In some image forming apparatuses such as printers and multifunctional machines, the entire surface of a photosensitive body is uniformly charged by a charging device at the time as an image forming operation. Light is irradiated to the uniformly charged surface of the photosensitive body by an exposure device to form an electrostatic latent image of print data. Toner is adsorbed to the electrostatic latent image for development thereof by a developing device. The developed toner image on the photosensitive body is primarily transferred to a transfer belt, and the toner image on the transfer belt is secondarily transferred to paper. The secondarily transferred toner on the paper is fused on the paper by a fixing device; and the paper is discharged to a paper tray or the like.
Some of these image forming apparatuses are provided with a lubricant application device for applying a lubricant to the surface of a photosensitive body. Some of the lubricant application devices have an application roller provided with application bristles about an outer circumferential surface thereof. The application roller is rotated by a motor, and receives a lubricant from a lubricant supply source and applies the lubricant to a photosensitive body. The application bristles of the application rollers may be in constant abutment with the photosensitive body.
An example lubricant application device is for applying a lubricant to a photosensitive body in an imaging apparatus. The example lubricant application device may include: a lubricant supply source; an application roller; a drive unit for rotating the application roller; and a controller for controlling the drive unit. The application roller may have application bristles radially arranged about an outer circumferential surface thereof for receiving the lubricant from the lubricant supply source and for applying the lubricant to the photosensitive body. The application roller may be positioned relative to the photosensitive body such that a minimum distance between the outer circumferential surface of the application roller and the photosensitive body is shorter than an entire length of the application bristles. The controller may control the drive unit, so that the drive unit rotates the application roller according to a rotation that counteracts a bristle-bending tendency of the application bristles of the application roller due to an abutment between the application bristles and the photosensitive body. For example, the controller may be adapted to control the drive unit so as to rotate the application roller in a forward and/or reverse direction to prevent the application bristles of the application roller from having a bristle-bending tendency (or bristle-bending habit) due to abutment between the application bristles and the photosensitive body, and/or to recover the application bristles from a bristle-bending tendency (or bristle-bending habit) caused by the abutment.
In an example lubricant application device, the control of the drive unit by the controller may include repeatedly rotating the application roller at predetermined time intervals during which no bristle-bending tendency is developed due to the abutment between the application bristles of the application roller and the photosensitive body.
In an example lubricant application device, the control of the drive unit by the controller may include, before an imaging operation, rotating the application roller at least by 360° in such a direction that portions of the application bristles of the application roller having a bristle-bending tendency are restored by the abutment between the application bristles and the photosensitive body.
In an example lubricant application device, there may be provided a plate-like application bristle restoration member having a long side (e.g. a lengthwise side) having a length at least equal to an entire length of the application roller along an axial direction of the application roller. The application bristle restoration member may be arranged such that the long side is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the entire length of the application bristles along a radial direction of the application roller. The control of the drive unit by the controller may include, before an imaging operation, rotating the application roller such that portions of the application bristles of the application roller having a bristle-bending tendency pass through the application bristle restoration member at least once, and the rotation is made in such a direction that the portions of the application bristles having a bristle-bending tendency are restored by the abutment with the application bristle restoration member.
In an example lubricant application device, there may be provided a plate-like application bristle restoration member having a long side (or lengthwise side) with a length at least equal to an entire length of the application roller along an axial direction of the application roller. The application bristle restoration member may be arranged such that the long side is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the entire length of the application bristles along a radial direction of the application roller and is adapted to restore, at the time of a forward rotation of the application roller, portions of the application bristles bent in a first direction. The control of the drive unit by the controller may include: stopping the rotation of the application roller after an imaging operation, whereby portions of the application bristles of the application roller abutting the photosensitive body are bent in a second direction opposite to the first direction; then, reverse-rotating the application roller until the portions of the application bristles abutting the photosensitive body are bent in the first direction; and restoring the portions of the application bristles of the application roller having a bristle-bending tendency through the application bristle restoration member during a succeeding imaging operation.
In an example lubricant application device, at the time of applying the lubricant to the photosensitive body, the photosensitive body and the application roller may both rotate, the application roller may rotate in a forward direction relative to the photosensitive body, and the application bristles of the application roller may have 0.5 to 1.5 times of moving speed of the photosensitive body.
In an example lubricant application device, the application bristles may be made of polyethylene terephthalate. The application bristles may have an entire length of 1 to 2 mm, a fiber diameter of 3 to 10 deniers and a fiber density of 78 to 465 per mm2 (50 to 300 KF/inch2). An amount of intrusion of the application bristles, which may correspond to a value obtained by subtracting a minimum distance between the outer circumferential surface of the application roller and the photosensitive body from the entire length of the application bristles, may be 0.3 to 1.3 mm. An amount of intrusion of the application bristle restoration member, that is a value obtained by subtracting, from the entire length of the application bristles, a distance from the outer circumferential surface of the application roller to the long side of the application bristle restoration member along the radial direction of the application roller, may be 0.3 to 1.3 mm.
In an example lubricant application device, the lubricant supply source may be formed of a molded body of a fatty acid metal salt.
An example cleaning device may include the lubricant application device.
An example imaging apparatus may include the cleaning device.
Also, an example method for preventing application bristles of an application roller from having a bristle-bending tendency and/or recovering application bristles of the application roller from a bristle-bending tendency may include: disposing a lubricant supply source; disposing an application roller having application bristles radially arranged about an outer circumferential surface thereof for receiving a lubricant from the lubricant supply source and applying the lubricant to the photosensitive body, wherein the application roller is positioned relative to the photosensitive body such that a minimum distance between the outer circumferential surface of the application roller and the photosensitive body is shorter than an entire length of the application bristles; disposing a drive unit for rotating the application roller; and disposing a controller for controlling the drive unit. The controller may be adapted to control the drive unit so as to rotate the application roller in a forward and/or reverse direction to prevent the application bristles of the application roller from having a bristle-bending tendency due to abutment between the application bristles and the photosensitive body, and/or to recover the application bristles from a bristle-bending tendency caused by the abutment.
In the example method, the controller may be adapted to control the drive unit so as to repeatedly rotate the application roller at predetermined time intervals during which no bristle-bending tendency is developed due to the abutment between the application bristles of the application roller and the photosensitive body.
In the example method, the controller may be adapted to control the drive unit so as to rotate the application roller at least by 360° in such a direction that portions of the application bristles of the application roller having a bristle-bending tendency are restored by abutment between the application bristles and the photosensitive body before an imaging operation.
The example method may further include disposing a plate-like application bristle restoration member having a long side (or lengthwise side) with a length at least equal to an entire length of the application roller along an axial direction of the application roller. The application bristle restoration member is arranged such that the long side is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the entire length of the application bristles along a radial direction of the application roller. The controller may be adapted to control the drive unit so as to, before an imaging operation, rotate the application roller such that portions of the application bristles of the application roller having a bristle-bending tendency pass through the application bristle restoration member at least once, and the rotation is made in such a direction that the portions of the application bristles having a bristle-bending tendency are restored by the abutment with the application bristle restoration member.
The example method may further include disposing a plate-like application bristle restoration member having a long side with a length at least equal to an entire length of the application roller along an axial direction of the application roller. The application bristle restoration member may be arranged such that the long side is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the entire length of the application bristles along a radial direction of the application roller, wherein the application bristles restoration member is adapted to restore, at the time of a forward rotation of the application roller, portions of the application bristles bent in a first direction. The controller may be adapted to control the drive unit so as to: stop the rotation of the application roller after an imaging operation, whereby portions of the application bristles of the application roller abutting the photosensitive body are bent in a second direction opposite to the first direction; and then, reverse-rotate the application roller until the portions of the application bristles abutting the photosensitive body are bent in a first direction, and thereby, the portions of the application bristles of the application roller having a bristle-bending tendency are restored through the application bristle restoration member during a succeeding imaging operation.
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. Identical or similar constituent elements in different drawings may be indicated in the figures by (numerals having identical last two digits; the first numeral of triple digits may indicate the number of drawing (e.g. both of the sign 123 in
The cleaning blade 220 may be formed of an elastic body such as urethane rubber. Residues on the photosensitive body 203, which are to be removed by the cleaning blade 220, may include toner, carrier and/or nitrogen oxides generated at the time of charging the photosensitive body by the charging roller 104.
The lubricant supply source 222 may include a molded body formed in a predetermined shape (a bar, a rectangular column, a circular column or the like) of a lubricant. The lubricant supply source 222 may be a molded body of, for example, a fatty acid metal salt. The lubricant supply source 222 may also be adapted so as to contain a certain amount of an inorganic lubricant or silicone resin relative to the fatty acid metal salt, for example, with the purpose of enhancing the lubricating capacity of the surface of the photosensitive body 203. The formed lubricant supply source 222 may be used, for example, by connecting to the support member 224 by means of an adhesive or the like. The support member 224 may be formed of a metal (iron, aluminum, stainless, etc.), an alloy, a resin or the like.
The application roller 223 may be supported within the imaging apparatus 101 in a rotatable manner. The application bristles 223a disposed on the outer circumferential surface of the application roller 223 may abut the photosensitive body 203 over the entire length thereof along the axial direction of the photosensitive body. The application roller 223 may be formed of, for example, a resin (epoxy resin, phenol resin, etc.), or a metal (iron, aluminum, stainless, etc.). The application roller 223 may have a cylindrical shape (for example, a shape of a circular column or a cylindrical shape).
The application bristle restoration member 225 may include a plate member having a long side 226, e.g. a lengthwise side having a length at least equal to the entire length of the application roller 223 along the axial direction of the application roller 223. The application bristle restoration member 225 may be spaced apart from the application roller 223 by a distance that is shorter than the length of the application bristles 223a. For example, the long side 226 is disposed at a position separated from an outer circumferential surface 223b of the application roller 223 by a predetermined distance d shorter than the entire length of the application bristles 223a along the radial direction of the application roller 223. Accordingly, the application bristles 223a may contact the long side 226 of the application bristle restoration member 225. The application bristle restoration member 225 may be formed of, for example, a metal (iron, aluminum, stainless, etc.), a resin, or the like.
The application roller 223 and the photosensitive body 203 may rotate during an imaging operation and over predetermined time periods before and after that the imaging operation, During the rotation, the application bristles 223a of the application roller 223 may scrape a lubricant from the lubricant supply source 222 and apply the lubricant to the entire surface of the photosensitive body 203. During this process, the photosensitive body 203 may rotates clockwise (indicated by Arrow A) and the application roller 223 may rotate counterclockwise (indicated by Arrow B) (hereinafter, also referred to as normal rotation).
With reference to
With reference to
In
In the control of operations of the example lubricant application device (e.g. lubricant application device 221), with reference to
Further, in the case that an example lubricant application device (e.g. lubricant application device 221) among the examples described with reference to
In the graph of
Based on the graph of
Also, an example lubricant application device exhibits maximum or prominent effects in the prevention of a bristle-bending tendency of an application bristles (e.g. application bristles 823a) and the recovery therefrom under the following conditions.
The above-mentioned graph shows measurement results under the following conditions.
Material of the application bristles: polyethylene terephthalate.
Entire length of the application bristles: 1 to 2 mm.
Fiber diameter of the application bristles: 3 to 10 deniers.
Fiber density of the application bristles: 78 to 465 per mm2 (or 50 to 300 KF/inch2).
Amount of intrusion of the application bristles to the photosensitive body (e.g. photosensitive body 803): 0.3 to 1.3 mm. The amount of intrusion may be obtained by subtracting the minimum distance (e.g. D in
Amount of intrusion of the application bristle restoration member (e.g. application bristle restoration member 825) to the application bristles: 0.3 to 1.3 mm. The amount of intrusion may be obtained by subtracting, from the entire length of the application bristles, a distance (e.g. d in
As described above, examples of the lubricant application device prevent a bristle-bending tendency of application bristles, caused by abutment between an application roller and a photosensitive body, or recover a bristle-bending tendency of application bristles, caused by the abutment. This enables a sufficient amount of lubricant to be applied uniformly to the photosensitive body. As a result, for example, at the time of charging a photosensitive body by a charging roller, a discharge stress imposed on the photosensitive body can be reduced. Also, a friction between a photosensitive body and a cleaning blade abutting the photosensitive body is decreased, and abrasion of the photosensitive body and the cleaning blade is lightened, thereby enabling the extension of their service lives. Further, it is possible to obviate problems such as the generation of chatter (i.e. micro vibration) or squeal (i.e. unusual noise) of the cleaning blade and curls (also called as flips) of the cleaning blade caused by an excessive friction with the photosensitive body.
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.
One or more of the examples described above and/or features thereof may be expressed by the following clauses.
Clause 1. A lubricant application device comprising:
an application roller having an outer circumferential surface and application bristles radially arranged about the outer circumferential surface to receive lubricant from a lubricant supply source and to apply the lubricant to a photosensitive body in an imaging apparatus, wherein the application roller is positioned relative to the photosensitive body such that a minimum distance between the outer circumferential surface of the application roller and the photosensitive body is shorter than a length of the application bristles;
a drive unit to rotate the application roller; and
a controller to control the drive unit, in order to rotate the application roller to counteract a bristle-bending tendency of the application bristles of the application roller caused by an abutment between the application bristles and the photosensitive body.
Clause 2. The lubricant application device according to clause 1, the controller to control the drive unit to: repeatedly rotate the application roller at predetermined time intervals during which no bristle-bending tendency of the application bristles is developed.
Clause 3. The lubricant application device according to clause 1, the controller to control the drive unit to: before an imaging operation, rotate the application roller at least by 360° in a rotational direction by which portions of the application bristles of the application roller having a bristle-bending tendency are restored by the abutment between the application bristles and the photosensitive body.
Clause 4. The lubricant application device according to clause 1, comprising:
a plate-shaped application bristle restoration member having a long side that has a length at least equal to a length of the application roller along an axial direction of the application roller, wherein the long side of the plate-shaped application bristle restoration member is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the length of the application bristles along a radial direction of the application roller,
the controller to control the drive unit to, before an imaging operation, rotate the application roller such that portions of the application bristles of the application roller having a bristle-bending tendency contact the plate-shaped application bristle restoration member at least once, the application roller to rotate in a direction by which the portions of the application bristles having the bristle-bending tendency are restored by contacting the plate-shaped application bristle restoration member.
Clause 5. The lubricant application device according to clause 1, comprising:
a plate-shaped application bristle restoration member having a long side that has a length at least equal to a length of the application roller along an axial direction of the application roller, wherein the long side of the plate-shaped application bristle restoration member is disposed at a position separated from the outer circumferential surface of the application roller by a predetermined distance shorter than the length of the application bristles along a radial direction of the application roller, the plate-shaped application bristle restoration member to restore, at the time of a forward rotation of the application roller, portions of the application bristles bent in a first direction,
the controller to control the drive unit to:
the application bristles of the application roller comprise polyethylene terephthalate;
the length of the application bristles is of 1 to 2 mm, and the application bristles have a fiber diameter of 3 to 10 deniers and a fiber density of 78 to 465 per mm2;
an amount of intrusion of the application bristles is 0.3 to 1.3 mm, wherein the amount of intrusion of the application bristles is obtained by subtracting a minimum distance between the outer circumferential surface of the application roller and the photosensitive body from the length of the application bristles; and
an amount of intrusion of the plate-shaped application bristle restoration member is 0.3 to 1.3 mm, wherein the amount of intrusion of the plate-shaped application bristle restoration member is obtained by subtracting, from the length of the application bristles, a distance from the outer circumferential surface of the application roller to the long side of the application bristle restoration member along the radial direction of the application roller.
Clause 8. The lubricant application device according to any one of clauses 1 to 7, comprising the lubricant supply source, wherein the lubricant supply source is formed of a molded body of a fatty acid metal salt.
Clause 9. A lubricant application device comprising:
an application roller located adjacent a photosensitive body of an imaging apparatus, the application roller having an outer circumferential surface and application bristles radially arranged about the outer circumferential surface, the application bristles to transfer lubricant from a lubricant supply source to the photosensitive body, wherein a minimum distance between the outer circumferential surface of the application roller and the photosensitive body is shorter than a length of the application bristles, causing the application bristles between the circumferential surface of the application roller and the photosensitive body to bend;
a drive unit to rotate the application roller; and
a controller to control the drive unit, to rotate the application roller in a rotational direction that counteracts a bristle-bending tendency of the application bristles having been bent.
Clause 10. The method of manufacturing a lubricant application device according to clause 9,
wherein the bristle-bending tendency deforms the application bristle to deviate from an initial state, wherein in the initial state, the application bristles tend to extend substantially radially from the outer circumferential surface of the application roller,
and wherein counteracting the bristle-bending tendency of the application bristles comprises at least one of; preventing the application bristles of the application roller from being imparted with the bristle-bending tendency; and recovering the initial state of the application bristles having the bristle-bending tendency.
Clause 11. A method comprising:
rotating an application roller having application bristles to apply lubricant to a photosensitive body in an imaging apparatus, wherein an abutment of the application bristles against the photosensitive body bends the application bristles; and
controlling a rotation of the application roller to counteract a bristle-bending tendency of the application bristles having been bent.
Clause 12. The method according to clause 11, wherein the controlling of the rotation of the application roller comprises repeatedly rotating the application roller at predetermined time intervals during which no bristle-bending tendency is developed due to the abutment between the application bristles of the application roller and the photosensitive body.
Clause 13. The method according to clause 11,
wherein at least a portion of the application bristles of the application roller having a bristle-bending tendency are bent toward a first rotational direction, and
wherein the controlling of the rotation of the application roller comprises: before an imaging operation, rotating the application roller at least by 360° in a second rotational direction that is opposite to the first rotational direction to restore the portions of the application bristles of the application roller having the bristle-bending tendency by rotationally engaging the photosensitive body.
Clause 14. The method according to clause 11,
wherein an application bristle restoration member is located adjacent the application roller to impinge the application bristles of the application roller being rotated,
wherein portions of the application bristles having been imparted with the bristle-bending tendency extend toward a first rotational direction, and
wherein the controlling of the rotation of the application roller, comprises: rotating the application roller in the first rotational direction to restore the portions of the application bristles of the application roller having the bristle-bending tendency by rotationally engaging the application bristle restoration member at least once before an imaging operation.
Clause 15. The method according to clause 11, wherein an application bristles restoration member is located adjacent the application roller to impinge the application bristles when the application roller is rotated, in order to restore, at the time of a forward rotation of the application roller, portions of the application bristles bent toward a first direction,
wherein controlling a rotation of the application roller, comprises:
wherein the portions of the application bristles of the application roller bristle-bending tendency toward the first direction are restored via the application bristle restoration member during a succeeding imaging operation.
Number | Date | Country | Kind |
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2018-193359 | Oct 2018 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/US2019/033528 | 5/22/2019 | WO | 00 |