JP3162418U - Toner cartridge and developing device - Google Patents

Abstract

A toner cartridge capable of smoothly meshing a gear provided in a toner cartridge and a gear provided in a developing housing without damaging the toner cartridge and smoothly mounting the developing cartridge on the developing housing, and the toner cartridge Provides a developing device to be detachably mounted. A transmission gear 91 of a toner cartridge is movably supported with respect to an agitator gear 80 by a link lever 96 in a meshed state with the agitator gear 80. Therefore, even if the tooth tip of the transmission gear 91 and the tooth tip of the drive gear 62 collide when the toner cartridge 31 is mounted on the process frame 22, the transmission gear 91 is not forced against the drive gear 62 side. Since the gear tips of these gears are in slight contact with each other, the gears of both the transmission gear 91 and the drive gear 62 can be prevented from being damaged, and the transmission gear 91 can be driven. The gear 62 can be engaged again. [Selection] Figure 7

Description

  The present invention relates to a developing device and a toner cartridge installed in an image forming apparatus such as a laser printer.

  For example, as a developing device, a process cartridge described in Patent Document 1 includes a developing roller and a toner cartridge in a casing, and the toner cartridge can be attached to and detached from the casing.

On the casing side, a drive shaft material that receives a driving force from a motor or the like is provided. Further, the toner cartridge accommodates a stirring portion that stirs the internal toner by rotating under the driving force, and an engaging recess is provided at the end of the rotating shaft of the stirring portion. . When the toner cartridge is mounted on the casing, the driving shaft member is fitted into the engaging recess and connected, and the driving force is transmitted from the driving shaft member to the agitation unit.
Japanese Patent Laid-Open No. 10-240008

  Generally, gear teeth are formed in each of the drive shaft member and the engagement recess, and the drive shaft member is connected to the engagement recess when the gear teeth mesh with each other.

  Here, when the toner cartridge is mounted on the casing, there is a possibility that the gear tooth tip of the drive shaft member and the gear tooth tip of the engaging recess collide during the mounting. In that case, since the gear teeth of the drive shaft and the gear teeth of the engaging recess cannot be engaged, it is difficult to smoothly mount the toner cartridge on the casing, and each of the drive shaft and the engaging recess The teeth of the gear teeth may be damaged.

  An object of the present invention is to smoothly engage a gear provided in a toner cartridge and a gear provided in a developing housing without damaging the toner cartridge, and to smoothly attach the developing cartridge to the developing housing, and Another object of the present invention is to provide a developing device in which the toner cartridge is detachably mounted.

  In order to achieve the above object, a device according to a first aspect of the present invention is directed to a developing housing that supports a developer carrying member carrying a developer, and a gear on an end face in a direction orthogonal to the longitudinal direction of the developer carrying member. A toner cartridge that is detachable along the orthogonal direction with respect to the developing housing of the developing device having teeth and a driving gear that outputs a driving force, and is supplied to the developer carrier. A cartridge housing that contains the developer, a stirring member that is housed in the cartridge housing and rotates by being supplied with the driving force, and a rotating shaft of the stirring member. A gear tooth is formed on the end face in the orthogonal direction and meshed with the stirring gear, and meshed with the drive gear when the toner cartridge is mounted on the developing housing And ability of the transmission gear, is characterized by comprising a support member for movably supporting the transmission gear in mesh with the said transmission gear the stirring gear relative to the stirring gear.

The invention according to claim 2 is the invention according to claim 1, wherein the cartridge casing includes a first casing and a second casing movable with respect to the first casing. The second housing holds the transmission gear in a separated position separated from the drive gear in conjunction with the movement of the second housing, or holds the transmission gear in the separated position. A holding member for releasing is provided.

  The invention described in claim 3 is characterized in that, in the invention described in claim 2, the holding member is a protrusion engageable with the transmission gear or the support member.

  A device described in claim 4 is characterized in that, in the device described in claim 2 or 3, the second housing is accommodated in the first housing.

  A device described in claim 5 is the device described in claim 2 or 3, wherein the first housing is accommodated in the second housing.

  The invention according to claim 6 is the invention according to claim 4 or 5, characterized in that the transmission gear is arranged between the first housing and the second housing. Yes.

  According to a seventh aspect of the present invention, in the device according to any one of the second to sixth aspects, the cartridge housing is formed with an opening through which the developer supplied to the developer carrying member passes. The opening can be opened and closed by movement of the second housing relative to the first housing, and the holding member separates the transmission gear from the drive gear in conjunction with opening and closing of the opening. It is characterized in that the transmission gear is held at the separated position or the holding of the transmission gear at the separated position is released.

  The invention according to claim 8 is a developing device, comprising: a developing housing that supports a developer carrying member carrying a developer; and an end surface in an orthogonal direction perpendicular to a longitudinal direction of the developer carrying member. A drive gear that forms a gear tooth and outputs a driving force, and the toner cartridge according to any one of claims 2 to 7, wherein the developing housing is interlocked with the movement of the second housing. A holding member for holding the transmission gear at a separated position separated from the drive gear or releasing the holding of the transmission gear at the separated position is provided.

  The invention according to claim 9 is the invention according to claim 8, wherein the holding member covers the drive gear at the separated position and releases the holding of the transmission gear at the separated position. It is a cover that exposes the drive gear.

  The invention described in claim 10 is the invention described in claim 8 or 9, wherein the cartridge housing is formed with an opening through which the developer supplied to the developer carrier passes. The opening can be opened and closed by the movement of the second housing relative to the first housing, and in conjunction with the opening and closing of the opening, the holding member moves the transmission gear away from the drive gear. The transmission gear is held or released from holding at the separated position.

  According to the first aspect of the present invention, when the toner cartridge is mounted on the developing housing and the driving gear of the developing housing and the transmission gear of the toner cartridge are engaged with each other, the driving force is transmitted from the driving gear to the transmission gear and Since it is transmitted to the stirring member via the stirring gear, the developer can be stirred by rotating the stirring member.

Here, the toner cartridge is attached to and detached from the developing housing along an orthogonal direction orthogonal to the longitudinal direction of the developer carrier. In the transmission gear, gear teeth are formed on the end face in the orthogonal direction, and also in the drive gear, gear teeth are formed on the end face in the orthogonal direction. In this case, when the toner cartridge is mounted on the developing housing, the tooth tip of the transmission gear and the tooth tip of the drive gear may collide.

  However, the transmission gear is supported by the support member so as to be movable with respect to the stirring gear in a meshed state with the stirring gear. Therefore, even when the tooth tip of the transmission gear collides with the tooth tip of the drive gear when the toner cartridge is mounted on the developing housing, the transmission gear is not forced against the drive gear side. That is, since the transmission gear can be put on standby in a state where the tooth tip of the transmission gear and the tooth tip of the drive gear are in slight contact, it is possible to prevent damage to the gear teeth of both the transmission gear and the drive gear. The transmission gear can be meshed with the drive gear again.

  As a result, the transmission gear of the toner cartridge and the drive gear of the developing housing can be smoothly engaged without being damaged, and the toner cartridge can be smoothly mounted on the developing housing.

  According to the second aspect of the present invention, the holding member provided in the second housing of the cartridge housing holds the transmission gear in a separated position away from the drive gear in conjunction with the movement of the second housing. Or release the holding of the transmission gear at the separated position.

  Therefore, when the toner cartridge is mounted on the developing housing, if the transmission gear is held in the separation position by the holding member, the collision between the tooth tip of the transmission gear and the tooth tip of the drive gear can be prevented. . Then, after the mounting of the toner cartridge to the developing housing is completed, when the second housing is moved and the holding of the transmission gear at the separated position by the holding member is released, the transmission gear is automatically meshed with the driving gear. Can be made. On the other hand, when the transmission gear is again held at the separated position by the holding member by moving the second housing, the meshing state between the transmission gear and the drive gear is automatically released, so the toner cartridge is removed from the developing housing. It can be smoothly removed from the body. Thereby, the convenience can be improved.

  According to the third aspect of the present invention, the holding member can be simply configured by the protrusion. When the protrusion engages with the transmission gear, the protrusion can reliably perform the holding of the transmission gear at the separated position or the release of the holding of the transmission gear at the separated position. On the other hand, when the protrusion is engaged with the support member, the protrusion can indirectly hold the transmission gear at the separated position or release the holding of the transmission gear at the separated position. In this case, it is not necessary to directly contact the projection with the transmission gear, so that the degree of freedom in design can be improved.

  According to the fourth aspect of the invention, since the second casing that moves relative to the first casing is accommodated in the first casing, the movement of the second casing is hindered by an external force. Can be prevented.

  According to the fifth aspect of the invention, since the first housing is accommodated in the second housing, the second housing that moves relative to the first housing can be easily maintained.

  According to the sixth aspect of the present invention, the transmission gear is disposed between the first housing and the second housing, so that the transmission gear can be protected.

  According to the seventh aspect of the present invention, the holding member holds the transmission gear in the separated position in conjunction with opening / closing of the opening through which the developer supplied to the developer carrier passes, or in the separated position. Release the transmission gear.

Therefore, when the holding member holds the transmission gear in the separated position in conjunction with the opening closing operation, the meshing state of the transmission gear and the drive gear can be automatically released by closing the opening. Accordingly, the toner cartridge can be smoothly detached from the developing housing without spilling the developer from the opening. On the other hand, when the holding of the transmission gear at the separated position by the holding member is released in conjunction with the opening operation of the opening, the transmission gear and the driving gear are automatically meshed by opening the opening, and the driving force is applied to the stirring member. The developer can be supplied to the developer carrying member from the opening. As a result, convenience can be improved.

  According to the eighth aspect of the present invention, the holding member provided in the developing case holds the transmission gear at the separated position separated from the drive gear in conjunction with the movement of the second housing, or is separated. Release the holding of the transmission gear at the position.

  Therefore, when the toner cartridge is mounted on the developing housing, if the transmission gear is held in the separation position by the holding member, the collision between the tooth tip of the transmission gear and the tooth tip of the drive gear can be prevented. . Then, after the mounting of the toner cartridge to the developing housing is completed, when the second housing is moved and the holding of the transmission gear at the separated position by the holding member is released, the transmission gear is automatically meshed with the driving gear. Can be made. On the other hand, when the transmission gear is again held at the separated position by the holding member by moving the second housing, the meshing state between the transmission gear and the drive gear is automatically released, so the toner cartridge is removed from the developing housing. It can be smoothly removed from the body. Thereby, the convenience can be improved.

  According to the device of the ninth aspect, the holding member can be simply configured by the cover. Since the cover covers the drive gear at the separated position, the transmission gear can be reliably separated from the drive gear. On the other hand, when the cover releases the holding of the transmission gear at the separated position, the drive gear is exposed, so that the transmission gear and the drive gear can be reliably engaged. Thus, the cover can serve both as a holding member and as a function of covering or exposing the drive gear.

  According to the tenth aspect of the present invention, the holding member holds the transmission gear at the separated position in conjunction with opening / closing of the opening through which the developer supplied to the developer carrier passes, or at the separated position. Release the transmission gear.

  Therefore, when the holding member holds the transmission gear in the separated position in conjunction with the opening closing operation, the meshing state between the transmission gear and the drive gear can be automatically released by closing the opening. Thus, the toner cartridge can be smoothly detached from the developing housing without spilling the developer from the opening. On the other hand, when the holding of the transmission gear in the separated position by the holding member is released in conjunction with the opening operation of the opening, the transmission gear and the driving gear are automatically meshed by opening the opening, and the driving force is applied to the stirring member. The developer can be supplied to the developer carrying member from the opening. As a result, convenience can be improved.

1 is a side sectional view showing an embodiment of a laser printer as an example of an image forming apparatus of the present invention. FIG. 2 is a side sectional view of a process cartridge (a state where a toner cartridge is mounted and a swing arm is in a pressing position) of the laser printer shown in FIG. 1. FIG. 2 is a side sectional view of a process cartridge (a state where a toner cartridge is detached and a swing arm is in a pressing release position) of the laser printer shown in FIG. 1. FIG. 5 is a partially cutaway perspective view of the process cartridge as viewed obliquely from the right front side. FIG. 3 is an exploded perspective view of the process cartridge as viewed obliquely from the front right side. FIG. 4 is a perspective view of a process cartridge (toner cartridge mounted state) as viewed from the diagonally left rear side. FIG. 7A is a left side view of a main part of the process cartridge (toner cartridge mounted state), in which FIG. 7A shows a state in which the transmission gear is in the separated position, and FIG. 7B shows the gear teeth of the transmission gear. FIG. 7C shows a state in which the tip and the tooth tip of the gear tooth of the drive gear are in contact with each other, and FIG. 7C shows a state in which the transmission gear is in the meshing position. FIG. 8A is a perspective view of the toner cartridge as viewed obliquely from the rear left side. FIG. 8B is a perspective view of the inner housing of the toner cartridge shown in FIG. FIG. 8C is a first exploded perspective view of the inner housing shown in FIG. FIG. 8D is a second exploded perspective view of the inner housing shown in FIG. FIG. 9A is a perspective view of the toner cartridge according to Modification 3 (in a state where the outer housing is in the open position) as viewed obliquely from the rear left side. FIG.9 (b) shows the state which has an outer housing | casing in a closed position in Fig.9 (a). FIG. 9C is a perspective view of the inner housing shown in FIG. 9A viewed from the diagonally left rear side. FIG. 9D is an exploded perspective view of the inner housing shown in FIG. It is the perspective view which looked at the outer side housing | casing shown to Fig.9 (a) from diagonally left rear side.

1. 1 is a side sectional view showing an embodiment of a laser printer as an example of an image forming apparatus of the present invention. 2 is a side sectional view of the process cartridge of the laser printer shown in FIG. 1 (a state where the toner cartridge is mounted and the swing arm is in the pressing position).

  As shown in FIG. 1, the laser printer 1 includes a paper feeding unit 4 for feeding paper 3 into a main body casing 2, and an image forming unit 5 for forming an image on the fed paper 3. A paper discharge unit 6 that discharges the paper 3 on which an image is formed.

(1) Main Body Casing The main body casing 2 is formed in a box shape, and an opening is formed in a side wall on one side thereof, and a front cover 7 that opens and closes the opening is provided. By opening the front cover 7, a process cartridge 17 (which will be described later) as an example of a developing device can be attached to and detached from the main body casing 2 along the direction of the bold arrow in the figure.

  In the following description, the side on which the front cover 7 is provided is the front side (front side), and the opposite side is the rear side (back side). Further, the front side in the paper thickness direction in FIG. 1 is the left side, and the back side in the paper thickness direction in FIG. 1 is the right side. Moreover, the left-right direction and the width direction are synonymous. In the description of the process cartridge 17 and the toner cartridge 31, which will be described later, a state in which a frame-side passage port 34 and a cartridge-side passage port 47, which will be described later, are oriented in a substantially horizontal direction is used as a reference.

(2) Paper Feed Unit The paper feed unit 4 includes a paper feed tray 9, a paper feed roller 10, a paper feed pad 11, paper dust removing rollers 12 and 13, a registration roller 14, and a paper pressing plate 15. I have. The sheet 3 at the top of the sheet pressing plate 15 is sent out one by one by the sheet feed roller 10 and the sheet feed pad 11 and passes through various rollers 12 to 14, and then transferred to the image forming unit 5 (described later). To be carried). (3) Image Forming Unit The image forming unit 5 includes a scanner unit 16, a process cartridge 17, and a fixing unit 18.

(3-1) Scanner Unit The scanner unit 16 is provided in the upper part in the main body casing 2, and includes a laser light emitting unit (not shown), a polygon mirror 19 that is rotationally driven, a plurality of lenses 20, and a plurality of reflecting mirrors 21. I have. The laser beam emitted from the laser light emitting unit based on the image data is reflected by the polygon mirror 19 as shown by a one-dot chain line, and passes or reflects through the plurality of lenses 20 and the plurality of reflecting mirrors 21 to form a process cartridge. The surface of 17 photosensitive drums 25 (described later) is scanned.

(3-2) Process Cartridge The process cartridge 17 is disposed below the scanner unit 16 in the main casing 2 and is detachably attached to the main casing 2.

  As shown in FIG. 2, the process cartridge 17 includes a process frame 22 as an example of a developing housing in which a transfer path 29 that allows passage of the paper 3 is formed, and a cartridge housing portion 33 (described later) of the process frame 22. And a toner cartridge 31 that is detachably mounted.

  In the process frame 22, a partition wall 57 extending in the vertical direction is provided at a substantially central position in the front-rear direction. In the process frame 22, the rear portion of the partition wall 57 is the developing portion 32, and the front portion of the partition wall 57 is the cartridge housing portion 33 described above. A frame-side passage port 34 is formed in the partition wall 57.

  In the developing unit 32, a photosensitive drum 25, a scorotron charger 26, a transfer roller 28, a supply roller 36, a developing roller 37 as an example of a developer carrying member, and a layer thickness regulating blade 38 are provided.

  The photosensitive drum 25 is long in the width direction and is rotatably supported by the process frame 22. The scorotron charger 26 is supported by the process frame 22 above the photosensitive drum 25 and spaced from the photosensitive drum 25. The transfer roller 28 is long in the width direction, is disposed to face the photosensitive drum 25 from below the photosensitive drum 25, and is rotatably supported by the process frame 22. The developing roller 37 is long in the width direction and is disposed opposite to the front side of the photosensitive drum 25. The supply roller 36 is long in the width direction and is disposed opposite to the front side of the developing roller 37. The developing roller 37 and the supply roller 36 are rotatably supported by the process frame 22. The layer thickness regulating blade 38 includes a leaf spring member 45 formed in a thin plate shape and a pressure contact rubber 46 provided at a lower end portion of the leaf spring member 45. The upper end portion of the leaf spring member 45 is fixed to the process frame 22, and the pressure contact rubber 46 presses the surface of the developing roller 37 by the elastic force of the leaf spring member 45.

  The toner cartridge 31 is detachably attached to the process frame 22 in the cartridge housing portion 33. The toner cartridge 31 is formed in a substantially cylindrical shape. The toner cartridge 31 is formed with a cartridge-side passage port 47 for communicating the inside and the outside.

  In the toner cartridge 31, an agitator 93 as an example of a stirring member is rotatably provided. The toner cartridge 31 contains a non-magnetic one-component positively chargeable toner as an example of a developer.

  The toner in the toner cartridge 31 is agitated by the rotation of the agitator 93, received from the cartridge side passage port 47 into the frame side passage port 34, and discharged into the developing unit 32. The discharged toner is supplied to the supply roller 36.

The toner supplied to the supply roller 36 is supplied to the developing roller 37 by the rotation of the supply roller 36. At this time, the toner is frictionally charged positively between the supply roller 36 and the developing roller 37. Subsequently, the toner supplied to the developing roller 37 enters between the pressure contact rubber 46 and the developing roller 37 as the developing roller 37 rotates, and the layer thickness is regulated between them. It is carried on the surface of 37 as a thin layer.

  The surface of the photosensitive drum 25 is first uniformly charged positively by the scorotron charger 26 as the photosensitive drum 25 rotates, and then exposed by a laser beam from the scanner unit 16 to form image data. A based electrostatic latent image is formed. Next, the toner carried on the surface of the developing roller 37 is supplied to the electrostatic latent image formed on the surface of the photosensitive drum 25 when the toner carried on the surface of the developing roller 37 contacts the photosensitive drum 25 by rotation of the developing roller 37. Is done. As a result, the electrostatic latent image is developed (visualized), and a toner image is carried on the surface of the photosensitive drum 25. This toner image is transferred onto the sheet 3 conveyed between the photosensitive drum 25 and the transfer roller 28 (transfer position) in the transfer path 29.

(3-3) Fixing Unit The fixing unit 18 is provided on the rear side of the process cartridge 17 as shown in FIG. The fixing unit 18 includes a heating roller 48, a pressure roller 49 that is pressed against the heating roller 48 from below, and a pair of conveying rollers 50 disposed on the rear side thereof.

  In the fixing unit 18, the toner transferred to the sheet 3 at the transfer position is thermally fixed while the sheet 3 passes between the heating roller 48 and the pressure roller 49. Thereafter, the sheet 3 is transported to the paper discharge unit 6 by a pair of transport rollers 50.

(4) Paper Discharge Unit The paper discharge unit 6 includes a paper discharge path 51, a paper discharge roller 52, and a paper discharge tray 53. The sheet 3 conveyed from the fixing unit 18 to the sheet discharge path 51 is conveyed from the sheet discharge path 51 to the sheet discharge roller 52 and is discharged onto the sheet discharge tray 53 by the sheet discharge roller 52.

2. Details of Process Cartridge FIG. 3 is a side sectional view of the process cartridge of the laser printer shown in FIG. 1 (a state where the toner cartridge is detached and the swing arm is in the pressing release position). FIG. 4 is a partially cutaway perspective view of the process cartridge as viewed obliquely from the right front side. FIG. 5 is an exploded perspective view of the process cartridge as viewed obliquely from the right front side. FIG. 6 is a perspective view of the process cartridge (toner cartridge mounted state) as viewed obliquely from the left rear side. FIG. 7 is a left side view of the main part of the process cartridge (toner cartridge mounted state). FIG. 7A shows a state where the transmission gear is in the separated position, and FIG. 7B shows the state of the transmission gear. FIG. 7 (c) shows a state where the tooth tip of the gear tooth and the tooth tip of the gear tooth of the drive gear are in contact with each other, and FIG. 7 (c) shows a state where the transmission gear is in the meshing position.

(1) Process Frame As shown in FIG. 3, the process frame 22 integrally includes the developing unit 32 and the cartridge housing unit 33 described above.

(1-1) Developing Unit As shown in FIGS. 3 and 4, the developing unit 32 integrally includes an upper wall 54, a bottom wall 55, both side walls 56, and the partition wall 57 described above. Both side walls 56 are arranged to face each other with a space therebetween in the width direction. Each side wall 56 is disposed along the front-rear direction.

The developing roller 37 is supported by the process frame 22 by being rotatably supported by the front side portions of the side walls 56 (see FIG. 3). As shown in FIG. 6, a developing gear 58 is attached to the left end portion of the developing roller 37 so as not to rotate relative to the developing roller 37. Specifically, the developing gear 58 is disposed on the right side (the inner side in the width direction) of the left side wall 56. The development gear 58 is a gear centered on the rotation axis (axis extending in the width direction) of the development roller 37, and gear teeth are formed on the outer peripheral surface (end surface in the orthogonal direction perpendicular to the width direction).

  The supply roller 36 is supported by the process frame 22 by being rotatably supported by the front side portions of the side walls 56 on the front side of the developing roller 37 (see FIG. 3). A supply gear 59 is attached to the left end portion of the supply roller 36 so as not to rotate relative to the supply roller 36. Specifically, the supply gear 59 is disposed on the right side (the inner side in the width direction) of the left side wall 56. The supply gear 59 is a gear whose center is a rotation axis (an axis extending in the width direction) of the supply roller 36, and gear teeth are formed on an outer peripheral surface (an end surface in a direction orthogonal to the width direction).

  A drive gear 62 is provided on the front side of the supply gear 59. The drive gear 62 is a gear centered on an axis extending in the width direction, and gear teeth are formed on an outer peripheral surface (an end surface in a direction orthogonal to the width direction). The drive gear 62 is arranged around the center of the circle by the right side surface of the left side wall 56 (including a part of the left side plate 63 described later) with the front gear teeth exposed in the cartridge housing portion 33. It is supported rotatably. The drive gear 62 meshes with the supply gear 59 from the front side.

  As shown in FIG. 6, a support hole 60 penetrating the side wall 56 is formed in the left side wall 56 at a position on the front side of the developing gear 58 and the upper side of the supply gear 59. The support hole 60 has a circular shape in a side view. A coupling gear 61 is fitted in the support hole 60.

  The coupling gear 61 is a gear whose center is a circle extending in the width direction, and is supported by the left side wall 56 so as to be rotatable around the center of the circle. In the coupling gear 61, gear teeth that mesh with the developing gear 58 and the supply gear 59 are formed at the right end of the outer peripheral surface (the end surface in the orthogonal direction orthogonal to the width direction). On the left end surface of the coupling gear 61, a substantially concave portion 112 having a shape of 8 in side view that is recessed toward the right side is formed. The recess 112 is exposed on the left side through the support hole 60.

  An output shaft (not shown) of a motor provided in the main body casing 2 is fitted into and connected to the recess 112 of the coupling gear 61 shown in FIG. When an output shaft (not shown) rotates by driving a motor (not shown), the coupling gear 61 connected to the output shaft (not shown) rotates clockwise (shown in the figure). (See arrow A) Rotate. Thus, the driving force generated by the motor (not shown) is input to the coupling gear 61. The developing gear 58 and the supply gear 59 that mesh with the coupling gear 61 rotate counterclockwise (see the arrow B in the drawing) when viewed from the left side, and the drive gear 62 that meshes with the supply gear 59 rotates clockwise when viewed from the left side. (See arrow C in the figure) Rotate. That is, the driving force of a motor (not shown) is transmitted (input) to the developing gear 58 and the supply gear 59 via the coupling gear 61, and is transmitted (input) from the supply gear 59 to the drive gear 62. . When the driving force is transmitted to the developing gear 58 and the supply gear 59, the developing roller 37 and the supply roller 36 rotate. As will be described later, the driving gear 62 can output the input driving force.

  As shown in FIG. 3, the partition wall 57 is formed with a curved portion along the outer peripheral surface of the toner cartridge 31 in the middle in the vertical direction.

  The frame-side passage port 34 is formed at the approximate center in the width direction of the curved portion of the partition wall 57. The frame side passage opening 34 is formed in a substantially rectangular shape elongated in the width direction.

(1-2) Cartridge Storage Unit The cartridge storage unit 33 includes both side plates 63 and a bottom plate 64 as shown in FIG. The side plates 63 and the bottom plate 64 are continuous with the side walls 56 and the bottom wall 55 of the developing unit 32 and are integrally formed therewith.

  A shutter guide portion 78 and an upper fixing portion 66 are provided on the inner side surface in the width direction of both side plates 63.

  The shutter guide portion 78 has a protruding ridge that bulges inward from the inner side surface in the width direction of the side plate 63 at the rear end portion of the side plate 63, and is opposed to the curved portion of the partition wall 57 with a slight space in the front-rear direction. Has been. The shutter guide portion 78 is formed in a curved shape having substantially the same curvature as the curved portion of the partition wall 57. The drive gear 62 described above is disposed below the left shutter guide portion 78.

  The upper fixing portion 66 is a ridge that bulges inward from the inner side surface in the width direction of the side plate 63 at the rear upper end portion of the side plate 63. Specifically, the upper fixing portion 66 is formed in a substantially U-shape that is recessed obliquely rearward and downward in a side view.

  The bottom plate 64 is formed with a lower fixing portion 67 that slightly protrudes to the front side at the center in the width direction of the front end edge (see FIG. 3).

  The cartridge housing portion 33 is provided with a shutter 68 that opens and closes the frame-side passage port 34.

  The shutter 68 has a substantially rectangular thin plate shape extending in the width direction, and is formed in a curved shape having substantially the same curvature as the curved portion of the partition wall 57. The shutter 68 is formed to extend between the shutter guide portions 78 in the width direction and slightly longer than the shutter guide portions 78 in the vertical direction. The shutter 68 is formed with a shutter opening 69 that can face the frame side passage opening 34. Further, a protective cover 76 as an example of a holding member is integrally provided at the lower end portion of the left end portion of the shutter 68. The protective cover 76 is formed in a thin plate shape that extends forward and then bends to the left.

  As shown in FIG. 3, the shutter 68 is disposed to face the curved portion of the partition wall 57, and both end portions in the width direction are slidably sandwiched between the partition wall 57 and the shutter guide portions 78.

  As a result, the shutter 68 is opened along the shutter guide portions 78 to open the frame-side passage opening 34 (see FIGS. 2, 7B and 7C), and the frame-side passage opening 34 is opened. Is supported so as to be swingable in the vertical direction between the closed position (see FIGS. 3, 5 and 7A).

  When the shutter 68 is in the open position, as shown in FIG. 2, the frame-side passing port 34 faces the shutter opening 69 and is opened outward (front side). Further, as shown in FIGS. 7B and 7C, since the protective cover 76 is disposed at a slightly lower position on the front side of the drive gear 62, the drive gear 62 is exposed to the front side.

  When the shutter 68 is in the closed position, as shown in FIG. 3, the frame-side passage port 34 is closed from the front side by a portion below the shutter opening 69 in the shutter 68. Further, as shown in FIG. 7A, since the protective cover 76 is disposed close to the front side of the drive gear 62, the drive gear 62 is covered from the front side by the protective cover 76.

  Further, as shown in FIG. 5, the cartridge housing portion 33 is provided with a swing arm 70. The swing arm 70 is formed in a substantially U shape in plan view. The swing arm 70 is integrally provided with a gripping rod 71 extending in the width direction and arm side plates 72 extending rearward from both widthwise ends of the gripping rod 71.

  A boss 73 protruding outward in the width direction is provided at the rear end of each arm side plate 72. Each boss 73 is rotatably supported in a round hole 74 formed in the corresponding side plate 63.

  A receiving recess 75 is formed at the upper edge of the rear end of each arm side plate 72 so as to be cut out so as to be recessed downward.

  The swing arm 70 has a boss 73 of each arm side plate 72 as a fulcrum, a pressing release position where the lower end edge of each arm side plate 72 contacts the front end edge of the bottom plate 64 (see FIGS. 3 and 5), and the toner cartridge 31 When it is accommodated in the cartridge accommodating portion 33, it swings between a pressing position (see FIGS. 2 and 4) for pressing the toner cartridge 31 from the front side.

(2) Toner Cartridge FIG. 8A is a perspective view of the toner cartridge as viewed obliquely from the left rear side. FIG. 8B is a perspective view of the inner housing of the toner cartridge shown in FIG. FIG. 8C is a first exploded perspective view of the inner housing shown in FIG. FIG. 8D is a second exploded perspective view of the inner housing shown in FIG.

As illustrated in FIG. 8, the toner cartridge 31 includes an inner casing 81 that stores toner and an outer casing 82 that stores the inner casing 81. The inner casing 81 functions as an example of the second casing, and the outer casing 82 functions as an example of the first casing. The inner casing 81 and the outer casing 82 also function as an example of a cartridge casing.
(2-1) Inner Housing As shown in FIG. 8B, the inner housing 81 includes a substantially cylindrical inner peripheral wall 83 that extends in the width direction, and a disk that closes both ends in the width direction of the inner peripheral wall 83. A pair of inner side walls 84 having a shape are integrally provided.

  A slide protrusion 86 is provided on the upper side of each inner side wall 84. The slide protrusion 86 is formed in a side-view arc shape (arc shape with a central angle of about 60 °) along the outer peripheral surface of the inner side wall 84, and is provided so as to protrude outward in the width direction from the inner side wall 84.

  Each inner side wall 84 is provided with a pair of sandwiching protrusions 87 projecting in the radial direction from the peripheral end surface at the rear side portion. The pair of sandwiching protrusions 87 are arranged on the circumferential end surface of the inner side wall 84 with a circumferential interval (interval corresponding to the circumferential length of the shutter 68).

  As shown in FIG. 8C, the left inner side wall 84 is formed with a circular through hole 77 in a circular shape in side view that penetrates the inner side wall 84 at the center of the circle. The inner side wall 84 is integrally provided with an annular support rib 79 that protrudes to the left (outside in the width direction) along the periphery of the through hole 77. In addition, on the left inner side wall 84, a columnar protrusion (referred to as a holding protrusion 100) that protrudes to the left is integrally provided on the opposite side (lower side) of the slide protrusion 86 with respect to the support rib 79. . The holding protrusion 100 functions as an example of a holding member.

In the inner peripheral wall 83, an inner passage port 89 that forms a part of the cartridge side passage port 47 is formed in the surrounding portion 88 surrounded by a pair of sandwiching protrusions 87 (four sandwiching protrusions 87) disposed on both sides in the width direction. Has been. The inner passage port 89 functions as an example of an opening.

  The inner passage port 89 is formed in a substantially upper portion of the surrounding portion 88. At the time of image formation, as shown in FIG. 2, the inner passage opening 89 faces the frame side passage opening 34.

  An agitator 93 is provided in the inner casing 81. The agitator 93 includes an agitator shaft 94 extending in the width direction, and a stirring blade 95 extending radially outward from the agitator shaft 94. The agitator shaft 94 functions as an example of a rotation shaft.

  The agitator shaft 94 is a round bar having a diameter smaller than that of the through hole 77. As shown in FIG. 8C, the outer peripheral surface of the left end portion is locally cut out, and the cross section of the left end portion is substantially semicircular. Shape. In a state where the agitator 93 is accommodated in the inner housing 81, the left end portion of the agitator shaft 94 is exposed from the through hole 77 to the left side of the left inner side wall 84. An agitator gear 80 as an example of a stirring gear is attached to the left end portion of the agitator shaft 94.

  The agitator gear 80 is a gear centered on the agitator shaft 94, and gear teeth are formed on the outer peripheral surface (the end surface in the orthogonal direction orthogonal to the width direction). A through hole having substantially the same shape as the cross-sectional shape (substantially semicircular shape) of the left end portion of the agitator shaft 94 is formed at the center of the circle of the agitator gear 80. When the left end portion of the agitator shaft 94 is fitted into the through hole, the agitator gear 80 is not rotatable relative to the agitator shaft 94 (see FIGS. 8B and 8D). Although not shown, the surface of the agitator gear 80 that faces the left inner side wall 84 (the right side surface in FIG. 8C) has a smaller diameter than the through hole 77 and a larger diameter than the agitator shaft 94. A circular pipe portion protruding in the direction approaching the inner side wall 84 (right side) is formed. The inside of this circular pipe portion communicates with the through hole of the agitator gear 80. When the agitator gear 80 is attached to the agitator shaft 94, the circular pipe portion is inserted into the through hole 77. Specifically, the circular pipe portion is loosely fitted in the through hole 77 so as to be disposed between the support rib 79 and the agitator shaft 94, and the left end portions of the agitator gear 80 and the agitator shaft 94 are supported by the support rib. 79 is supported by the support rib 79 so as to be relatively rotatable. The right end portion of the agitator shaft 94 is rotatably supported by the right inner side wall 84. As described above, the agitator shaft 94 is rotatably supported by the both inner side walls 84.

  In the width direction, a link lever 96 as an example of a support member is inserted between the left inner side wall 84 and the agitator gear 80 (see FIGS. 8B and 8D). The link lever 96 is formed in a thin plate shape integrally including a fitting portion 97 and a support portion 98. The fitting portion 97 is formed in a substantially annular shape in a side view in which a through hole having a slightly larger diameter than the support rib 79 is formed. The support part 98 is formed in a substantially rectangular shape in a side view extending from one place on the circumference of the fitting part 97 toward the outside of the diameter of the fitting part 97. The support portion 98 is integrally provided with a columnar support shaft 99 that protrudes to the left along the width direction. The link lever 96 is rotatably supported around the support rib 79 by fitting the through hole of the fitting portion 97 to the support rib 79 (see FIG. 8D). Further, in a state where the inner passage port 89 faces the rear side, the support portion 98 is engaged with the holding projection 100 from the upper side. In this state, the link lever 96 is held by the holding protrusion 100 so that the support portion 98 is directed rearward (see FIG. 8D).

A transmission gear 91 is rotatably attached to the support shaft 99 of the link lever 96 (see FIGS. 8B and 8D). The transmission gear 91 is a gear having the support shaft 99 as a circle center, and gear teeth are formed on the outer peripheral surface (the end surface in the orthogonal direction orthogonal to the width direction). The transmission gear 91 is formed with a round hole (referred to as a gear through hole 121) penetrating the transmission gear 91 in the width direction at the center of the circle (rotation center). The gear through hole 121 is slightly larger in diameter than the support shaft 99. The transmission gear 91 is rotatably supported by the support shaft 99 by inserting the support shaft 99 into the gear through hole 121. The transmission gear 91 meshes with the agitator gear 80 from the rear side while being supported by the support shaft 99 (see FIG. 8B). Further, the transmission gear 91 is rotatable around the support rib 79 together with the link lever 96 in a state where the transmission gear 91 is engaged with the agitator gear 80. That is, the transmission gear 91 is supported by the link lever 96 so as to be movable with respect to the agitator gear 80 in a meshed state with the agitator gear 80. Further, the transmission gear 91 moves relative to the inner casing 81 when rotating around the support rib 79.

  Here, on the left side surface of the left inner side wall 84, a substantially annular rib (annular rib 92) that protrudes to the left side substantially along the outer peripheral edge and through the radially outer position of the slide protrusion 86. ) Are provided integrally. The rear portion of the annular rib 92 and the vicinity of the transmission gear 91 are notched (this portion is referred to as the inner notch 103), and the gear teeth of the transmission gear 91 are rearward from the inner notch 103. It is exposed toward the side (see FIG. 8B). The transmission gear 91 and the link lever 96 are rotatable around the support rib 79 within a range where the transmission gear 91 is exposed from the inner notch 103.

(2-2) Outer casing As shown in FIG. 8A, the outer casing 82 is slightly larger in the width direction and the radial direction than the inner casing 81 in order to accommodate the inner casing 81 in a rotatable manner. Is formed. The outer casing 82 is integrally provided with a substantially cylindrical outer peripheral wall 101 extending in the width direction and a pair of substantially disc-shaped outer side walls 102 that close both ends of the outer peripheral wall 101 in the width direction.

  In the outer peripheral wall 101, the outer peripheral surfaces of the upper and front upper portions thereof are formed in a flat shape, but the inner peripheral surface of the outer peripheral wall 101 is formed in a circular cross section (see FIG. 2). .

  A slide hole 104 through which the slide protrusion 86 is inserted is formed in the outer side wall 102 in the vicinity of the upper peripheral edge. The slide hole 104 is disposed so as to face the slide protrusion 86 in the width direction. The slide hole 104 is formed in a circular arc shape in a side view longer than the slide protrusion 86.

  On the peripheral end surface of the outer side wall 102, an upper fixed portion 105 that slightly protrudes to the rear side is formed above the rear end portion of the slide hole 104. A positioning boss 106 protruding outward in the width direction is provided at the rear end portion of the upper fixed portion 105.

  The outer peripheral wall 101 is formed with four elongated holes 108 through which a pair of sandwiching protrusions 87 (four sandwiching protrusions 87) are respectively inserted at both ends in the width direction. Each long hole 108 is disposed so as to face each clamping protrusion 87 in the radial direction. The long hole 108 has a substantially rectangular shape extending in the vertical direction when viewed from the back, and is formed with a length corresponding to the swing range between the open position and the closed position of the shutter 68.

  The outer peripheral wall 101 has an outer passage port 109 that forms a part of the cartridge side passage port 47 between the four elongated holes 108 (between the upper two elongated holes 108 and the lower two elongated holes 108). Is formed. During image formation, the outer passage port 109 faces both the inner passage port 89 and the frame side passage port 34 (see FIG. 2).

  In the connecting portion between the outer peripheral wall 101 and the left outer side wall 102, a portion near the lower left long hole 108 is cut out so as to be continuous with the long hole 108 (this portion is referred to as an outer cutout 107). ).

  A grip portion 113 is provided on the front side of the outer peripheral wall 101 at the center in the width direction.

  As shown in FIG. 2, the gripping portion 113 has a substantially rectangular upper gripping plate 114 projecting from the upper side of the outer peripheral wall 101 to the front side, and a substantially J-shaped side view extending downward from the lower side of the upper gripping plate 114. And a locking arm 115. The upper end portion of the locking arm 115 is swingably supported by a support shaft 116 provided below the upper gripping plate 114. A locking claw 117 that locks to the lower fixing portion 67 is provided at the lower end of the locking arm 115. In the vicinity of the upper end of the locking arm 115, a substantially rectangular lower gripping plate 118 that projects forward is integrally provided. The lower gripping plate 118 is disposed so as to extend substantially in parallel with the upper gripping plate 114 at a distance.

  A compression spring (not shown) that urges the upper gripping plate 114 and the lower gripping plate 118 in a direction to separate them is interposed.

(2-3) Relative Arrangement of Inner Housing and Outer Housing and Relative Movement of Inner Housing The inner housing 81 is housed in the outer housing 82 so as to be rotatable.

  Specifically, the outer peripheral surface of the inner peripheral wall 83 is fitted into the inner peripheral surface of the outer peripheral wall 101 so as to be slidable in the circumferential direction. Therefore, the circular center of the inner peripheral surface of the outer peripheral wall 101 and the axial center of the agitator shaft 94 coincide with each other in a side view.

  8A, the transmission gear 91 and the agitator gear 80 are provided between the left inner side wall 84 and the left outer side wall 102, that is, between the inner casing 81 and the outer casing 82. Is arranged.

  A corresponding slide protrusion 86 is inserted into the slide hole 104, and the slide protrusion 86 protrudes outward in the width direction from the slide hole 104. A corresponding holding projection 87 is inserted into the long hole 108, and the holding projection 87 protrudes radially outward from the long hole 108.

  Referring to FIG. 2, the inner housing 81 has a closed position (see FIG. 7A) where the inner passage port 89 does not face the outer passage port 109 with respect to the outer housing 82, and the inner passage port 89 Between the open position (refer to FIG. 2, FIG. 7 (b), FIG. 7 (c) and FIG. 8 (a)) facing the outer passage port 109, the circle center of the inner peripheral surface of the outer peripheral wall 101 is a fulcrum. Relative rotation is allowed. As will be described later, the inner passage port 89 is opened and closed by rotation between the closed position and the opened position of the inner casing 81.

  Referring to FIG. 8A, when the inner casing 81 is in the closed position, each slide protrusion 86 is disposed at the front end of each slide hole 104, and each holding protrusion 87 is at the upper end of each elongated hole 108. The inner passage port 89 is disposed above the outer passage port 109 (see the dotted line portion in FIG. 8A). The inner passage port 89 is closed by a portion above the outer passage port 109 in the outer peripheral wall 101. In other words, the inner passage port 89 is closed by the outer casing 82. Further, as shown in FIG. 7A, the support portion 98 of the link lever 96 engages with the holding protrusion 100 from the upper side and protrudes toward the rear side (specifically, obliquely rearward upper side). . The position of the transmission gear 91 supported by the support portion 98 in this posture is referred to as a separated position. In other words, the transmission gear 91 is held at the separated position by the holding protrusion 100 that engages with the link lever 96.

Then, as shown in FIG. 8A, the inner housing 81 is moved with respect to the outer housing 82 in the open position side, that is, in a direction (lower side) in which the inner passage port 89 faces the outer passage port 109. Rotate relative. Thereby, each slide projection 86 slides each slide hole 104 from the front end portion toward the rear end portion, and each clamping projection 87 slides each long hole 108 from the upper end portion toward the lower end portion. At this time, as shown in FIGS. 7B and 7C, the holding projection 100 rotates downward integrally with the inner housing 81, so that the link lever 96 has the support portion 98 with the holding projection 100. , The link lever 96 and the transmission gear 91 are rotated downward by their own weights. Thereby, the support part 98 descend | falls and the transmission gear 91 which was in the separation position also descends. In this way, the holding projection 100 releases the holding of the transmission gear 91 at the separated position in conjunction with the rotation of the inner casing 81 to the open position (in other words, the opening operation of the inner passage port 89).

  Then, as shown in FIG. 8A, when each slide protrusion 86 reaches the rear end of each slide hole 104 and each holding protrusion 87 reaches the lower end of each long hole 108, the inner casing 81 is opened. Placed in.

  When the inner casing 81 is disposed at the open position, the slide protrusions 86 are disposed at the rear end portions of the slide holes 104, the holding protrusions 87 are disposed at the lower end portions of the long holes 108, and the inner passage openings 89. Is opposed to the corresponding outer passage port 109, and these are communicated and opened. In other words, the inner passage port 89 is opened by the outer casing 82. Moreover, the support part 98 of the link lever 96 protrudes toward the rear side (specifically diagonally rear side downward) (refer FIG.7 (c)). The position of the transmission gear 91 supported by the support portion 98 in this posture is referred to as a meshing position. When the transmission gear 91 is in the meshing position, the inner notch 103 and the outer notch 107 coincide with each other in the radial direction, and the transmission gear 91 moves obliquely rearward and downward through the inner notch 103 and the outer notch 107. It is exposed towards. As described above, the meshing position (see FIG. 7C) is a position away from the separated position (see FIG. 7A). The transmission gear 91 is movable between the meshing position and the separation position. When the transmission gear 91 is in the meshing position, the support portion 98 is spaced slightly upward from the holding projection 100 (see FIG. 7C).

  On the other hand, in a state where the inner casing 81 is in the open position, the inner casing with respect to the outer casing 82 toward the closed position, that is, the direction in which the inner passage port 89 is separated from the outer passage port 109 (upper side). 81 is relatively rotated. Thereby, each slide projection 86 slides each slide hole 104 from the rear end portion toward the front end portion, and each clamping projection 87 slides each long hole 108 from the lower end portion toward the upper end portion. At this time, since the holding protrusion 100 rotates upward integrally with the inner casing 81, the link lever 96 rotates upward when the support portion 98 is pressed upward by the holding protrusion 100. Along with this, the support portion 98 rises and the transmission gear 91 also rises (see FIG. 7A).

  When each slide protrusion 86 reaches the front end of each slide hole 104 and each holding protrusion 87 reaches the upper end of each long hole 108, the inner casing 81 is brought into the closed position as shown in FIG. Be placed. At this time, the holding protrusion 100 is continuously engaged with the support portion 98, and the transmission gear 91 is disposed at the separated position. In this way, the holding protrusion 100 holds the transmission gear 91 in the separated position in conjunction with the rotation of the inner casing 81 to the closed position (in other words, the closing operation of the inner passage port 89).

(3) Attaching / detaching toner cartridge to / from process frame (3-1) Attaching toner cartridge to / from process frame To attach toner cartridge 31 to process frame 22, as shown in FIG. 118 are clamped in the direction in which they approach, against the urging force of a compression spring (not shown). Then, the toner cartridge 31 (the toner cartridge 31 in which the inner casing 81 is disposed in the closed position) is replaced with the cartridge housing portion 33 (the shutter 68 is disposed in the closed position, and the swing arm 70 is disposed in the press releasing position). Is accommodated in the cartridge accommodating portion 33). The mounting direction of the toner cartridge 31 to the process frame 22 and the removal direction of the toner cartridge 31 described later from the process frame 22 are the front-rear direction, that is, the direction orthogonal to the width direction. At this time, the transmission gear 91 is in the separated position (see FIG. 7A). In the process frame 22, the drive gear 62 is covered with a protective cover 76.

  The toner cartridge 31 accommodated in the cartridge accommodating portion 33 is placed on the bottom plate 64. At this time, each positioning boss 106 is fitted to each upper fixing portion 66, each slide projection 86 is fitted to each receiving recess 75 as shown in FIG. 4, and as shown in FIG. A pair of sandwiching protrusions 87 on both sides sandwich the upper end edge and the lower end edge at both ends in the width direction of the shutter 68.

  Thereafter, when the clamping of the upper gripping plate 114 and the lower gripping plate 118 is released, the locking arm 115 is swung by the urging force of the compression spring, and the locking claw 117 is locked to the lower fixing portion 67, and the toner cartridge 31 is attached to the process frame 22.

  In the outer casing 82, the positioning boss 106 is fitted to the upper fixing portion 66 (see FIG. 5), and the locking claw 117 is locked to the lower fixing portion 67. Fixed.

  At this time, as shown in FIG. 7A, the transmission gear 91 in the separated position contacts the protective cover 76 from the upper side, and the drive gear 62 covered by the protective cover 76 is upward. Are arranged at intervals. Thus, the transmission gear 91 is held at the separated position not only by the holding projection 100 but also by the protective cover 76.

  Then, the swing arm 70 is swung from the press release position (see FIG. 3) to the press position (see FIG. 2). As a result, each slide projection 86 fitted in each receiving recess 75 slides each slide hole 104 rearward as the arm side plate 72 swings, and the rear end of each slide hole 104 (See FIG. 4). Along with this, a pair of clamping protrusions 87 on both sides in the width direction slide down the long holes 108 while holding the shutter 68, and are arranged at the lower ends of the long holes 108 (FIG. 8 ( a)).

  As a result, the inner casing 81 is disposed at the open position, and as shown in FIG. 2, the inner passage port 89 is opposed to the outer passage port 109 in the substantially horizontal direction and communicates therewith. Further, the shutter 68 is lowered and disposed at the open position, and the frame side passage port 34 faces the shutter opening 69 and the cartridge side passage port 47 (the inner passage port 89 and the outer passage port 109) in a substantially horizontal direction. These are communicated. Here, in the transmission gear 91 (see FIG. 7A) that has been in contact with the protective cover 76 from the upper side at the separated position, the protective cover 76 is lowered as the shutter 68 moves (lowers) to the open position. By doing so, the contact state with the protective cover 76 is released. Thereby, the transmission gear 91 can be moved (lowered) to the meshing position. That is, the protective cover 76 releases the holding of the transmission gear 91 at the separated position in conjunction with the rotation of the inner casing 81 to the open position (in other words, the opening operation of the inner passage port 89). Then, as the protective cover 76 descends to release the holding of the transmission gear 91 at the separated position, the drive gear 62 is exposed to the front side (see FIGS. 7B and 7C).

  Next, a process in which the transmission gear 91 and the drive gear 62 mesh with each other in accordance with the movement of the inner housing 81 from the closed position to the open position will be described.

  With the movement of the inner casing 81 from the closed position to the open position, the transmission gear 91 descends from the separated position to the meshing position as described above, and as shown in FIG. The drive gear 62 exposed by the movement to is contacted from above.

At this time, if the tooth tip of the gear tooth of the transmission gear 91 does not collide with the tooth tip of the gear tooth of the drive gear 62, the transmission gear 91 is in the engagement position as shown in FIG. Smoothly meshes. Further, the engagement state between the support portion 98 and the holding protrusion 100 is eliminated. The contact state between the transmission gear 91 and the protective cover 76 is continuously released. That is, the transmission gear 91 is held at the meshing position by the drive gear 62.

  On the other hand, even if the gear tooth tips of the transmission gear 91 collide with the gear tooth tips of the drive gear 62, the tooth tips of these gear teeth slightly contacted as shown in FIG. 7B. In this state, the transmission gear 91 is stationary (standby). That is, since the transmission gear 91 does not further descend in conjunction with the movement of the inner housing 81 to the open position, the tooth tips of the transmission gear 91 do not bite into the tooth tips of the drive gear 62, and the tooth tips of these gears. The state where it touched slightly is maintained. Then, since the inner casing 81 moves to the open position while the transmission gear 91 is stationary, the holding projection 100 that descends in conjunction with the inner casing 81 is separated downward from the support portion 98, and the support portion The engagement state between 98 and the holding protrusion 100 is eliminated. Thereafter, when the inner casing 81 is disposed at the open position and the drive gear 62 starts to rotate for image formation, the transmission gear 91 and the drive gear 62 are in contact with each other. Then, as shown in FIG. 7C, the state shifts to a state in which the gear teeth are completely meshed with each other. That is, the transmission gear 91 is disposed at the meshing position. In a state where the gear teeth of the transmission gear 91 and the drive gear 62 are completely meshed with each other, the transmission gear 91 is held at the meshing position by the drive gear 62, and the engagement state between the support portion 98 and the holding projection 100, and The contact state between the transmission gear 91 and the protective cover 76 is continuously released.

  As described above, when the drive gear 62 and the transmission gear 91 are engaged with each other, the above-described driving force is output from the drive gear 62 and is sequentially transmitted to the transmission gear 91, the agitator gear 80 and the agitator shaft 94. Thereby, the transmission gear 91 rotates counterclockwise (see the arrow D in the drawing) in the left side view. Then, the agitator gear 80 and the agitator shaft 94 rotate clockwise (see the arrow E in the drawing) in the left side view. As a result, the agitator 93 rotates in the same direction as the agitator gear 80, and the toner in the inner casing 81 is agitated. That is, the driving force is transmitted to the agitator 93. Then, as a result of stirring by the agitator 93 (specifically, the stirring blade 95), the toner in the inner casing 81 in the open position becomes, as shown in FIG. It passes through the frame-side passage port 34 along the substantially horizontal direction and is supplied into the developing unit 32. As described above, the toner supplied into the developing unit 32 is sequentially supplied to the supply roller 36, the developing roller 37, and the photosensitive drum 25.

(3-2) Removal of Toner Cartridge from Process Frame To release the toner cartridge 31 from the process frame 22, first, the swing arm 70 is swung from the pressed position to the pressed release position.

  When the swing arm 70 is swung from the press position to the press release position, each slide protrusion 86 (see FIG. 4) fitted in each receiving recess 75 is moved along with the swing of each arm side plate 72. Each slide hole 104 (see FIG. 8A) is slid forward and disposed at the front end of each slide hole 104. Then, a pair of clamping protrusions 87 on both sides in the width direction slide over the long holes 108 while holding the shutter 68, and are arranged at the upper ends of the long holes 108.

  Accordingly, the inner casing 81 is disposed at the closed position, and the inner passage port 89 is closed to face the outer peripheral wall 101 (see FIG. 7A). Further, the shutter 68 is disposed at the closed position, and the frame side passage opening 34 is closed to face the shutter 68 (see FIG. 3).

Here, when the inner housing 81 is moved from the open position to the closed position, the holding protrusion 100 that rotates upward presses the support portion 98 upward from the state shown in FIG. 7C. Furthermore, the protective cover 76 that rises as the shutter 68 moves to the closed position presses the transmission gear 91 upward. As a result, the transmission gear 91 located at the meshing position is raised, and as shown in FIG. 7A, the transmission gear 91 is spaced upward from the drive gear 62 and arranged at the separated position. The meshing state with the gear 62 is eliminated. As described above, the holding projection 100 is continuously engaged with the support portion 98, and the protective cover 76 is continuously in contact with the transmission gear 91, whereby the transmission gear 91 is held at the separated position. That is, the transmission gear 91 is held at the separated position by the holding protrusion 100 and the protective cover 76 in conjunction with the rotation of the inner casing 81 to the closed position (in other words, the closing operation of the inner passage port 89). . When the transmission gear 91 is in the separated position, the shutter 68 is in the closed position, and the drive gear 62 is covered with the protective cover 76.

Then, when the upper gripping plate 114 and the lower gripping plate 118 shown in FIG. 2 are sandwiched in the direction in which they approach each other, the locking with respect to the lower fixing portion 67 of the locking claw 117 is released. Thereafter, as shown in FIG. 5, the toner cartridge 31 is pulled out from the cartridge housing portion 33 as it is. As a result, the fitting of the positioning boss 106 to the upper fixing portion 66, the fitting of the slide projection 86 to the receiving recess 75, and the clamping of the shutter 68 by the clamping projection 87 (see FIG. 2) are eliminated. Detach from the process frame 22. 3. Effects of Embodiment In this process cartridge 17, the toner cartridge 31 is mounted on the process frame 22, and as shown in FIG. 7C, the drive gear 62 of the process frame 22 and the transmission gear 91 of the toner cartridge 31 are mutually connected. When engaged, the driving force is transmitted from the driving gear 62 to the agitator 93 via the transmission gear 91 and the agitator gear 80. As a result, the agitator 93 can be rotated to stir the toner.

  Here, the toner cartridge 31 is attached to and detached from the process frame 22 along the front-rear direction (orthogonal direction orthogonal to the width direction). In the transmission gear 91, gear teeth are formed on the end surface in the orthogonal direction, and also in the drive gear 62, gear teeth are formed on the end surface in the orthogonal direction. In this case, when the toner cartridge 31 is mounted on the process frame 22, the tooth tip of the transmission gear 91 may collide with the tooth tip of the drive gear 62.

  However, the transmission gear 91 is supported by the link lever 96 so as to be movable with respect to the agitator gear 80 in an engaged state with the agitator gear 80 (see FIGS. 7A to 7C). Therefore, even when the tooth tip of the transmission gear 91 collides with the tooth tip of the drive gear 62 when the toner cartridge 31 is mounted on the process frame 22, the transmission gear 91 is not forcibly pressed against the drive gear 62 side. . That is, since the transmission gear 91 can be put on standby in a state where the tooth tip of the transmission gear 91 and the tooth tip of the drive gear 62 are slightly in contact with each other, the gear teeth of both the transmission gear 91 and the drive gear 62 are prevented from being damaged. can do. The transmission gear 91 can be meshed with the drive gear 62 again. (See FIG. 7 (c)).

  As a result, the transmission gear 91 of the toner cartridge 31 and the drive gear 62 of the process frame 22 can be smoothly engaged without being damaged, and the toner cartridge 31 can be smoothly mounted on the process frame 22.

  Further, the holding projection 100 provided on the inner casing 81 holds the transmission gear 91 at a separated position away from the drive gear 62 in conjunction with the movement of the inner casing 81 (see FIG. 7A). Alternatively, the holding of the transmission gear 91 at the separated position is released (see FIGS. 7B and 7C).

Therefore, when the toner cartridge 31 is mounted on the process frame 22, as shown in FIG. 7A, if the transmission gear 91 is held at the separation position by the holding projection 100, the tooth tip of the transmission gear 91 and Collision with the tooth tip of the drive gear 62 can be prevented. Then, after the mounting of the toner cartridge 31 to the process frame 22 is completed, FIG.
And as shown in FIG.7 (c), the inner side housing | casing 81 is moved to an open position, and the holding | maintenance of the transmission gear 91 in the separation position by the holding protrusion 100 is cancelled | released. Thereby, the transmission gear 91 can be automatically meshed with the drive gear 62. On the other hand, by moving the inner casing 81 to the closed position, as shown in FIG. 7A, when the transmission gear 91 is held again at the separated position by the holding projection 100, the transmission gear 91 and the drive gear 62 The meshing state is automatically released. As a result, the toner cartridge 31 can be smoothly detached from the process frame 22. As a result, convenience can be improved. The meshing state refers to a state where the gear teeth of the transmission gear 91 and the drive gear 62 are completely meshed with each other, and the separated state includes all states that are not in the meshing state.

  Further, the holding protrusion 100 can be configured simply. When the holding projection 100 is engaged with the link lever 96 (support portion 98) as in the above embodiment, the holding projection 100 holds the transmission gear 91 at the separated position or at the separated position. Release of holding of the transmission gear 91 can be performed indirectly. In this case, the holding projection 100 does not need to be in direct contact with the transmission gear 91, so that the degree of freedom in design can be improved. The holding protrusion 100 may be directly engaged with the transmission gear 91. In that case, the holding projection 100 can reliably perform the holding of the transmission gear 91 at the separated position or the release of the holding of the transmission gear 91 at the separated position.

  Further, since the inner casing 81 that moves relative to the outer casing 82 is accommodated in the outer casing 82, the movement of the inner casing 81 can be prevented from being hindered by an external force.

  Further, since the transmission gear 91 is disposed between the outer casing 82 and the inner casing 81 (see FIG. 8A), the transmission gear 91 can be protected.

  Further, in conjunction with the opening and closing of the inner passage port 89 through which the toner supplied to the developing roller 37 passes, the holding projection 100 holds the transmission gear 91 in the separated position (see FIG. 7A) or is separated. The holding of the transmission gear 91 at the position is released (see FIGS. 7B and 7C).

  Therefore, in conjunction with the closing operation of the inner passage port 89, when the transmission gear 91 is held at the separated position by the holding projection 100, the engagement state of the transmission gear 91 and the drive gear 62 is changed by closing the inner passage port 89. It can be released automatically (see FIG. 7A). Accordingly, the toner cartridge 31 can be smoothly detached from the process frame 22 without spilling toner from the inner passage port 89. On the other hand, when the holding of the transmission gear 91 at the separated position by the holding projection 100 is released in conjunction with the opening operation of the inner passage port 89, the transmission gear 91 and the drive gear 62 are automatically opened by opening the inner passage port 89. The toner can be supplied to the developing roller 37 from the inner passage port 89 (see FIG. 7C). As a result, convenience can be improved.

  Further, the protective cover 76 provided on the process frame 22 holds the transmission gear 91 at a separated position away from the drive gear 62 in conjunction with the movement of the inner casing 81 (see FIG. 7A), or Then, the holding of the transmission gear 91 at the separated position is released (see FIGS. 7B and 7C).

Therefore, when the toner cartridge 31 is attached to the process frame 22, as shown in FIG. 7A, if the transmission gear 91 is held in the separated position by the protective cover 76, the tooth tip of the transmission gear 91 and Collision with the tooth tip of the drive gear 62 can be prevented. Then, after the mounting of the toner cartridge 31 to the process frame 22 is completed, the inner casing 81 is moved to the open position as shown in FIGS. The holding of the transmission gear 91 at the separated position is released. Thereby, the transmission gear 91 can be automatically meshed with the drive gear 62. On the other hand, by moving the inner casing 81 to the closed position, as shown in FIG. 7A, when the transmission gear 91 is held again at the separated position by the protective cover 76, the transmission gear 91 and the drive gear 62 The meshing state is automatically released. As a result, the toner cartridge 31 can be smoothly detached from the process frame 22. Thereby, the convenience can be improved.

  Further, the protective cover 76 can be configured simply. Since the protective cover 76 covers the drive gear 62 at the separated position, the transmission gear 91 can be reliably separated from the drive gear 62 (see FIG. 7A). On the other hand, when the holding of the transmission gear 91 in the separated position is released, the protective cover 76 exposes the drive gear 62, so that the transmission gear 91 and the drive gear 62 can be reliably engaged (FIG. 7B). And FIG. 7 (c)). In this manner, the protective cover 76 can serve both as a function of holding the transmission gear 91 in the separated position or releasing the holding, and a function of covering or exposing the drive gear 62.

  In addition, the protective cover 76 holds the transmission gear 91 in the separated position in conjunction with opening and closing of the inner passage port 89 through which the toner supplied to the developing roller 37 passes (see FIG. 7A) or separated. The holding of the transmission gear 91 at the position is released (see FIGS. 7B and 7C).

  Therefore, in conjunction with the closing operation of the inner passage port 89, when the transmission gear 91 is held at the separated position by the protective cover 76, the engagement state of the transmission gear 91 and the drive gear 62 is changed by closing the inner passage port 89. It can be released automatically (see FIG. 7A). Accordingly, the toner cartridge 31 can be smoothly detached from the process frame 22 without spilling toner from the inner passage port 89. On the other hand, when the holding of the transmission gear 91 at the separated position by the protective cover 76 is released in conjunction with the opening operation of the inner passage port 89, the transmission gear 91 and the drive gear 62 are automatically opened by opening the inner passage port 89. The toner can be supplied to the developing roller 37 from the inner passage port 89 (see FIG. 7C). As a result, convenience can be improved.

  If both the holding protrusion 100 and the protective cover 76 have a function of holding the transmission gear 91 in the separated position or releasing the holding, this function can be reliably performed. Only one of the protrusion 100 and the protective cover 76 may have this function. Thereby, simplification of a structure can be achieved.

4). Modification (1) Modification 1
In the above embodiment, as shown in FIG. 1, the process cartridge 17 is integrally provided with the photosensitive drum 25 and the developing roller 37, and the process cartridge 17 is detachably attached to the main body casing 2. In addition to this, for example, while the process cartridge 17 is a developing cartridge that does not include the photosensitive drum 25, another unit (drum cartridge) that includes the photosensitive drum 25 is provided, and the developing cartridge is attached to and detached from the drum cartridge. You may attach freely. Alternatively, only the toner cartridge 31 may be detachable while the process cartridge 17 is mounted on the main casing 2.

  Further, the photosensitive drum 25, the scorotron charger 26 and the transfer roller 28 can be provided in the main casing 2, and the developing cartridge can be detachably attached to the main casing 2.

(2) Modification 2
In the above-described embodiment, the monochrome laser printer 1 has been exemplified. For example, the image forming apparatus of the present invention includes a color laser printer (including a tandem type and an intermediate transfer type).
It can also be configured as.

(3) Modification 3
FIG. 9A is a perspective view of the toner cartridge according to Modification 3 (in a state where the outer housing is in the open position) as viewed obliquely from the rear left side. FIG.9 (b) shows the state which has an outer housing | casing in a closed position in Fig.9 (a). FIG. 9C is a perspective view of the inner housing shown in FIG. 9A viewed from the diagonally left rear side. FIG. 9D is an exploded perspective view of the inner housing shown in FIG.

  FIG. 10 is a perspective view of the outer housing shown in FIG. 9A viewed from the diagonally left rear side. 9 and 10, the same members as those described above are denoted by the same reference numerals, and the description thereof is omitted.

  In the above embodiment, the inner casing 81 rotates with respect to the outer casing 82. However, in the toner cartridge 1 according to the third modification, the outer casing 82 is in the open position with respect to the inner casing 81. Rotate between closed position. That is, in the third modification, the inner housing 81 functions as an example of the first housing, and the outer housing 82 functions as an example of the second housing.

(3-1) Inner Housing Referring to FIGS. 9C and 9D, the inner housing 81 integrally includes the inner peripheral wall 83 and the inner side wall 84 described above.

  Each inner side wall 84 is not provided with a slide protrusion 86, and no clamping protrusion 87 is provided on the peripheral end surface thereof. Further, the holding projection 100 is not provided on the left inner side wall 84.

  The annular rib 92 described above is provided along the periphery of the left inner side wall 84.

  The upper fixed portion 105 and the positioning boss 106 described above are provided at the upper end portion of each inner side wall 84.

  In the inner peripheral wall 83, the grip portion 113 described above is provided on the opposite side (front side) of the inner passage port 89 with respect to the circle center of the inner peripheral wall 83.

  Similar to the above-described embodiment, the transmission gear 91 and the agitator gear 80 are disposed on the left side of the left inner side wall 84, and the transmission gear 91 is engaged with the agitator gear 80 by the link lever 96 in the engaged state. Is supported so as to be movable.

(3-2) Outer Housing Corresponding to the inner housing 81 according to Modification 3, the outer housing 82 is also different from that shown in the above-described embodiment.

  Referring to FIG. 10, in the outer casing 82 according to the modified example 3, the pair of sandwiching protrusions 87 (four sandwiching protrusions 87) described above are provided at both ends in the width direction of the outer peripheral wall 101. The outer passage port 109 is formed in a portion of the outer peripheral wall 101 surrounded by the sandwiching protrusions 87. In addition, the outer peripheral wall 101 is not provided with the long hole 108 corresponding to the provision of the clamping protrusion 87. On the other hand, in the outer peripheral wall 101, an exposure hole 90 that exposes the grip portion 113 described above is formed on the opposite side (front side) of the outer passage port 109 with respect to the circle center of the outer peripheral wall 101.

  Further, the above-described slide projection 86 is provided on the upper side of each outer side wall 102.

  The above-described outer notch 107 is formed at a connection portion between the outer peripheral wall 101 and the left outer side wall 102. Further, the holding projection 100 described above is provided on the left outer side wall 102. The holding protrusion 100 extends from the left outer side wall 102 to the right along the width direction in the vicinity of the outer notch 107, and is exposed to the outside from the outer notch 107.

  Further, in the connection portion between the outer peripheral wall 101 and each outer side wall 102, an exposed groove 122 that penetrates the connection portion is formed in the vicinity of the slide protrusion 86. The exposed groove 122 extends along the periphery of the outer side wall 102.

(3-3) Relative Arrangement of Inner Housing and Outer Housing and Relative Movement of Outer Housing The inner housing 81 is accommodated in the outer housing 82 as in the above-described embodiment.

  Specifically, as shown in FIGS. 9A and 9B, the grip portion 113 is exposed from the exposure hole 90 of the outer peripheral wall 101. In each exposed groove 122, the corresponding upper fixed portion 105 is exposed. The transmission gear 91 and the agitator gear 80 are disposed between the left inner side wall 84 and the left outer side wall 102, that is, between the inner casing 81 and the outer casing 82. Thereby, the transmission gear 91 and the agitator gear 80 can be protected.

  The outer casing 82 is a circle on the inner peripheral surface of the outer peripheral wall 101 between the closed position (see FIG. 9B) and the open position (see FIG. 9A) with respect to the inner casing 81. Relative rotation with the center as a fulcrum is allowed. Thus, since the outer casing 82 that moves relative to the inner casing 81 is disposed outside, the outer casing 82 can be easily maintained. Then, as will be described later, the inner passage port 89 is opened and closed by turning between the closed position and the open position of the outer casing 82.

  When the outer casing 82 is disposed at the closed position, as illustrated in FIG. 9B, the outer passage port 109 is disposed above the inner passage port 89, and the inner passage port 89 is disposed outside the outer peripheral wall 101. It is closed by a portion below the passage port 109. Further, the support portion 98 of the link lever 96 is engaged with the holding projection 100 from the upper side, and the transmission gear 91 supported by the support portion 98 is inclined via the inner notch 103 and the outer notch 107. It is exposed toward the rear upper side. The position of the transmission gear 91 at this time is the separation position described above.

  Then, the outer casing 82 is rotated relative to the inner casing 81 in a direction (lower side) in which the outer passage port 109 faces the inner passage port 89. At this time, the holding protrusion 100 rotates downward as the outer casing 82 rotates, so that the link lever 96 is connected to the link lever 96 and the transmission gear while the support portion 98 is engaged with the holding protrusion 100. It rotates downward by its own weight. Thereby, the support part 98 descend | falls and the transmission gear 91 which was in the separation position also descends in the state exposed from the inner notch 103 and the outer notch 107.

  Thereafter, when the inner passage port 89 faces the outer passage port 109 and communicates with the outer passage port 109, the outer housing 82 is disposed at the open position as shown in FIG. At this time, each upper fixed portion 105 is disposed at the front end of the corresponding exposed groove 122, and although not shown, the grip portion 113 is disposed at the front end of the exposure hole 90. Further, the transmission gear 91 is in the above-described meshing position, and is exposed obliquely rearward and downward via the inner notch 103 and the outer notch 107. When the transmission gear 91 is in the meshing position, the support portion 98 is spaced slightly upward from the holding projection 100 (see FIG. 7C).

  On the other hand, the outer casing 82 in the open position is rotated relative to the inner casing 81 in a direction in which the outer passage port 109 rises from the inner passage port 89. At this time, since the holding projection 100 rotates upward as the outer casing 82 rotates, the link lever 96 rotates upward when the support portion 98 is pressed upward by the holding projection 100. . Along with this, the support portion 98 rises, and the transmission gear 91 also rises in a state exposed from the inner notch 103 and the outer notch 107. 9B, the transmission gear 91 moves to the separated position, the upper fixed portion 105 is disposed at the rear end of the exposure groove 122, and the grip portion 113 is at the rear end of the exposure hole 90. When disposed, the outer housing 82 is disposed in the closed position.

  As described above, also in the third modification, the holding projection 100 holds the transmission gear 91 in the separated position in conjunction with the opening and closing of the inner passage port 89 (see FIG. 9B), as in the above-described embodiment. Or the holding of the transmission gear 91 at the separated position is released (see FIG. 9A).

  When the toner cartridge 31 according to the modified example 3 (the outer casing 82 is in the closed position) is attached to the process frame 22, the positioning boss 106 is fitted to the upper fixing portion 66 (see FIG. 5), and the lower fixing is performed. The inner casing 81 is fixed to the cartridge housing portion 33 by the locking claws 117 (see FIG. 2) being locked to the portion 67.

  When the swing arm 70 is swung from the press release position (see FIG. 3) to the press position (see FIG. 2), the slide protrusions 86 fitted in the receiving recesses 75 are formed on the arm side plates 72. As it swings, it slides rearward, and a pair of clamping protrusions 87 on both sides in the width direction slide downward while holding the shutter 68.

  As a result, the outer casing 82 is disposed at the open position, and as shown in FIG. 9A, the outer passage port 109 faces the inner passage port 89 and communicates with them. Further, as shown in FIG. 2, the shutter 68 is disposed in the open position, and the frame side passage port 34 faces the cartridge side passage port 47 (the inner passage port 89 and the outer passage port 109) in the horizontal direction. Is communicated. Further, the transmission gear 91 moves to the meshing position and meshes with the drive gear 62 (see FIG. 7C).

  On the other hand, when the swing arm 70 is swung from the press position to the press release position, the outer casing 82 moves to the closed position, and accordingly, the transmission gear 91 moves to the separated position (see FIG. 9B). ). Thereby, the meshing state of the transmission gear 91 and the drive gear 62 is canceled (see FIG. 7A). Then, the toner cartridge 31 is detached from the process frame 22 by releasing the fixing of the inner housing 81 to the cartridge housing portion 33 and then withdrawing the toner cartridge 31 from the cartridge housing portion 33 to the front side.

  In the state where the toner cartridge 31 is mounted on the process frame 22, not only the holding projection 100 but also the protective cover 76 holds the transmission gear 91 in the separated position and holds the same as in the above-described embodiment. Is canceled (see FIG. 7).

(4) Modification 4
A member that holds the transmission gear 91 in the separated position or releases the holding of the transmission gear 91 in the separated position, such as the holding projection 100 and the protective cover 76 (see FIG. 7), is the swing arm 70 (FIG. 5). Reference) may be provided. In this case, for example, the holding protrusion 100 is provided on the swing arm 70, and when the toner cartridge 31 is mounted on the process frame 22, the holding protrusion 100 of the swing arm 70 (see FIG. 5) in the pressing release position transmits. The gear 91 and the link lever 96 are engaged to hold the transmission gear 91 in the separated position (see FIG. 7A). When the swing arm 70 is moved to the pressing position with the toner cartridge 31 mounted on the process frame 22 (see FIG. 2), for example, the engagement between the holding projection 100 and the transmission gear 91 is released. Thereby, holding | maintenance of the transmission gear 91 in a separation position is cancelled | released, and the transmission gear 91 can be meshed with the drive gear 62 (refer FIG.7 (c)). On the other hand, when the swing arm 70 is moved to the pressing release position in a state where the transmission gear 91 and the drive gear 62 are engaged, the transmission gear 91 is engaged with the holding projection 100 and pressed, so that it is separated again. The position is held (see FIG. 7A).

(5) Modification 5
As described above, the transmission gear 91 and the agitator gear 80 are disposed between the inner casing 81 and the outer casing 82 (see FIG. 8A), but are exposed to the outside of the outer casing 82. May be arranged. In that case, the transmission gear 91 and the agitator gear 80 can be easily maintained.

17 process cartridge 22 process frame 31 toner cartridge 37 developing roller 62 drive gear 76 protective cover 80 agitator gear 81 inner housing 82 outer housing 89 inner passage 91 transmission gear 93 agitator 94 agitator shaft 96 link lever 100 holding projection

Claims (10)

Development provided with a developer housing for supporting a developer carrying member for carrying a developer, and a drive gear for outputting a driving force with gear teeth formed on an end face in a direction orthogonal to the longitudinal direction of the developer carrying member. A toner cartridge that can be attached to and detached from the developing housing of the apparatus along the orthogonal direction,
A cartridge housing for containing a developer to be supplied to the developer carrier;
An agitation member that is accommodated in the cartridge housing and agitates the accommodated developer by rotating with the driving force applied;
A stirring gear provided on a rotating shaft of the stirring member;
Gear teeth are formed on the end face in the orthogonal direction, meshed with the stirring gear, and a transmission gear meshable with the drive gear when the toner cartridge is mounted on the developing housing;
A toner cartridge comprising: a support member that movably supports the transmission gear with respect to the agitation gear when the transmission gear and the agitation gear are engaged with each other. The cartridge housing includes a first housing and a second housing movable with respect to the first housing,
In the second housing, the transmission gear is held at a separated position separated from the drive gear in conjunction with the movement of the second housing, or the holding of the transmission gear at the separated position is released. The toner cartridge according to claim 1, wherein a holding member is provided.   The toner cartridge according to claim 2, wherein the holding member is a protrusion engageable with the transmission gear or the support member.   The toner cartridge according to claim 2, wherein the second casing is accommodated in the first casing.   The toner cartridge according to claim 2, wherein the first casing is accommodated in the second casing.   The toner cartridge according to claim 4, wherein the transmission gear is disposed between the first housing and the second housing. An opening through which the developer supplied to the developer carrier passes is formed in the cartridge housing, and the opening can be opened and closed by movement of the second housing with respect to the first housing. ,
In conjunction with opening and closing of the opening, the holding member holds the transmission gear at a separated position separated from the drive gear, or releases the holding of the transmission gear at the separated position. The toner cartridge according to claim 2. A developer housing that supports a developer carrier that carries the developer;
A gear tooth is formed on an end face in an orthogonal direction orthogonal to the longitudinal direction of the developer carrier, and a driving gear that outputs a driving force;
A toner cartridge according to any one of claims 2 to 7,
In the developing housing, the transmission gear is held at a separated position separated from the drive gear in conjunction with the movement of the second housing, or the holding of the transmission gear at the separated position is released. A developing device comprising a holding member.   9. The cover according to claim 8, wherein the holding member is a cover that covers the driving gear at the separated position and exposes the driving gear when the holding of the transmission gear at the separated position is released. 10. Development device. An opening through which the developer supplied to the developer carrier passes is formed in the cartridge housing, and the opening can be opened and closed by movement of the second housing with respect to the first housing. ,
In conjunction with opening and closing of the opening, the holding member holds the transmission gear at a separated position separated from the drive gear, or releases the holding of the transmission gear at the separated position. The developing device according to claim 8 or 9.

Images