JP2014240995A - Cartridge - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cartridge capable of reducing an irregular scanning line pitch of an output image by reducing vibration transmitted from the cartridge to a housing structure, without relying on improvement of the housing structure and a mounting structure for the cartridge.SOLUTION: A gear mechanism 30 synchronizes rotation of a developing sleeve 41, a developing screw 43, and an agitating screw 44 outside a developing container 40 in its lengthwise direction. A side member 200 is supported by the developing container 40 via an elastic body 201 made of rubber material lower in vibration transmission performance than that of the developing container 40. The side member 200 integrally supports the developing sleeve 41, the developing screw 43, the agitating screw 44, and the gear mechanism 30. Since vibration generated by the gear mechanism 30 is blocked by the elastic body 201 and prevented from being transmitted to the developing container 40, an irregular pitch image, caused by vibration of an exposure device 3 through a device body from the developing container 40, is reduced.

Description

  The present invention relates to a cartridge mounted on an image forming apparatus having a developing device in which a developer carrying member and a developer stirring member are interlocked by a gear mechanism at an end portion in a longitudinal direction.

  2. Description of the Related Art An image forming apparatus that develops an electrostatic image formed on an image carrier into a toner image by a developing device, and transfers the formed toner image to a recording material directly or via an intermediate transfer member to be thermally fixed is widely used. .

  In the developing device, a developer carrying member (developing sleeve, developing roller) and a plurality of conveying members (conveying screw, stirring blade) are arranged in parallel in the longitudinal direction, and these are connected by a gear mechanism outside the developing container. Has been.

  In a process cartridge incorporating a developing device, an image carrier (photosensitive drum), a charging member (charging roller), a cleaning member (fur brush), and the like are sometimes distributed using the same gear mechanism. is there.

  In a developing device or a process cartridge in which a developer carrying member and a conveying member are integrally linked by a gear mechanism, vibrations generated by the gear mechanism with the operation of the developing device become a problem. The vibration of the various frequency components generated by the variation in the meshing of the gear mechanism causes resonance, causing the image carrier to vibrate, causing a problem of uneven pitch of the scanning line of the image, reducing the vibration in the gear mechanism. The structure to be built in.

  Further, when the vibration of the developing device is transmitted to the housing structure of the image forming apparatus, the vibration is transmitted to the laser beam exposure device through the housing structure, and the pitch unevenness of the scanning line amplified several tens of times through the optical system is generated. Occur. For this reason, measures are taken to insert a damping material at the mounting position of the developing device or to increase the rigidity of the housing structure.

  The process cartridge shown in Patent Document 1 reduces the vibration of the image carrier by providing a gear mechanism that rotates the image carrier independently of the gear mechanism that links the developer carrier and the conveyance member. .

  In the process cartridge shown in Patent Document 2, the vibration of the image carrier is reduced by making the gear mechanisms that drive and transmit the charging device, the developing device, and the cleaning device independent of each other.

Japanese Patent Application Laid-Open No. 06-051576 JP-A-10-171331

  In recent years, with the increase in the process speed of image forming apparatuses, the vibrations of gear mechanisms generated in the developing apparatus tend to be higher in frequency and larger in amplitude. On the other hand, as the image forming apparatus has been reduced in size, it is difficult to increase the rigidity of the housing structure, while vibration transmission between components such as an exposure apparatus incorporated in the housing structure is likely to occur. . Further, when the laser beam exposure apparatus is employed, when the exposure apparatus is downsized, the optical path length becomes longer, and the rate at which the vibration of the exposure apparatus affects the image increases.

  Therefore, when the scanning line pitch unevenness of the image formed on the recording material is measured and statistically processed, the scanning line pitch unevenness that matches the vibration period of the gear mechanism of the developing device has the greatest influence on the image quality. It has been found.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a cartridge that can reduce vibration transmitted from the cartridge to the casing structure and reduce unevenness in the scanning line pitch of the output image without relying on an improvement in the casing structure or cartridge mounting structure. It is said.

  The cartridge of the present invention is a cartridge that can be attached to and detached from the image forming apparatus, the developer carrying member that carries the developer and develops the electrostatic image formed on the image carrying member, and the developer carrying member that is supplied to the developer carrying member. A storage unit that stores the developer to be transported; a first transport member that transports the developer in the storage unit; a second transport member that transports the developer in the storage unit; the first transport member; A first frame that includes a plurality of gears that transmit driving between the second conveying members, and a pair of bearings that rotatably support both ends of the developer carrier, and forms a part of the inner wall of the housing portion And, at one end side where the plurality of gears are arranged with respect to the axial direction of the first transport member and the second transport member, the first transport member and the second transport member are rotatably supported. A second frame having a bearing portion to perform the first An elastic member sandwiched between a frame and the second frame, and the first member is engaged with the first frame in a state where the elastic member is compressed between the first frame and the second frame. And a locking portion for fixing the second frame to the frame.

  In the cartridge of the present invention, the second frame is fixed to the first frame by the locking portion being locked to the first frame while the elastic member is compressed between the first frame and the second frame. The vibration generated by the plurality of gears on the second frame can be reduced from being transmitted to the first frame. Thus, the vibration transmitted from the developing device to the housing structure of the image forming apparatus can be suppressed without depending on the housing structure or the cartridge mounting structure, and the scanning line pitch unevenness of the output image can be reduced.

1 is an explanatory diagram of a configuration of an image forming apparatus. It is explanatory drawing of a cross-sectional structure perpendicular | vertical to the longitudinal direction of a developing device. It is explanatory drawing of the plane structure of a developing device. It is a block diagram of a drive system of a process cartridge. It is explanatory drawing of the side member in Example 1. FIG. It is explanatory drawing of the assembly structure of the side member in Example 1. FIG. It is explanatory drawing of a gear structure. It is explanatory drawing of the attachment structure of a front cover. FIG. 10 is an explanatory diagram of a planar configuration of a developing device in Embodiment 2. It is explanatory drawing of the side member in Example 2. FIG. It is explanatory drawing of the assembly structure of the side member in Example 2. FIG. It is explanatory drawing of planar arrangement | positioning of a gear structure.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention is also implemented in another embodiment in which part or all of the configuration of the embodiment is replaced with the alternative configuration as long as the support member of the gear mechanism is attached to the developing container via the rubber material. it can.

  Therefore, it can be carried out without distinction between full color / monochrome, charging method, laser beam exposure / LED array exposure, transfer method, tandem type / 1 drum type, intermediate transfer type / recording material transport type / direct transfer type.

  In the present embodiment, only main parts related to toner image formation / transfer will be described. However, the present invention includes a printer, various printing machines, a copier, a fax machine, a composite machine, in addition to necessary equipment, equipment, and a housing structure. The image forming apparatus can be used for various purposes such as a printer.

  In addition, about the general matter of the image forming apparatus shown in patent documents 1 and 2, a developing device, and a process cartridge, illustration is abbreviate | omitted and the overlapping description is abbreviate | omitted.

<Image forming apparatus>
FIG. 1 is an explanatory diagram of the configuration of the image forming apparatus. As shown in FIG. 1, the image forming apparatus 100 is a tandem intermediate transfer type full-color printer in which process cartridges 10a, 10b, 10c, and 10d of yellow, magenta, cyan, and black are arranged along an intermediate transfer belt 11. .

  In the process cartridge 10a, a yellow toner image is formed on the photosensitive drum 1a and transferred to the intermediate transfer belt 11. In the process cartridge 10b, a magenta toner image is formed on the photosensitive drum 1b and transferred to the intermediate transfer belt 11. In the process cartridges 10c and 10d, a cyan toner image and a black toner image are formed on the photosensitive drums 1c and 1d, respectively, and transferred to the intermediate transfer belt 11.

  The four-color toner images transferred to the intermediate transfer belt 11 are conveyed to the secondary transfer portion T2 and secondarily transferred to the recording material P. The recording material P taken out from the recording material cassette 15 is separated one by one by the separation roller 16 and fed to the registration roller 19. The registration roller 19 sends the recording material P to the secondary transfer portion T2 in time with the toner image on the intermediate transfer belt 11. The recording material P onto which the toner image has been transferred from the intermediate transfer belt 11 is heated and pressed by the fixing device 20 to fix the toner image on the surface, and then is discharged to the outside 24 of the machine body.

  The process cartridges 10 a, 10 b, 10 c, and 10 d can be attached to and detached from the apparatus main body of the image forming apparatus 100 from the front side. The process cartridges 10a, 10b, 10c, and 10d are substantially the same except that the colors of the toners used in the developing devices 4a, 4b, 4c, and 4d are different. Hereinafter, the process cartridge 10a will be described, and the process cartridges 10b, 10c, and 10d will be described by replacing “a” at the end of the reference numerals attached to the components of the process cartridge 10a with “b”, “c”, and “d”.

  The process cartridge 10a includes a photosensitive drum 1a, a charging roller 2a, and a developing device 4a. Around the photosensitive drum 1a, a charging roller 2a, an exposure device 3, a developing device 4a, a primary transfer roller 5a, a deck brush and a fur brush for performing simultaneous development cleaning are arranged in the order of the processes. In the process cartridge 10a, a photosensitive drum 1a, a charging roller 2a, a developing device 4a, and a cleaning device are integrally formed into a cartridge.

  The photosensitive drum 1a is configured by applying an organic optical conductor layer (OPC photosensitive member) to the outer peripheral surface of an aluminum cylinder having a diameter of 30 mm. The photosensitive drum 1a is rotatably supported at both ends, and a driving force is transmitted to one end to rotate at a predetermined process speed. The charging roller 2a contacts and rotates with the surface of the photosensitive drum 1a. By applying an oscillating voltage in which an AC voltage is superimposed on a DC voltage to the charging roller 2a, the surface of the photosensitive drum 1a is charged to a uniform dark portion potential VD.

  The exposure device 3 scans a binary-modulated laser beam in accordance with an image signal with a rotating mirror, lowers the potential of the exposed portion of the photosensitive drum 1a to the bright portion potential VL, and writes an electrostatic image of the image. The developing device 4a develops the electrostatic image so that the toner adheres to the exposed portion of the photosensitive drum 1a and forms a toner image on the photosensitive drum 1a. The toner replenishing device 7a replenishes the developing device 4a with a developer that is consumed along with image formation.

  The intermediate transfer belt 11 is supported by being stretched over a driving roller 13 that also serves as a counter roller and a tension roller 12, and rotates at a predetermined process speed in the direction of an arrow R2. The intermediate transfer belt 11 is composed of a film-like member.

  The primary transfer roller 5a presses the inner surface of the intermediate transfer belt 11 to form a primary transfer portion between the intermediate transfer belt 11 and the photosensitive drum 1a. The secondary transfer roller 22 abuts on the intermediate transfer belt 11 whose inner surface is supported by the counter roller (13) to form a secondary transfer portion T2.

  By applying a positive DC voltage to the primary transfer roller 5 a, the negative toner image carried on the photosensitive drum 1 a is primarily transferred to the intermediate transfer belt 11. By applying a positive DC voltage to the secondary transfer roller 22, the toner image carried on the intermediate transfer belt 11 is secondarily transferred to the recording material P that is superimposed on the intermediate transfer belt 11 and passes the secondary transfer portion T <b> 2. Transcribed.

  The charging member disposed on the downstream side of the primary transfer portion charges the negative transfer while dispersing the transfer residual toner that has been charged positively and passed through the primary transfer portion on the surface of the intermediate transfer belt 11. The negatively charged toner is reused by the developing device 4a to be simultaneously cleaned with development.

  The fixing device 20 sandwiches and conveys the recording material P at a heating nip formed by pressing the pressure roller 21b against the heating roller 21a heated from the inside, and applies heat and pressure to the surface of the recording material P. The toner image is heat-fixed.

<Developing device>
FIG. 2 is an explanatory diagram of a cross-sectional configuration perpendicular to the longitudinal direction of the developing device. FIG. 3 is an explanatory diagram of a planar configuration of the developing device. FIG. 4 is a block diagram of a process cartridge drive system.

  As shown in FIG. 2, the process cartridge 10a, which is an example of a cartridge, develops an electrostatic image on the photosensitive drum 1a by causing a developer sleeve 41, which is an example of a developer carrier, to carry a developer containing toner and a carrier. To do. The developing device 4a stirs the two-component developer in which the toner (nonmagnetic) and the carrier (magnetic) are mixed to frictionally charge the toner to the negative polarity and the carrier to the positive polarity.

  The developing sleeve 41 rotates around the fixed magnet 42 at the center, and the magnetic force of the fixed magnet 42 attracts the carrier to the surface to coat the two-component developer. The two-component developer coated on the surface of the developing sleeve 41 has its layer thickness regulated by the layer thickness regulating blade 35 and is conveyed to a portion facing the photosensitive drum 1 a to form a magnetic brush to form the surface of the photosensitive drum 1. Rub.

  An oscillating voltage obtained by superimposing an AC voltage on a negative DC voltage is applied to the developing sleeve 41 from the power source (D4: FIG. 3), whereby the photosensitive drum 1a having a positive polarity relative to the developing sleeve 41 is applied. The toner is transferred to the electrostatic image and the electrostatic image is developed.

  As the electrostatic image is developed, the toner moves to the photosensitive drum 1a, while the carrier is returned to the developing chamber 33 and continues to circulate in the developing container 40. For this reason, the toner in the two-component developer decreases with the accumulation of image formation, so the toner replenishing device 7a supplies the developer (toner) to the developing device 4a during image formation.

  As shown in FIG. 3, a developing sleeve 41, which is an example of a developer carrier, develops a photosensitive drum 1a, which is an example of an image carrier. The developing container 40 contains a developer to be carried on the developing sleeve 41, and the developing screw 43 and the stirring screw 44, which are examples of the first conveying member and the second conveying member, are developed in parallel with the developing sleeve 41. Arranged in the container 40.

  The developing container 40, which is an example of a storage chamber, is divided into a developing chamber 33, which is an example of a first chamber, and a stirring chamber 34, which is an example of a second chamber, by a partition wall 46 in the longitudinal direction. The stirring chamber 34 is in parallel with the developing chamber 33 and communicates with the developing chamber 33 through openings 46 a and 46 b formed at both ends of the partition wall 46. The developing screw 43 supplies the developer in the developing chamber 33 to the developing sleeve 41 while conveying the developer in the direction of arrow R33. The agitating screw 44 conveys the developer in the agitating chamber 34 in the direction of arrow R 34 opposite to the developing screw 43 and circulates the developer between the developing chamber 33.

  A toner concentration sensor 36 for detecting the toner concentration of the developer conveyed through the stirring chamber 34 is provided in the vicinity of the opening 46 b that delivers the developer from the stirring chamber 34 to the developing chamber 33.

  As shown in FIG. 4, a driver 52 receives a program executed by a CPU (Central Processing Unit) of the control unit 50, and a developing motor M2 serving as a driving source for the developing sleeve 41 and a drum motor serving as a driving source for the photosensitive drum 1a. M1 is driven. The driving of the developing motor M2 is transmitted to the developing sleeve 41 by the coupling 54, and the driving force is transmitted to the developing screw 43 and the stirring screw 44 via the gear mechanism 30 in the process cartridge 10a. The driving of the drum motor M1 is transmitted to the photosensitive drum 1a by the coupling 53 to transmit the driving force.

  By the way, conventionally, as a chronic trouble of the image forming apparatus 100, there is known an image defect in which a pitch streak pattern or a nonuniform image enters in the sub-scanning direction (conveying direction) of the image. This image defect is hereinafter referred to as a pitch unevenness image.

  An image defect called a pitch unevenness image occurs when the rotation unevenness and vibration of the process cartridge 10a and the gear mechanism 30 of the image forming apparatus 100 are transmitted to the photosensitive drum 1a and the image is written while the photosensitive drum 1a vibrates. . Therefore, conventionally, the gear mechanism for driving the image carrier and the gear mechanism of another charging roller or a cleaning device are made independent so that vibration is not transmitted to the gear mechanism of the image carrier, and the pitch unevenness image To get high image quality.

  For example, in Japanese Patent Laid-Open No. 06-051576, a gear mechanism of a photosensitive drum is provided separately from the gear mechanism of the developing device so as not to transmit the vibration of the gear mechanism generated by the load fluctuation of the developing device to the photosensitive drum. .

  In Japanese Patent Laid-Open No. 10-171331, the charging roller of the process cartridge, the developing device, and the gear mechanism of the cleaning device are made independent to reduce transmission of vibration to the photosensitive drum 1a.

  However, an image defect called a pitch unevenness image is also caused by the vibration generated in the gear mechanism 30 being transmitted to the main body frame of the image forming apparatus 100 via the process cartridge 10a and the exposure apparatus 3 vibrating.

  For this problem, the method proposed in Japanese Patent Application Laid-Open No. 06-051576 or Japanese Patent Application Laid-Open No. 10-171331 is not very effective. This is because the effect of suppressing the vibration of the process cartridge 10a itself is poor. There has been a problem that vibration generated by each gear mechanism reaches the exposure apparatus 3 through the main body frame of the image forming apparatus 100.

  Therefore, in the following embodiments, a rubber material damping member is sandwiched between the side wall and the developing container to confine rotation unevenness and vibration in the gear mechanism of the developing device to the support member. In the process cartridge (developing device), the side wall on the side where the gear mechanism of the developing container is arranged is made into a separate part, and the side wall and the developing container are engaged by positioning such as embossing with less vibration transmission. This prevents rotation unevenness and vibration in the gear mechanism of the developing device from being transmitted to the developing container of the developing device 4a and the main body frame of the image forming apparatus 100.

<Example 1>
FIG. 5 is an explanatory diagram of a side member according to the first embodiment. FIG. 6 is an explanatory view of the side member assembly structure in the first embodiment. FIG. 7 is an explanatory diagram of a gear structure. FIG. 8 is an explanatory view of a front cover mounting structure.

  As shown in FIG. 5 with reference to FIG. 3, in the first embodiment, the plurality of gears constituting the gear mechanism 30 are the developing sleeve 41, the first conveying member, and the second outside of the developing container 40 in the longitudinal direction. The rotation of the transport members (43, 44) is interlocked. The side member 200 is supported by the developing container 40 via an elastic body 201 which is an example of an elastic member having a vibration transmission performance lower than that of the developing container 40. The side member 200 integrally supports the developing sleeve 41, the developing screw 43, the stirring screw 44, and the gear mechanism 30.

  As shown in FIG. 6, the side member 200 that is an example of the second frame also serves as the end wall surface in the longitudinal direction of the developing container 40 that is an example of the first frame, and the elastic body 201 includes the developing container 40 and the side member. It also serves as a sealing member made of a rubber material that seals leakage of the developer between 200 and 200.

  As shown in FIG. 7, the gear mechanism 30 is disposed only on one end side in the longitudinal direction of the developing container 40. As shown in FIG. 3, the developing container 40 is integrally formed with an end wall surface on the other end side that supports the developing sleeve 41, the developing screw 43, the stirring screw 44, and the developer supply screw 48.

  As shown in FIG. 3, the first coupling 53 has a first driving source (M1 on the image forming apparatus main body side) on the rotation shaft of the photosensitive drum 1a that is penetrated through the end wall surface on the other end side through a joint. ) Connect the rotating shaft so that it can be disconnected. The second coupling 54 is capable of separating the rotation shaft of the second drive source (M2) on the image forming apparatus main body side from the rotation shaft of the developing sleeve 41 passing through the end wall surface on the other end side through a joint. Connect to.

  As shown in FIG. 5A, the elastic body 201 is formed by injection molding so that an elastomeric elastic body is embedded in a part of the resin of the side member 200. Since the elastic body 201 is fixed to the side member 200, even if the elastic body 201 is handled downward in the assembling process, there is no fear of dropping off like an O-ring. In any case, the leakage of the developer through the gap between the developing container 40 and the side member 200 can be prevented by sandwiching the elastic body 201.

  As shown in FIG. 5A, the side member 200 is formed with a fitting hole 200 a and a fitting U-shaped groove 200 b as a positioning structure with respect to the end of the developing container 40. On the other hand, as shown in FIG. 6, an emboss 202 a and an emboss 202 b are formed in the developing container 40 as a positioning structure with the side member 200.

  As shown in FIG. 6, a developing sleeve 41, a developing screw 43, a stirring screw 44, and a developer supply screw 48 are set in advance in the developing container 40. Here, the relative positions of the developing sleeve 41, the developing screw 43, the stirring screw 44, and the developer supply screw 48 are determined by inserting the side members 200 equipped with bearing members (not shown) of the respective rotating bodies.

  As shown in FIG. 5B, the side member 200 is shaped such that the central portion protrudes toward the internal space of the developing container (40). For this reason, when attaching the side member 200 to the developing container 40, the side member 200 can be guided to the center portion of the side member 200 and positioned quickly to the end of the developing container 40.

  The side member 200 is assembled by fitting the positioning emboss 202a of the developing container 40 into the fitting hole 200a of the side member 200 and fitting the emboss 202b into the fitting U-shaped groove 200b.

  As shown in FIG. 7, the gear mechanism 30 is assembled to the side member 200 in a state after the side member 200 is assembled to the developing container 40. The planar arrangement of each gear will be described with reference to FIG. 12 in the second embodiment.

  As shown in FIG. 8, the front cover 400, which is an example of a cover member, is disposed so as to cover the gear mechanism 30 outside the side member 200. The front cover 400 also serves as an attachment member for the side member 200 that is locked to the developing container 40 and presses the side member 200 in a direction in which the elastic body 201 is compressed.

  The hook 400f of the front cover 400 is locked to the locking portion 40p of the process cartridge 10a, and the three portions 400n on the photosensitive drum side are fixed with screws. The side member 200 and the elastic body 201 are sandwiched between the developing container 40 and the front cover 400 by fixing the front cover 400 in this manner, and are fixed while maintaining a seal.

  In the process cartridges 10a, 10b, 10c, and 10d of the first embodiment, the side member 203 on which the gear mechanism 30 is disposed and the developing container 40 that supports the side member 203 are separated. A vibration damping member made of a rubber material is sandwiched between the side member 203 and the developing container 40 so that the vibration generated by the gear mechanism 30 is not transmitted to the photosensitive drum 1 a and the developing container 40.

  The side member 200 holding the gear mechanism 30 is in a state of sandwiching the elastic body 201 with respect to the developing container 40, and vibration generated in the gear mechanism 30 is absorbed by the elastic body 201, so Is hardly transmitted. The rotation unevenness and vibration of the gear generated in the gear mechanism 30 are absorbed by a flexible vibration damping member and not transmitted to the developing container 40, so that the vibration does not reach the exposure apparatus 3.

  Accordingly, it is possible to prevent pitch unevenness images caused by vibration of the gear mechanism 30 of the process cartridges 10a, 10b, 10c, and 10d or the developing devices 4a, 4b, 4c, and 4d.

  Further, in the first embodiment, as shown in FIG. 6, the developer conveying and agitating member 300 can be assembled from one side of the process cartridge 10a, and the assemblability can be improved. By developing the developing container 40 and the side member 203 serving as a lid thereof as separate members, components such as the developing screw 43 and the stirring screw 44 can be linearly assembled from the side on which the side member 203 is attached. . For this reason, in assembling by manual work, assemblability and confirmation are improved.

  In addition, since all the components can be assembled and fixed from the side on which the side member 203 is attached, it is easy to cope with the automatic assembly apparatus.

  The elastic body 201 may be any material having a Young's modulus lower than that of the material of the developing container 40, such as a rubber-based, silicon, or sponge-based seal, and the elastic body 201 may be attached to the developing container 40 side. .

  Further, the positioning structure of the side member 200 and the developing container 40 is not limited to emboss fitting, and a positioning shape that is not emboss fitting may be used.

  In the first embodiment, the side wall 203 on the gear drive side of the developing container 40 is used as the side member 203. However, the side wall that is not on the gear driving side on the opposite side is also formed as a separate member. A configuration may be taken.

  Further, as shown in FIG. 3, a side member 200 in which the bearings of the rotating bodies and the gear mechanism 30 are disposed may be disposed outside the developing container 40 where both ends of the rotating bodies are sealed. In this case, since the elastic body 201 does not need to bear the developer seal, it does not need to be formed in a closed curve. The side member 200 may be disposed on the outer wall surface of the developing container 40 so as to be supported via the elastic body 201 at a plurality of locations.

<Example 2>
FIG. 9 is an explanatory diagram of a planar configuration of the developing device according to the second embodiment. FIG. 10 is an explanatory diagram of a side member in the second embodiment. FIG. 11 is an explanatory view of the side member assembly structure in the second embodiment. FIG. 12 is an explanatory diagram of a planar arrangement of the gear structure.

  As shown in FIG. 9, in the second embodiment, the side members are formed larger than in the first embodiment, and the developing sleeve 41 and the photosensitive drum 1a are also supported integrally. Since the developing container 40 and each rotating body are configured in the same manner as in the first embodiment, in FIG. 9 to FIG. 12, the same reference numerals as those in FIG. A duplicate description is omitted.

  As shown in FIG. 10A, an elastic body 204 is attached to the side member 203. The elastic body 204 is formed by subjecting an elastomeric elastic material to the side member 203 by injection molding, so-called hot melt molding. The elastic body 201 is disposed in a closed curve so as to surround the developing chamber and the stirring chamber of the developing container 40. Thereby, the leakage of the developer through the gap between the developing container 40 and the side member 203 can be prevented. By sandwiching the elastic body 204, developer leakage between the developing container 40 and the side member 203 can be prevented. Compared to the first embodiment, the added elastic bodies 204b, 204c, and 204d are formed in the same manner as the elastic body 204, reduce the vibration transmission between the developing container 40 and the side member 203, and the side member 203. It is difficult to transmit the vibration generated on the side to the developing container 40.

  The elastic body 203 may be a material having a Young's modulus lower than that of the developing container 40, such as a rubber-based, silicon-based, or sponge-based seal. It may be formed by embedding silicon rubber in a part of the resin material of the side member 203 that has been injection-molded.

  The side member 203 has a fitting hole 203a, a fitting U-shaped groove 203b, and a fitting U-shaped groove 203c as positioning embossing fitting holes with the developing container 40. On the other hand, as shown in FIG. 11, the developing container 40 is formed with an emboss 202a and an emboss 202b. The side member 203 is assembled by fitting the positioning emboss 202a of the developing container 40 into the fitting hole 203a of the side member 203 and fitting the emboss 202b into the fitting U-shaped groove 203b.

  As shown in FIG. 11, the developing sleeve 41, the developing screw 43, the stirring screw 44, and the developer supply screw 48 are positioned by assembling the side member 203 at the end of the developing container 40. FIG. 11 shows a state in which the side member 203 is assembled to the developing container 40. After the gear mechanism 30 is assembled as shown in FIG. 7, as shown in FIG. 8, the side member is sandwiched and fixed between the developing container 40 and the front cover 400 by fixing the front cover 400.

  As shown in FIG. 12, the gear mechanism 30 is assembled after the side member 203 is assembled to the developing container 40. The side members 203 determine the relative positions of the developing screw 43, the stirring screw 44, the developer supply screw 48, and the photosensitive drum 1a. The side member 203 is attached to the developing container 40 and holds the gear mechanism 30 and the photosensitive drum 1a. Driving force is input from the developing motor M2 shown in FIG. 9 to the developing sleeve 41, and the gear 41g rotates. The rotation of the gear 41g is distributed to the gear 43g of the developing screw 43 and the gear 44g of the stirring screw 44 via the idler gear 31g. Further, the rotation is transmitted to the gear 48g of the developer supply screw 48 via another idler gear 32g.

  As shown in FIG. 11, the idler gears 31 g and 32 g have the rotating shafts 31 g and 32 g fixed to the side member 203, so that the meshing vibrations of the idler gears 31 g and 32 g directly vibrate the side member 203. In addition to the meshing vibration, the radial force acting on the rotary shafts 31g and 32g is fluctuated at a constant period by the eccentric rotation of the gears 43g, 44g and 48g, and the side member 203 is vibrated. Load fluctuations of the developing screw 43 and the stirring screw 44 also vibrate the side member 203 through a bearing member (not shown).

  When these composite vibrations are transmitted to the developing container 40 as they are, the vibrations are transmitted from the developing container 40 to the main body of the image forming apparatus 100 as shown in FIG. When the exposure device 3 vibrates, even if the light source of the laser beam undergoes a slight angle fluctuation, the beam spot position fluctuates greatly on the photosensitive drum 1a, so that the pitch irregularity of the scanning line becomes conspicuous in the output image.

  In the second embodiment, the side member 203 holding the gear mechanism 30 and the photosensitive drum 1a is in a state in which the elastic body 204 is sandwiched between the developing container 40, and therefore the gear vibration generated in the gear mechanism 30 is elastic. It is absorbed by the body 204 and hardly transmitted to the developing container 40. As a result, it is possible to prevent pitch unevenness images caused by the process cartridges 10a, 10b, 10c, 10d or the gear mechanism 30.

  Also in the second embodiment, each rotating body assembled to the developing container 40 can be assembled from one side of the developing container 40, and the assemblability can be improved.

  In the second embodiment, the side surfaces on both sides of the developing container 40 may be used as the side members 203 so as to be separated from the developing container 40. The elastic body 204 may be attached to the developing container 40 side.

1a, 1b, 1c, 1d Photosensitive drums 10a, 10b, 10c, 10d Process cartridge 30 Gear mechanism, 40 Developer container, 41 Developer sleeve 42 Magnet, 43 Developer screw, 44 Stir screw 46 Partition, 48 Developer supply screw 200, 203 Side member, 200a, 203a Positioning fitting hole 200b, 203b Positioning fitting U-shaped groove 201, 204 Elastic body, 202a, 202b Positioning emboss 400 Front cover

Claims (27)

A cartridge detachable from the image forming apparatus,
A developer carrier for developing an electrostatic image formed on the image carrier by carrying the developer;
An accommodating portion for accommodating a developer to be supplied to the developer carrying member;
A first conveying member that conveys the developer in the housing portion;
A second transport member for transporting the developer in the housing portion;
A plurality of gears for transmitting drive between the first conveying member and the second conveying member;
A first frame that includes a pair of bearings rotatably supporting both ends of the developer carrier, and forms a part of the inner wall of the housing;
A bearing that rotatably supports the first transport member and the second transport member on one end side where the plurality of gears are arranged in the axial direction of the first transport member and the second transport member. A second frame comprising a portion;
An elastic member sandwiched between the first frame and the second frame;
A locking portion that fixes the second frame to the first frame by being locked to the first frame in a state where the elastic member is compressed between the first frame and the second frame. A cartridge characterized by that. Comprising an idler gear for driving transmission between the first conveying member and the second conveying member;
The cartridge according to claim 1, wherein the second frame includes a rotating shaft that rotatably supports the idler gear. The second frame forms a part of the inner wall of the housing portion,
The cartridge according to claim 1, wherein the elastic member is a sealing member that seals between the first frame and the second frame.   The first frame has a bearing portion rotatably supporting the first transport member and the second transport member on the other end side in the axial direction of the first transport member and the second transport member. The cartridge according to claim 1, wherein the cartridge is provided. The storage unit stores a developer including toner and a carrier,
A first chamber for supplying a developer to the developer carrying member, and a second chamber connected to the first chamber at both ends of the first chamber and forming a circulation path for circulating the developer together with the first chamber. The cartridge according to any one of claims 1 to 4, further comprising a partition wall for partitioning the first chamber and the second chamber. The first transport member transports the developer in the first chamber,
The cartridge according to claim 5, wherein the second transport member transports the developer in the second chamber.   The cartridge according to claim 1, wherein the elastic member is a rubber member.   The cartridge according to claim 1, wherein the locking portion includes a cover portion that covers the plurality of gears.   The second frame and the first frame are provided with a plurality of protrusions for positioning each other and a plurality of fitting holes for fitting with the protrusions. The cartridge according to any one of claims 1 to 8.   The cartridge according to claim 1, wherein the locking portion includes a support portion that supports the second frame. The locking portion includes a hook portion locked to the first frame,
11. The first frame according to claim 1, wherein the second frame is positioned with respect to an axial direction of the developer carrying member by the hook portion being locked to the first frame. Cartridge.   The image forming apparatus according to claim 1, further comprising a coupling which is provided so as to be able to come into contact with and separate from a driving source provided in a main body of the image forming apparatus via a joint, and which inputs driving to the developer carrying member. The cartridge according to any one of 1 to 11. A cartridge detachable from the image forming apparatus,
An image carrier for carrying an image;
A developer carrying member that carries the developer and develops the electrostatic image formed on the image carrier;
An accommodating portion for accommodating a developer to be supplied to the developer carrying member;
A first conveying member that conveys the developer in the housing portion;
A second transport member for transporting the developer in the housing portion;
A plurality of gears for transmitting drive between the first conveying member and the second conveying member;
A first frame including a pair of first bearing portions that rotatably support both ends of the image carrier, and a pair of second bearing portions that rotatably support both ends of the developer carrier; ,
A first support member rotatably supporting the first transport member and the second transport member on one end side where the plurality of gears are arranged in the axial direction of the first transport member and the second transport member. A second frame having three bearing portions;
A cartridge comprising: an elastic member sandwiched between the first frame and the second frame. A cartridge detachable from the image forming apparatus,
An image carrier for carrying an image;
A developer carrying member that carries the developer and develops the electrostatic image formed on the image carrier;
An accommodating portion for accommodating a developer to be supplied to the developer carrying member;
A first conveying member that conveys the developer in the housing portion;
A second transport member for transporting the developer in the housing portion;
A plurality of gears for transmitting drive between the first conveying member and the second conveying member;
A first frame that includes a pair of bearings that rotatably support the image carrier and a pair of bearings that rotatably supports both ends of the developer carrier, and forms a part of the inner wall of the housing portion. When,
A bearing that rotatably supports the first transport member and the second transport member on one end side where the plurality of gears are arranged in the axial direction of the first transport member and the second transport member. A second frame having a portion;
An elastic member sandwiched between the first frame and the second frame,
The cartridge, wherein the second frame is held via the elastic member without being directly fixed to the first frame. A cartridge detachable from the image forming apparatus,
An image carrier for carrying an image;
A developer carrying member that carries the developer and develops the electrostatic image formed on the image carrier;
An accommodating portion for accommodating a developer to be supplied to the developer carrying member;
A first conveying member that conveys the developer in the housing portion;
A second transport member for transporting the developer in the housing portion;
A plurality of gears for transmitting drive between the first conveying member and the second conveying member;
A first frame that includes a pair of bearings that rotatably support the image carrier and a pair of bearings that rotatably supports both ends of the developer carrier, and forms a part of the inner wall of the housing portion. When,
A bearing that rotatably supports the first transport member and the second transport member on one end side where the plurality of gears are arranged in the axial direction of the first transport member and the second transport member. A second frame having a portion;
And a rubber member for sealing between the first frame and the second frame and for reducing vibration caused by the plurality of gears between the first frame and the second frame. Cartridge to be used. A cartridge detachable from the image forming apparatus,
An image carrier for carrying an image;
A developer carrying member that carries the developer and develops the electrostatic image formed on the image carrier;
An accommodating portion for accommodating a developer to be supplied to the developer carrying member;
A first conveying member that conveys the developer in the housing portion;
A second transport member for transporting the developer in the housing portion;
A plurality of gears for transmitting drive between the first conveying member and the second conveying member;
A first frame that includes a pair of bearings that rotatably support the image carrier and a pair of bearings that rotatably supports both ends of the developer carrier, and forms a part of the inner wall of the housing portion. When,
A bearing that rotatably supports the first transport member and the second transport member on one end side where the plurality of gears are arranged in the axial direction of the first transport member and the second transport member. A second frame having a portion;
An elastic member sandwiched between the first frame and the second frame,
The cartridge, wherein the second frame is assembled by being fitted to the first frame and is held via the elastic member. Comprising an idler gear for driving transmission between the first conveying member and the second conveying member;
The cartridge according to any one of claims 13 to 16, wherein the second frame includes a rotation shaft that rotatably supports the idler gear. The second frame forms a part of the inner wall of the housing portion,
18. The cartridge according to claim 13, wherein the elastic member is a sealing member that seals between the first frame and the second frame.   The first frame has a bearing portion rotatably supporting the first transport member and the second transport member on the other end side in the axial direction of the first transport member and the second transport member. The cartridge according to claim 1, wherein the cartridge is provided. The storage unit stores a developer including toner and a carrier,
A first chamber for supplying a developer to the developer carrying member, and a second chamber connected to the first chamber at both ends of the first chamber and forming a circulation path for circulating the developer together with the first chamber. The cartridge according to any one of claims 13 to 19, further comprising a partition wall for partitioning the first chamber and the second chamber. The first transport member transports the developer in the first chamber,
21. The cartridge according to claim 20, wherein the second transport member transports the developer in the second chamber.   The cartridge according to any one of claims 13 to 21, wherein the elastic member is a rubber member.   The second frame and the first frame are provided with a plurality of protrusions for positioning each other and a plurality of fitting holes for fitting with the protrusions. The cartridge according to any one of claims 13 to 22. A locking portion for fixing the second frame to the first frame by being locked to the first frame in a state where the elastic member is compressed between the first frame and the second frame;
The cartridge according to any one of claims 13 to 23, wherein the locking portion has a cover portion that covers the plurality of gears. A locking portion for fixing the second frame to the first frame by being locked to the first frame in a state where the elastic member is compressed between the first frame and the second frame;
The cartridge according to any one of claims 13 to 23, wherein the locking portion includes a support portion that supports the second frame. A locking portion for fixing the second frame to the first frame by being locked to the first frame in a state where the elastic member is compressed between the first frame and the second frame;
The locking portion includes a hook portion locked to the first frame,
The second hook frame is positioned with respect to the axial direction of the developer carrying member by the hook portion being locked to the first frame. Cartridge.   The image forming apparatus according to claim 1, further comprising a coupling which is provided so as to be able to come into contact with and separate from a driving source provided in a main body of the image forming apparatus via a joint, and which inputs driving to the developer carrying member. The cartridge according to any one of 13 to 26.

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