An imaging device may include an image carrier, and a lubricant application device for applying a lubricant to the image carrier. The lubricant application device includes a lubricant application roller for applying the lubricant to the image carrier, and a pressurizing unit for pressurizing and urging the lubricant against the lubricant application roller. The pressurizing unit has a lubricant case for accommodating the lubricant, and a pressurizing spring accommodated in the lubricant case to pressurize the lubricant against the image carrier.
In the following description, with reference to the drawings, the same reference numbers are assigned to the same components or to similar components having the same function, and overlapping description is omitted. In some cases, drawings may be drawn in a simplified or exaggerated manner for the sake of clarity of example.
An example image forming apparatus 1 may include a recording medium conveying device 10, a plurality of developing devices 20, a transfer device 30, an image carrier 40 that is a plurality of photoreceptors, and a fixing device 50. The recording medium conveying device 10 conveys the paper P as a recording medium. The developing device 20 develops an electrostatic latent image. The transfer device 30 secondarily transfers the toner image to the paper P. The image carrier 40 is an image carrier on which an image is formed on its outer circumferential surface. The fixing device 50 fixes a toner image on the paper P. The image forming apparatus 1 may be configured to form a color image, using magenta, yellow, cyan, and black colors. Additionally, the image forming apparatus 1 may be a printer, a component of an imaging system, or an imaging system. For example, the image forming apparatus 1 may comprise a developing device used in an imaging system or the like.
In some examples, the recording medium conveying device 10 includes a paper feeding roller 11 that conveys the paper P on which an image is formed along a conveying path R1. The paper P is stacked and stored in a cassette C, and conveyed by being picked up by the paper feeding roller 11. The paper feeding roller 11 is provided near an exit of the paper P of the cassette C. The recording medium conveying device 10 causes the paper P to reach a secondary transfer region R2 via the conveying path R1 at a timing when the toner image transferred to the paper P reaches the secondary transfer region R2.
A separate developing device 20 may be provided for each color. Each of the developing devices 20 includes a developing roller 21 that causes toner to be carried on the image carrier 40. In the developing device 20, for example, the toner and carrier are adjusted to have a predetermined mixing ratio, and the toner and carrier are mixed and stirred to uniformly disperse the toner. The developer is carried on the developing roller 21. The developing roller 21 rotates to convey the developer to a region facing the image carrier 40. Further, the toner of the developer carried on the developing roller 21 moves to the electrostatic latent image of the image carrier 40, and the electrostatic latent image is developed.
In some examples, the transfer device 30 conveys the toner image formed by the developing device 20 and the image carrier 40 to the secondary transfer region R2. The image developed on the image carrier 40 is transferred to the transfer device 30. As an example, the transfer device 30 includes a transfer belt 31, suspension rollers 32a, 32b, 32c, and 32d, a primary transfer roller 33, and a secondary transfer roller 34. The transfer belt 31 is suspended by the suspension rollers 32a, 32b, 32c, and 32d. A separate primary transfer roller 33 may be provided for each color. Each primary transfer roller 33 clamps the transfer belt 31 together with each image carrier 40. The secondary transfer roller 34 clamps the transfer belt 31 together with the suspension roller 32d.
The transfer belt 31 may include an endless belt that circulates and moves by the suspension rollers 32a, 32b, 32c, and 32d. The primary transfer roller 33 presses the image carrier 40 from the inner circumferential side of the transfer belt 31. The secondary transfer roller 34 presses the suspension roller 32d from the outer circumferential side of the transfer belt 31. The image carrier 40 includes, for example, a photosensitive drum. In some examples, a separate image carrier 40 is provided for each color. The plurality of image carriers 40 is arranged side by side along a moving direction of the transfer belt 31. A developing device 20, an exposure unit 42, a charging device 41, and a cleaning device 70 are provided at facing positions of the outer circumferential surface of each image carrier 40.
The image forming apparatus 1 may include a process cartridge 2 integrally including the developing device 20, the image carrier 40, the charging device 41 and the cleaning device 70, and an apparatus main body 3 to which the process cartridge 2 is attached and detached. The process cartridge 2 is freely attachable to and detachable from the apparatus main body 3 by opening a door of the apparatus main body 3 and inserting the process cartridge 2 into and extracting the process cartridge 2 from the apparatus main body 3.
In some examples, the charging device 41 uniformly charges the outer circumferential surface of the image carrier 40 to a predetermined potential. The charging device 41 may include a charging roller that rotates to follow the rotation of the image carrier 40. The exposure unit 42 exposes the outer circumferential surface of the image carrier 40 charged by the charging device 41 in accordance with the image to be formed on the paper P. The potential of a portion of the outer circumferential surface of the image carrier 40 exposed to the exposure unit 42 changes, and the electrostatic latent image is formed on the outer circumferential surface of the image carrier 40 accordingly.
In some examples, toner is supplied to each of the plurality of developing devices 20 from each of a plurality of toner tanks N disposed to face each of the developing devices 20. Each of the developing devices 20 develops the electrostatic latent image of each image carrier 40 with the supplied toner. As a result, the toner image is developed. The developing device 20 and the toner tank N may include toner supply units that supply toner to the image carrier 40. For example, magenta, yellow, cyan, and black toners are separately contained in each toner tank N. The cleaning device 70 removes the toner remaining on the outer circumferential surface of the image carrier 40 after the toner image formed on the outer circumferential surface of the image carrier 40 is initially transferred to the transfer belt 31. The cleaning device 70 will be described in further detail later.
The fixing device 50 fixes the toner image, which was secondarily transferred to the paper P from the transfer belt 31, onto the paper P. The fixing device 50 includes, for example, a fixing belt 51 that heats the paper P and fixes the toner image onto the paper P, and a pressure roller 52 that pressurizes the fixing belt 51. In some examples, the fixing belt 51 and the pressure roller 52 are formed in a cylindrical shape. Additionally, a heat source such as a halogen lamp may be provided inside the fixing belt 51. A fixing nip portion, which is a contact region, is provided between the fixing belt 51 and the pressure roller 52. As the paper P passes through the fixing nip portion, the toner image is melted and fixed onto the paper P. Also, the image forming apparatus 1 may be provided with discharge rollers 55 and 56 which discharge the paper P, on which the toner image has been fixed by the fixing device 50, to the outside of the image forming apparatus 1.
Next, an example image forming method will be described. The image forming method may comprise a printing process performed by the image forming apparatus 1. For example, when an image signal of an image to be recorded is input to the image forming apparatus 1, the paper P stacked on the cassette C is picked up by the rotation of the paper feeding roller 11, and the paper P is conveyed along the conveying path R1. Then, the charging device 41 uniformly charges the outer circumferential surface of the image carrier 40 to a predetermined potential on the basis of the image signal. Thereafter, the exposure unit 42 irradiates the laser beam onto the outer circumferential surface of the image carrier 40 to form an electrostatic latent image on the outer circumferential surface of the image carrier 40.
Subsequently, the developing device 20 forms a toner image on the image carrier 40 and performs development. In some examples, the toner image is initially transferred from each image carrier 40 to the transfer belt 31 in a region in which the image carrier 40 and the transfer belt 31 face each other. Additionally, toner images formed on each of the plurality of image carriers 40 may be sequentially superimposed on the transfer belt 31 to form a composite toner image. The composite toner image is secondarily transferred to the paper P conveyed from the recording medium conveying device 10 in the secondary transfer region R2 in which the suspension roller 32d and the secondary transfer roller 34 face each other.
The paper P to which the composite toner image is secondarily transferred is conveyed from the secondary transfer region R2 to the fixing device 50. The fixing device 50 melts and fixes the composite toner image on the paper P by, for example, causing the paper P to pass through the fixing nip portion, while applying heat and pressure to the paper P. Thereafter, the paper P is discharged to the outside of the image forming apparatus 1 by the discharge rollers 55 and 56.
As illustrated in
The cleaning blade 71 includes, for example, a base material 71a and a support 71c that supports the base material 71a. An end portion of the base material 71a is fixed to the support 71c. The base material 71a may have a strip shape. In some examples, the length of the base material 71a is 220 mm or more and 360 mm or less, and the width of the base material 71a is 5 mm or more and 15 mm or less. Additionally, the thickness of the base material 71a may be 1.6 mm or more and 2.4 mm or less. The material of the base material 71a may include an elastic body such as rubber or a thermoplastic elastomer. The material of the support 71c may include a metal such as iron, copper, stainless steel, aluminum, aluminum alloy or nickel.
The image forming apparatus 1 may be equipped with a lubricant application device 7 that applies the lubricant 75 to the image carrier 40. The image carrier 40 is an example of a lubricant application target member to which the lubricant 75 is applied. By applying the lubricant 75 to the image carrier 40, the lubricant application device 7 suppresses wear of the image carrier 40 and enhances transferability of an intermediate transfer. The lubricant application device 7 includes an application roller 73 positioned between the cleaning blade 71 and the eraser 72 in the rotational direction of the image carrier 40. The application roller 73 is provided at a position adjacent to the image carrier 40. The application roller 73 removes and holds at least a part of the toner remaining on the outer circumferential surface of the image carrier 40 from the image carrier 40.
The application roller 73 may include a brush roller. The application roller 73 includes, for example, a metal shaft portion 73a and a brush 73b fixed to the shaft portion 73a. Additionally, the application roller 73 may be conductive. The shaft portion 73a extends in a direction in which the rotation axis of the image carrier 40 extends. The shaft portion 73a may include a base fabric in which the brush 73b is implanted as a plurality of bristles. In some examples, when the brush 73b is implanted on the outer circumferential surface of the shaft portion 73a, each brush 73b is fixed to the shaft portion 73a. The material of the brush 73b may include an acrylic fiber, a nylon fiber or a PET fiber.
In some examples, the thickness of the brush 73b is 3 denier or more and 6 denier or less. Additionally, the density of the brush 73b may be between approximately 50K lines/inch to 200K lines/inch, the length of the brush 73b may be between approximately 10 mm to 20 mm, and the length of the bristle implanted to the shaft portion 73a may be between approximately 2 mm to 5 mm. The electric resistivity of the brush 73b when a voltage of 500 V is applied to the application roller 73 may be approximately 10×1012 [Ω·cm] or less.
The application roller 73 may rotate in a direction in which the application roller 73 follows the image carrier 40, for example in a counterclockwise direction in
The lubricant 75 forming a solid lubricated molded body is supported on the side of the application roller 73 opposite to the image carrier 40. In some examples, the lubricant 75 suppresses abrasion of the outer circumferential surface of the image carrier 40 by being applied to the image carrier 40, thereby prolonging the life expectancy of the image carrier 40. The application roller 73 applies the lubricant 75 to the image carrier 40. For example, the application roller 73 scrapes off the lubricant 75 and supplies the lubricant 75 to the image carrier 40. The lubricant 75 may include a metal soap. In some examples, the lubricant 75 may include a material containing zinc stearate.
As illustrated in
The lubricant support member 76 may be provided at a position that supports the lubricant 75 between the lubricant support member 76 and the application roller 73. In some examples, the lubricant support member 76 is provided on an opposite side of the application roller 73 as seen from the lubricant 75. The lubricant support member 76 may be located between the urging member 77 and the application roller 73. In some examples, the lubricant support member 76 includes a lubricant metal plate 76a to which the lubricant 75 is fixed, and a guide member 76b which restricts the moving direction of the lubricant metal plate 76a.
The guide member 76b may be a separate body from the lubricant metal plate 76a, but may be integrated with the lubricant metal plate 76a. The lubricant metal plate 76a supports the lubricant 75 from the side opposite to the application roller 73. In some examples, the lubricant 75 and the lubricant support member 76 both have an elongated shape extending in the direction in which the rotation axis of the application roller 73 extends, and the lubricant metal plate 76a is arranged along the lubricant 75.
The longitudinal direction of the lubricant 75 may coincide with a direction D1 which is the longitudinal direction of the lubricant metal plate 76a. The shape of the lubricant metal plate 76a as seen from the direction D1 may be in the form of an L shape or other type of shape. The plurality of urging members 77 may be arranged to align along the direction D1. In some examples, the urging member 77 is provided at each of both end portions of the lubricant support member 76 in the direction D1. The pair of urging members 77 may be disposed at a position symmetrical with each other with respect to the center of the direction D1 of the lubricant support member 76.
The casing 78 accommodates, for example, the lubricant 75, the lubricant support member 76, and the urging member 77. In some examples, the casing 78 has a box shape. The urging member 77 may include a compression coil spring. However, the urging member 77 may be an urging member other than the compression coil spring, and may urge the lubricant support member 76 toward the image carrier 40 by the own weight of the lubricant support member 76. In some examples, the center of gravity of the lubricant support member 76 is provided above the application roller 73, and the lubricant support member 76 may be urged toward the application roller 73 and the image carrier 40 by gravity. In this case, the urging member 77 as the compression coil spring can be omitted.
When the urging member 77 includes a compression coil spring, one end of the urging member 77 may be fixed to a bottom surface 78a of the casing 78, and the other end of the urging member 77 may be fixed to the lubricant metal plate 76a. The urging member 77 has, for example, an urging force which urges the lubricant support member 76 toward the image carrier 40 and presses the lubricant 75 against the application roller 73 and the image carrier 40.
The lubricant application device 7 may be equipped with a movement mechanism 80 which includes a guide 81 connected to the lubricant support member 76 and extending along the linear direction D2, and an engaging portion 82 which engages with the guide 81. The linear direction D2 may include a direction approaching the image carrier 40 and a direction separating from the image carrier 40. Additionally, a separate guide 81 may be provided at both end portions of the lubricant support member 76 in the direction D1.
In some examples, the guide 81 has a concave portion 81a formed in the lubricant support member 76, and the engaging portion 82 has a convex portion 82a that protrudes from the casing 78 to the concave portion 81a. The concave portion 81a may be provided between the plurality of protrusions 76e protruding along the direction D1 in the guide member 76b. Each of the plurality of protrusions 76e has, for example, a columnar shape. Each of the plurality of protrusions 76e may have a prismatic shape, and the shape of the protrusion 76e may be appropriately changed. The convex portion 82a may have a rectangular shape extending along the linear direction D2.
The lubricant application device 7 may include a restricting portion 79 that restricts movement of the lubricant 75 in the linear direction D2. In some examples, the lubricant application device 7 may be provided outside the image forming apparatus 1, and when the lubricant application device 7 is vibrated or dropped during transportation or the like, the restricting portion 79 may suppress vibration of the lubricant 75 to prevent breakage of the lubricant 75.
The movement mechanism 80 may be located between the lubricant support member 76 and the casing 78. In some examples, the casing 78 is coupled to the movement mechanism 80, and the urging member 77 is disposed between the casing 78 and the lubricant support member 76. With the aforementioned movement mechanism 80, the urging member 77 restricts the movement of the lubricant 75 and the lubricant support member 76 in the linear direction D2.
In some examples, the urging member 77 restricts the moving direction of the lubricant support members 76 and 86 in the linear direction D2 by the movement mechanisms 80 and 90. As a result, the lubricant 75 moves along the linear direction D2 and the inclination of the lubricant 75 in the direction other than the linear direction D2 is suppressed. Accordingly, the rotation and the unsteadiness or wobbling of the lubricant 75 caused by the rotation of the application roller 73 may be suppressed. Still further, the lubricant 75 can be applied to the image carrier 40 without waste. Therefore, the life of the lubricant 75 can be prolonged without increasing the size of the lubricant 75, and excess consumption of the lubricant 75 can be reduced.
In some examples, the guides 81 and 91 have concave portions 81a and 91a formed in one of the lubricant support members 76 and 86 and the casings 78 and 88, and the engaging portions 82 and 92 have convex portions 82a and 92a formed on the other of the lubricant support members 76 and 86 and the casings 78 and 88. Therefore, the configurations of the guides 81 and 91 and the engaging portions 82 and 92 can be set to a simple configuration having the concave portions 81a and 91a and the convex portions 82a and 92a. Further, each of the plurality of protrusions 76e may have a cylindrical shape. Therefore, in the guide 81 located between the plurality of protrusions 76e, the engaging portion 82 can be smoothly moved in the linear direction D2.
In addition to the above-described example lubricant application devices for applying lubricant 75 to the image carrier 40, the lubricant application device may be, for example, a device that applies the lubricant to the transfer belt 31. In some examples, if the lubricant application device comes into contact with the transfer belt 31 at a position between the suspension roller 32d and the suspension roller 32b in the moving direction of the transfer belt 31, there may not be any influence on the toner image on the transfer belt 31, and the transferability and the life of the transfer belt unit may be improved.
It is to be understood that not all aspects, advantages and features described herein may necessarily be achieved by, or included in, any one particular example. Indeed, having described and illustrated various examples herein, it should be apparent that other examples may be modified in arrangement and detail is omitted.
Number | Date | Country | Kind |
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2018-137961 | Jul 2018 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/US2019/038497 | 6/21/2019 | WO | 00 |