formed with inclined surfaces 168 and 170 on which the developer G and the like mounted on the crosspieces 164A and 164B slide down into the recess 162.

Specifically, as shown in FIG. 1, the cross-sectional shape of the crosspieces 164A and 164B has a triangular shape in which the apex 166 is located on the upper side, and an inclined surface 168 is formed on one side of the apex 166. On the other hand, an inclined surface 170 is formed. Here, the "inclined surface" is a plane inclined with respect to the horizontal plane.

(Action)
Next, the operations of the collection mechanism 32, the collection mechanism 34, the developing device 40, the collection mechanism 58, and the like will be described. The image forming apparatus 10 is equipped with a transport box 120. Therefore, the opening 120C of the transport box 120 is open. Further, the lever 122 of the transport box 120 is arranged at the first position, and the transport box 120 is held by the apparatus main body 10A by a holding mechanism (not shown). Further, the discharge ports 81, 95, 104 of the discharge portions 78, 92, 110 are open.

When the image forming apparatus 10 is operated and the image forming operation is started, a toner image is formed on the outer peripheral surface 36A of the photoconductor drum 36 of each color shown in FIG. Then, the blade 72 of the collecting mechanism 32 scrapes the developer G and the like remaining on the outer peripheral surface 36A from the outer peripheral surface 36A of the photoconductor drum 36 without being transferred to the transfer belt 22.

Further, the receiving unit 74 shown in FIG. 8 receives the developer G or the like scraped from the outer peripheral surface 36A of the photoconductor drum 36 by the blade 72. Further, the rotating transport auger 76 transports the developer G or the like received by the receiving unit 74 to the front side in the depth direction of the device, and discharges the developer G or the like from the discharge port 81 of the discharge unit 78 shown in FIG.

Further, the transport box 120 shown in FIG. 4 receives the developer G or the like discharged from the discharge port 81 of the discharge unit 78 through the opening 130. Further, the rotating transport auger 136 transports the received developer G or the like to one end side in the width direction of the apparatus, and discharges the developer G or the like from the opening 120C. Further, the collection box 140 receives and collects the developer G and the like discharged from the opening 120C of the transport box 120 through the opening 140A.

On the other hand, when the image forming apparatus 10 is operated and the image forming operation is started, the toner image is transferred to the outer peripheral surface 22A of the transfer belt 22 shown in FIG. Then, the blade 86 of the collecting mechanism 34 scrapes the developer G and the like remaining on the outer peripheral surface 22A from the outer peripheral surface 22A of the transfer belt 22 without being transferred to the sheet member P.

Further, the receiving unit 88 shown in FIG. 9 receives the developer G or the like scraped from the outer peripheral surface 22A of the transfer belt 22 by the blade 86. Further, the rotating transport auger 90 transports the developer G or the like received by the receiving unit 88 to the front side in the depth direction of the device, and discharges the developer G or the like from the discharge port 95 of the discharge unit 92 shown in FIG.

Then, the transport box 120 shown in FIG. 4 receives the developer G and the like discharged from the discharge port 95 of the discharge unit 92. Further, the rotating transport auger 136 transports the received developer G or the like to one end side in the width direction of the apparatus, and discharges the developer G or the like from the opening 120C. Further, the collection box 140 receives and collects the developer G and the like discharged from the opening 120C of the transport box 120 through the opening 140A.

On the other hand, when the image forming apparatus 10 is operated and the image forming operation is started, the supply auger 106 and the stirring auger 108 of the developing apparatus 40 of each color shown in FIG. 10 rotate. Then, the rotating supply auger 106 discharges the developer G and the like from the discharge port 104 of the discharge unit 110.

Further, the transport box 120 shown in FIG. 4 receives the developer G or the like discharged from the discharge port 104 of the discharge unit 110 through the opening 132. Further, the rotating transport auger 136 transports the received developer G or the like to one end side in the width direction of the apparatus, and discharges the developer G or the like from the opening 120C. Further, the collection box 140 receives and collects the developer G and the like discharged from the opening 120C of the transport box 120 through the opening 140A.

As described above, the recovery box 140 collects the developer G and the like.

Further, when the image forming unit 20 is maintained, the operator moves the door body 24A in the closed position to the open position as shown in FIGS. 16 and 17. Further, as shown in FIGS. 7A and 7B, the operator rotates and moves the lever 122 arranged at the first position to the second position. As a result, the discharge ports 81, 95, 104 of the discharge units 78, 92, 110 are closed by the shutter. Further, the transport box 120 is in a non-holding state that can be detached from the apparatus main body 10A.

Then, the operator moves the transport box 120 toward the front side in the depth direction of the device, and separates the transport box 120 from the device main body 10A as shown in FIGS. 14 and 15. As a result, the opening 120C of the transport box 120 is closed by the shutter.

Here, when the operator moves the transport box 120 toward the front side in the depth direction of the device and separates it from the device main body 10A, the developer G or the like adhering to the periphery of the discharge ports 81, 95, 104 is removed. It may fall.

A part of the dropped developer G or the like passes through the hole 174 formed in the lid portion 164 shown in FIG. 12 and accumulates in the recess 162.

Further, a part of the developed developer G or the like that has fallen slides down the inclined surfaces 168 and 170 of the crosspieces 164A and 164B, passes through the holes 174, and accumulates in the recess 162 (see FIG. 1).

Further, a part of the dropped developer G or the like adheres to the upward surface 172 of the collection box 160 as shown in FIG. 3 (A). By moving the detached transport box 120 to the inner side in the depth direction of the device and mounting it on the device main body 10A, as shown in FIGS. 3A and 3B, the transport member 138 has an upward surface 172. The developer G or the like adhering to the recess 162 is conveyed toward the recess 162. Specifically, the transport member 138 moves while in contact with the upward surface 172 to transport the developer G or the like toward the hole 174 of the recess 162.

As a result, the developer G or the like adhering to the upward surface 172 passes through the hole 174 formed in the lid portion 164 and accumulates in the recess 162.

(summary)
As described above, the opening of the recess 162 in which the developer G or the like is stored is provided with a lid portion 164 in which a hole 174 through which the developer G passes is formed. As a result, it is possible to prevent the developer G and the like accumulated in the recess 162 from being visually recognized from the outside. In other words, when the transport box 120 is detached from the apparatus main body 10A, the discharge port 81, as compared with the case where the lower part of the discharge port from which the developer G or the like is discharged is formed only by a plane facing upward. Deterioration of appearance caused by the developer G or the like dropped from 95, 104 is suppressed.

Further, inclined surfaces 168 and 170 on which the developer G and the like slide down are formed on the crosspieces 164A and 164B. Therefore, as compared with the case where the crosspiece 164A is formed of a plate member whose plate surface faces in the vertical direction, the appearance is deteriorated due to the developer G or the like dropped on the crosspieces 164A and 164B. It is suppressed.

Further, the crosspieces 164A and 164B are arranged in a grid pattern. Therefore, as compared with the case where the crosspiece extends in only one direction, it is possible to prevent the developer G and the like accumulated in the recess 162 from being visually recognized from the outside.

Further, by moving the detached transport box 120 to the inner side in the depth direction of the apparatus and mounting it on the apparatus main body 10A, the transport member 138 transfers the developer G or the like adhering to the upward surface 172 to the recess 162. Transport toward. Thereby, for example, the appearance caused by the developer G or the like dropped from the discharge ports 81, 95, 104 as compared with the case where the developer G or the like is maintained in the state of being attached to the upward surface 172. Deterioration is suppressed.

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 can be taken within the scope of the present invention. That is clear to those skilled in the art. For example, in the above embodiment, the hole 174 is formed between the crosspieces 164A and 164B and the crosspieces 164A and 164B, but may be, for example, a circular punch hole or the like.

Further, in the above embodiment, the crosspieces 164A and 164B are formed with inclined surfaces 168 and 170 on which the developer G and the like slide down into the recess 162, but the inclined surface may not be particularly formed. However, in this case, the effect of forming the inclined surface is not exhibited.

Further, in the above embodiment, the inclined surfaces 168 and 170 are formed by making the cross-sectional shape of the crosspieces 164A and 164B triangular, but for example, the cross-sectional shape is made into a pentagonal shape, a trapezoidal shape, or the like. A surface may be formed.

Further, in the above embodiment, the bars 164A and 164B are arranged in a grid pattern, but may be, for example, a bar that extends in only one direction. However, in this case, the bars are arranged in a grid pattern. It does not play the effect of doing so.

Further, although not particularly described in the above embodiment, all of the range T1 and T2 in the device depth direction of the discharge ports 81 and 104 overlap with the device depth range T3 of the opening of the recess 162 in the device depth direction. If so, the developer G or the like effectively falls from the discharge ports 81 and 104 and is stored in the recess 162.

Further, although not particularly described in the above embodiment, a hole through which the developer G or the like passes is formed between the crosspieces 164A and 164B and the opening edge of the recess 162.

10 Image forming device 10A Device main body 20 Image forming unit 81 Discharge port 95 Discharge port 104 Discharge port 120 Conveyance box (example of receiving member)
138 Transport member 162 Concave part 164 Cover part 164A Rail 164B Rail 168 Inclined surface 170 Inclined surface 172 Upward surface 174 Hole

Claims (2)

An image forming unit having a downward discharge port for forming an image to be transferred to a recording medium using a developer, transferring the image to the recording medium, and discharging the developer.
A receiving member that receives the developer discharged from the discharge port and is removable from the main body of the device.
A recess located below the discharge port and where the developer that has fallen from the discharge port collects,
A lid portion that covers the opening of the recess and has a hole through which the developer dropped from the discharge port passes.
Equipped with
The lid portion is composed of a plurality of crosspieces and is composed of a plurality of crosspieces.
The hole is formed by a plurality of the crosspieces.
The crosspiece is formed with an inclined surface that is inclined with respect to the horizontal direction.
The image forming apparatus you wherein a. The image forming apparatus according to claim 1, wherein the crosspieces are arranged in a grid pattern.

Images