The present application claims priority to and incorporates by reference the entire contents of Japanese priority document 2007-339846 filed in Japan on Dec. 28, 2007.
1. Field of the Invention
The present invention relates to a developing device, a process unit including the developing device, and an image forming apparatus.
2. Description of the Related Art
The supplying roller 31 includes a sponge layer to obtain toner on its outer circumference. The supplying roller 31 is rotated in the same direction as that of the developing roller 5, so that the supplying roller 31 supplies toner from the sponge layer to the developing roller 5. The blade 32 is, for example, a blade spring made of a metal. An end of the blade 32 is in pressure contact with the surface of the developing roller 5 whereby the toner on the surface of the developing roller 5 is formed into a thin layer having a uniform thickness. The toner stirring member 33 is rotatably mounted in the toner hopper 6. The toner stirring member 33 is rotated to stir toner T contained in the toner hopper 6. The developing roller 5 includes a rubber layer on its outer circumference. The surface of the developing roller 5 is in contact with the surface of an image carrier 2 (photosensitive element). The developing roller 5 transfers the toner from its surface to the surface of the image carrier 2 whereby a toner image is formed on the surface of the image carrier 2.
To prevent uneven image density and image loss, it is necessary to transfer the toner from the surface of the developing roller 5 to the surface of the image carrier 2 at a uniform density. Therefore, the image carrier 2 and the developing roller 5 need to be in contact with each other at a uniform contact pressure. If the developing roller 5 is moved away from the image carrier 2 and is not in contact with the image carrier 2, the toner cannot be transferred from the surface of the developing roller 5 to the surface of the image carrier 2, which results in the image loss. On the other hand, if the developing roller 5 is moved too close to the image carrier 2 and is pressed against the image carrier 2 at a high pressure, this causes a high image density.
Japanese Patent Application Laid-open No. 2006-171295 discloses a technology for biasing a developing roller toward an image carrier by using a biasing member such as a spring, so that the developing roller is in contact with the image carrier at a uniform contact pressure.
Although each of the developing roller 5 and the image carrier 2 is eccentric, a distance between the image carrier 2 (the rotation axis of the image carrier 2) and the developing roller 5 (the rotation axis of the developing roller 5) can be adjusted by moving the developing roller 5 toward and away from the image carrier 2. Specifically, the distance between the image carrier 2 and the developing roller 5 can be made short like a distance D1 shown in
Furthermore, if the contact pressure between the developing roller 5 and the image carrier 2 is made small, it is possible to reduce rotary torque of the image carrier 2 and the developing roller 5 and prevent toner deterioration caused by friction between the developing roller 5 and the image carrier 2.
A conventional image forming apparatus includes a process unit having an image carrier, a charging unit, a developing device, and a cleaning unit that are integrally contained in a casing. The process unit is detachably attached to a main body of the image forming apparatus. The process unit is detached from the main body of the image forming apparatus, so that a maintenance work can be easily performed.
Guides 54a and 54b each having a U-shape are arranged on the supporting members 50a and 50b, respectively. The guides 54a and 54b extend in the first direction. Bearings 34a and 34b are arranged in grooves of the guides 54a and 54b, respectively. Each of the bearings 34a and 34b is movable in the corresponding groove. Biasing members 35a and 35b are arranged in the grooves of the guides 54a and 54b, respectively. The biasing members 35a and 35b bias the bearings 34a and 34b toward the holes 51a and 51b.
The developing roller 5 is arranged on a lower portion of a main body 37 of the developing device 30. Moreover, a pair of projected portions (bosses) 36a and 36b is arranged on upper side surfaces of the main body 37.
To assemble the above components of the process unit 1, the ends 2a and 2b are inserted through the holes 51a and 51b, respectively. Furthermore, both ends 5a and 5b of the developing roller 5 are inserted into the bearings 34a and 34b, and the projected portions 36a and 36b are inserted through the long holes 52a and 52b, so that the main body 37 is attached to the supporting members 50a and 50b. Retaining members 53a and 53b such as screws are attached to ends of the projected portions 36a and 36b that are laterally protruded through the long holes 52a and 52b. Thus, the supporting members 50a and 50b are prevented from being detached from the main body 37.
When the components of the process unit 1 are assembled in the above manner, the developing roller 5 is pressed against the surface of the image carrier 2 by biasing forces of the biasing members 35a and 35b.
Because the projected portions 36a and 36b and the rotation axis of the developing roller 5 are arranged near opposite ends (the upper end and the lower end) of the main body 37, the main body 37 is supported by the supporting members 50a and 50b in a stable manner.
To attach the process unit 1 to the main body 60, the ends 2a and 2b protruding through the supporting members 50a and 50b are inserted into the grooves 62a and 62b. When the ends 2a and 2b are brought into contact with lower ends of the grooves 62a and 62b, the position of the process unit 1 is set with respect to the main body 60.
If the image carrier 2 and the developing roller 5 are rotated when the process unit 1 is attached to the main body 60, the bearings 34a and 34b are moved inside the guides 54a and 54b, so that the developing roller 5 (the rotation axis of the developing roller 5) can be moved toward and away from the image carrier 2 (the rotation axis of the image carrier 2). Moreover, the projected portions 36a and 36b are moved inside the long holes 52a and 52b with the movement of the developing roller 5 toward and away from the image carrier 2.
When the process unit 1 is attached to the main body 60, it is possible that the supporting members 50a and 50b are twisted in directions indicated by arrows A and B in
When the supporting members 50a and 50b are twisted with respect to each other, the ends 5a and 5b and the projected portions 36a and 36b are moved with the movement of the supporting members 50a and 50b in the opposite directions.
To prevent the uneven image density and the image loss, in a conventional image forming apparatus, a soft rubber is applied to a rubber layer of a developing roller. With this configuration, when the developing roller is tilted with respect to an image carrier, because a middle portion of the rubber layer that is pressed against the image carrier is largely deformed, both ends of the developing roller can be in contact with the image carrier. However, in this technology, there is a limitation on a type of rubber that can be applied to the rubber layer, and because the middle portion of the rubber layer is largely deformed, the high image density is caused at the middle portion of the developing roller.
As an alternative way of preventing the uneven image density and the image loss, the biasing force applied to a developing roller is made large, and a middle portion of a rubber layer that is pressed against an image carrier is largely deformed. However, in the same manner as the above technology, this technology also causes the high image density at the middle portion of the developing roller. Moreover, when the biasing force of the developing roller is large, it is difficult to reduce the rotary torque of the developing roller and prevent toner deterioration.
It is an object of the present invention to at least partially solve the problems in the conventional technology.
According to one aspect of the present invention, there is provided a developing device including a main body that is arranged between a pair of supporting members and includes a developing roller. Both end portions of the developing roller are supported by the supporting members, respectively, in a first direction in which the developing roller is movable toward and away from an image carrier. A groove is formed on each of the supporting members. Either one of an end portion of the developing roller and a bearing that supports the end portion is inserted into the groove. Either one of at least one of the end portions of the developing roller and at least one of the bearings is movable in the groove in a second direction that intersects the first direction.
Furthermore, according to another aspect of the present invention, there is provided a process unit including a pair of supporting members that is detachably attached to a main body of an image forming apparatus. The supporting members integrally support a developing device and an image carrier. The developing device includes a main body that is arranged between the supporting members and that includes a developing roller. Both end portions of the developing roller are supported by the supporting members, respectively, in a first direction in which the developing roller is movable toward and away from the image carrier. A groove is formed on each of the supporting members. Either one of an end portion of the developing roller and a bearing that supports the end portion is inserted into the groove. Either one of at least one of the end portions of the developing roller and at least one of the bearings is movable in the groove in a second direction that intersects the first direction.
Moreover, according to still another aspect of the present invention, there is provided an image forming apparatus including a developing device. The developing device includes a main body that is arranged between a pair of supporting members and includes a developing roller. Both end portions of the developing roller are supported by the supporting members, respectively, in a first direction in which the developing roller is movable toward and away from an image carrier. A groove is formed on each of the supporting members. Either one of an end portion of the developing roller and a bearing that supports the end portion is inserted into the groove. Either one of at least one of the end portions of the developing roller and at least one of the bearings is movable in the groove in a second direction that intersects the first direction.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Exemplary embodiments of the present invention are explained in detail below with reference to the accompanying drawings.
The process units 1K, 1C, 1M, and 1Y have the same configuration except that they contain toner of different colors. The configuration and operation of the process unit 1K will be described as an example in detail. The process unit 1K includes the image carrier 2, a cleaning unit 3, a charging unit 4, the developing roller 5, and the toner hopper 6. The process unit 1K is detachably attached to a main body of the image forming apparatus.
An exposure device 7 is arranged above the process units 1K, 1C, 1M, and 1Y. The exposure device 7 causes laser diodes (not shown) to emit four laser beams L1 to L4 corresponding to the four process units 1K, 1C, 1M, and 1Y based on image data.
A transfer belt device 8 is arranged under the process units 1K, 1C, 1M, and 1Y. The transfer belt device 8 includes an intermediate transfer belt 12 to transfer a toner image formed on the image carrier 2. The intermediate transfer belt 12 is supported and rotated by four primary transfer rollers 9a, 9b, 9c, 9d, a drive roller 10, a supporting roller 11, and a cleaning backup roller 15. The primary transfer rollers 9a, 9b, 9c, and 9d are arranged parallel to the image carriers 2 of the process units 1K, 1C, 1M, and 1Y. A secondary transfer roller 13 is arranged parallel to the drive roller 10. A belt cleaning device 14 is arranged parallel to the cleaning backup roller 15.
A feeding cassette 16 and a feeding roller 17 are arranged at the bottom of the image forming apparatus. The feeding cassette 16 can contain one or more sheets (hereinafter, “recording media”). The feeding roller 17 feeds a recording medium from the feeding cassette 16. A pair of registration rollers 18 is arranged between the feeding roller 17 and a transfer nip formed between the secondary transfer roller 13 and the drive roller 10. The registration rollers 18 temporarily stop a recording medium that is fed to them by the feeding roller 17.
A fixing device 19 is arranged above the transfer nip formed between the secondary transfer roller 13 and the drive roller 10. The fixing device 19 includes a fixing roller 25, a pressure roller 26. A pair of discharging rollers 20 is arranged above the fixing device 19. The discharging rollers 20 discharge a recording medium out of the image forming apparatus. Recording media discharged by the discharging rollers 20 are stacked on a catch tray 21 that is formed by curving a part of the upper surface of the main body of the image forming apparatus in an inward direction.
A waste-toner container 22 is arranged between the transfer belt device 8 and the feeding cassette 16. A waste-toner conveying hose (not shown) extends from the belt cleaning device 14 to an inlet of the waste-toner container 22.
When the feeding roller 17 is rotated based on a feed signal input from a control unit (not shown) included in the image forming apparatus, the feeding roller 17 feeds a recording medium that is on the top of a pile of stacked recording media from the feeding cassette 16 toward the registration rollers 18. When a leading end of the fed recording medium reaches a nip between the registration rollers 18, the registration rollers 18 temporarily stop the recording medium to synchronize the timing of conveying the recording medium with the timing of transferring the toner image formed on the intermediate transfer belt 12.
An image forming process performed by the process unit 1K will be described as an example in detail. The charging unit 4 uniformly charges the surface of the image carrier 2 to a high electric potential. A portion of the surface of the image carrier 2 is irradiated with the laser beam L1 emitted from the exposure device 7 based on image data. An electric potential of the irradiated portion then decreases whereby an electrostatic latent image is formed on the portion. The developing roller 5 applies black toner fed from the toner hopper 6 to the electrostatic latent image formed on the image carrier 2 thereby forming (developing) a black toner image. The toner image formed on the image carrier 2 is then primary-transferred to the intermediate transfer belt 12. The other process units 1C, 1M, and 1Y perform the same process as described above to form cyan, magenta, and yellow toner images on the image carriers 2. The toner images of the four colors are transferred onto the intermediate transfer belt 12 in a superimposed manner.
The cleaning unit 3 of each of the process units 1K, 1C, 1M, and 1Y removes toner remaining on the surface of the image carrier 2 after the process of transferring the toner image to the intermediate transfer belt 12 is finished. After the cleaning unit 3 removes the toner from the surface of the image carrier 2, a charge removing device (not shown) removes residual charge from the image carrier 2.
Then, the registration rollers 18 and the feeding roller 17 start to rotate again thereby feeding the recording medium toward the secondary transfer roller 13 in such a manner that the timing of conveying the recording medium is synchronized with the timing of transferring a color toner image formed on the intermediate transfer belt 12. The secondary transfer roller 13 then secondary-transfers the color toner image from the intermediate transfer belt 12 to the recording medium.
The recording medium with the color toner image is conveyed to the fixing device 19. The recording medium is then sandwiched between the fixing roller 25 and the pressure roller 26, so that the unfixed color toner image is fixed to the recording medium with heat and pressure. The recording medium with the fixed color toner image is conveyed from the fixing device 19 to the discharging rollers 20, and then discharged to the catch tray 21 by the discharging rollers 20.
After the color toner image is transferred from the intermediate transfer belt 12 to the recording medium, some toner remains on the intermediate transfer belt 12. The belt cleaning device 14 removes the toner from the intermediate transfer belt 12. The toner removed from the intermediate transfer belt 12 is conveyed to the waste-toner container 22 by a waste-toner conveying unit (not shown), and is collected in the waste-toner container 22.
The process units 1K, 1C, 1M, and 1Y have the same basic configuration as that of the process unit 1. Each of the process units 1K, 1C, 1M, and 1Y includes the developing device 30, the image carrier 2, and the supporting members 50a and 50b. In the same manner as the developing device 30 shown in
The guide 54a extending in the first direction is arranged on the inner surface of the supporting member 50a facing the developing device 30.
The first direction in which each of the long hole 52a and the guide 54a extends is not necessarily a linear direction passing through the rotation center of the image carrier 2 (the center of the hole 51a). Specifically, an extended line in the longitudinal direction of each of the long hole 52a and the guide 54a can be located at a different position from the rotation center of the image carrier 2 (the center of the hole 51a).
The bearing 34a is arranged in a groove 55a of the guides 54a to support the end 5a. The bearing 34a is movable in the groove 55a in its longitudinal direction. Furthermore, the biasing member 35a is arranged in the groove 55a to bias the bearing 34a toward the image carrier 2 (the hole 51a). The biasing member 35a is, for example, a coil spring, and ends of the biasing member 35a are attached to the guide 54a and the bearing 34a.
As shown in
Although the long hole 52b is formed on the upper portion of the supporting member 50b to insert the projected portion 36b, the projected portion 36b is inserted through the long hole 52b such that the projected portion 36b is not in contact with the inner surface of the long hole 52b. Furthermore, although the guide 54b including the bearing 34b is arranged on the supporting member 50b, the bearing 34b is not in contact with the inner surface of the guide 54b.
As shown in
Each of the grooves 55a and 55b can be a hole having a bottom formed on the supporting member, a through hole, or the like, rather than the groove formed between a pair of projected portions of the guide that are arranged with a predetermined space therebetween.
When the process unit is attached to the main body of the image forming apparatus, it is possible that the supporting members 50a and 50b are twisted with respect to each other in the directions indicated by the arrows A and B in
When the supporting member 50b is twisted with respect to the supporting member 50a in the direction indicated by the arrow C, the bearing 34b can be moved in the groove 55b in the direction opposite to the direction indicated by the arrow C because of the space S (see
As described above, the projected portion 36b and the bearing 34b are prevented from being moved with the twist of the supporting member 50b, so that it is possible to avoid the axis line of the developing roller 5 from being tilted with respect to the axis line of the image carrier 2.
When the supporting member 50b is twisted in the direction opposite to the direction indicated by the arrow C, the bearing 34b is moved in the groove 55b in the direction indicated by the arrow C and the projected portion 36b is also moved in the long hole 52b in the direction indicated by the arrow C. Specifically, as shown in
If directions in which the supporting members 50a and 50b are twisted are identified, the spaces S and S′ can be provided on one sides of the bearing 34a and the projected portion 36b.
An amount of twist between the supporting members 50a and 50b becomes larger at a position further away from the rotation axis of the image carrier 2. Therefore, an amount of twist at a position of the projected portion 36b is larger than that at a position of the bearing 34b. As shown in
Although it is explained in the above embodiment that the space S is provided between the bearing and the guide of one of the supporting members and the space S′ is provided between the projected portion and the long hole of the same one of the supporting members, it is possible that the space S is provided between the bearing and the guide of one of the supporting members and the space S′ is provided between the projected portion and the long hole of the other one of the supporting members.
Moreover, if the space S is provided between the bearing and the guide of each of the supporting members, each of the bearings can be moved in the corresponding groove in the circumferential direction. With this configuration, even if the amount of twist between the supporting members is large, it is possible to effectively prevent the developing roller from being tilted with respect to the image carrier.
To attach the developing device 30 to the main body 60, the ends 5a and 5b and the projected portions 36a and 36b are inserted into the grooves 62a and 62b. When the ends 5a and 5b abut on the lower ends of the grooves 62a and 62b, respectively, the position of the developing roller 5 is set with respect to the image carrier 2 in an abutting manner.
With the configuration shown in
The present invention is not limited to the above embodiments, but various modifications can be made without departing from the scope of the invention. For example, as shown in
In the above embodiments, although the case where the supporting members are circumferentially twisted around the rotation axis of the image carrier 2 in the opposite directions to each other is explained as an example, the present invention can be applied to a case where the supporting members are twisted in a direction other than the circumferential direction (a direction that intersects the first direction).
According to one aspect of the present invention, it is possible to prevent the axis line of the developing roller from being tilted with respect to the axis line of the image carrier. Thus, the developing roller and the image carrier can be arranged parallel to each other, and an image can be formed in a proper manner without the uneven image density or the image loss.
The process unit including the developing device and the image forming apparatus can achieve the same effect as that achieved by the developing device.
Even if the amount of twist between the supporting members is large, it is possible to effectively prevent the ends of the developing roller from being moved with the twist of the supporting members.
The main body of the developing device can be supported by the supporting members in a stable manner. If the supporting members are twisted with respect to each other, it is possible to prevent the projected portion arranged on one of the supporting members from being moved with the twist of the supporting members.
If the supporting members are twisted with respect to each other in any directions, it is possible to prevent the projected portion arranged on one of the supporting members from being moved with the twist of the supporting members.
In addition, it is possible to prevent the supporting members from being easily detached from the main body of the developing device. Thus, it is easier to handle the supporting members and the main body as a unit, and operability can be improved.
Moreover, the stability in supporting the main body by the supporting members is improved.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
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2007-339846 | Dec 2007 | JP | national |