The present invention relates to an image forming apparatus such as an electro-photographic copying machine or a laser beam printer that forms an image on a recording medium using an electro-photographic process.
In an electro-photographic image forming apparatus, an optical scanning device (optical scanning unit) that scans a charged photosensitive body with a laser beam to form an electrostatic latent image is mounted. Further, an opening for allowing laser light to pass through is formed on the housing of the optical scanning device. This opening is closed by a transmissive member that transmits laser light in order to prevent foreign matters such as toner and dust from entering the optical scanning device.
When a foreign matter exists on the surface of the transmissive member, some of the laser light passing through the transmissive member is blocked by this foreign matter, so that the optical characteristics may be deteriorated and the image quality may be lowered. In order to overcome this problem, Japanese Patent Application Laid-Open No. 2016-31466 discloses a configuration in which a foreign matter on the surface of the transmissive member is removed by a cleaning member such as a pad or a blade that is moved while being in contact with or pressed against the transmissive member in a way similar to a wiper. The cleaning member disclosed in Japanese Patent Application Laid-Open No. 2016-31466 is held by a cleaning holder, and the cleaning holder is fixed to a wire. The cleaning holder moves by the wire that is moved by a motor, and the cleaning member cleans the transmissive member as the cleaning holder moves. The cleaning holder is engaged with a guide rail provided in the vicinity of the transmissive member and moves along the guide rail.
When the cleaning member is used for a long period of time, the cleaning member itself is contaminated, and there is a possibility that the transmission member is more contaminated when the cleaning operation is performed. For this reason, it is desirable to periodically replace the cleaning member. Therefore, it is preferable that an operator can easily replace the cleaning member, and in particular, it is desired that the cleaning holder has such a shape that the cleaning holder can be easily detached from the guide rail.
Accordingly, the present invention has been made in view of the above, and an object thereof is to provide an image forming apparatus capable of improving the exchangeability of the cleaning member.
A representative configuration of the present invention is an image forming apparatus, comprising:
a first photosensitive body;
a second photosensitive body;
a first developing portion configured to develop an electrostatic latent image formed on the first photosensitive body with toner;
a second developing portion configured to develop an electrostatic latent image formed on the second photosensitive body with toner; and
an optical scanning device disposed below the first photosensitive body, the second photosensitive body, the first developing portion and the second developing portion in a vertical direction,
wherein the optical scanning device comprises:
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
<Image Forming Apparatus>
First, the overall configuration of the image forming apparatus according to the first embodiment of the present invention will be described together with the operation during image formation with reference to the drawings. It should be noted that the dimensions, materials, shapes, relative arrangements, and the like of the components described below are not intended to limit the scope of the present invention only to those unless otherwise specified.
The image forming apparatus A according to the present embodiment is a full-color laser printer in which toners of four colors, yellow Y, magenta M, cyan C, and black K are transferred onto an intermediate transfer belt, and then the toners of four colors on the intermediate transfer belt are transferred to a sheet to form an image. In the following description, the members using the toners of the respective colors are given the suffixes Y, M, C, and K. However, these suffixes are appropriately omitted unless the distinction between them is necessary since the configuration and operation of each member is substantially the same except for the colors of the used toners.
As shown in
The image forming portion includes the photosensitive drums 10 (10Y, 10M, 10C and 10K) that are photosensitive members, the charging rollers 12 (12Y, 12M, 12C and 12K) that charge the surface of the photosensitive drums 10, and the developing devices 13 (13Y, 13M, 13C and 13K). The image forming portion further includes the primary transfer rollers 15 (15Y, 15M, 15C and 15K), the optical scanning device 40, and the intermediate transfer unit 80.
The intermediate transfer unit 80 includes the intermediate transfer belt 20, the secondary transfer roller 60, the belt driving rollers 21 and 22, and the like. The intermediate transfer belt 20 is an endless belt stretched around the belt driving rollers 21 and 22, and rotates in the direction of the arrow K3 as the belt driving rollers 21 and 22 rotate.
The optical scanning device 40 (optical scanning unit) is disposed below the photosensitive drums 10 and the developing devices 13 in the vertical direction. The optical scanning device 40 includes the light source portion 43 (see
In the optical scanning device 40, the laser beams L deflected by the rotary polygon mirror 41 are guided by the scanning lenses 47 and the mirrors 48 provided in the optical scanning device 40 so that the laser beams L travel along predetermined paths. Then, the laser beams L that have traveled along the predetermined paths pass through the irradiation openings 42 provided in the upper part of the optical scanning device 40 and are irradiated onto the photosensitive drums 10. That is, the respective laser beams L are deflected by the rotary polygon mirror 41 and guided to the corresponding photosensitive drums 10 by the scanning lenses 47 and the mirrors 48. The laser beams L respectively scan the photosensitive drums 10 along the rotational axis direction of the photosensitive drums 10. The optical scanning device 40 scans the surfaces of the photosensitive drums 10 in the main scanning direction with the laser beams L whose deflection angles are changed by the rotation of the rotary polygon mirror 41.
Next, an image forming operation will be described. First, when the control portion (not shown) receives an image forming job signal, the sheets S stacked and stored in the sheet stacking unit 2 are separated into one sheet by the retard roller 26 and conveyed to the registration roller 29 by the feeding roller 24 and the transporting roller 25. Next, after the timing correction for the sheet S is performed by the registration roller 29, the sheet S is conveyed to the secondary transfer portion configured by the secondary transfer roller 60 and the belt driving roller 21.
On the other hand, in the image forming portion, the surface of the photosensitive drum 10Y is firstly charged by the charging roller 12Y. Thereafter, the optical scanning device 40 irradiates the surface of the photosensitive drum 10Y with the laser beam LY in accordance with an image signal transmitted from an external device (not shown) or the like, thereby forming an electrostatic latent image on the surface of the photosensitive drum 10Y.
Thereafter, yellow toner is attached to the electrostatic latent image formed on the surface of the photosensitive drum 10Y by the developing device 13Y to form a yellow toner image on the surface of the photosensitive drum 10Y. The toner image formed on the surface of the photosensitive drum 10Y is primarily transferred to the intermediate transfer belt 20 by applying a primary transfer bias to the primary transfer roller 15Y.
Through similar processes, magenta, cyan, and black toner images are also formed on the photosensitive drums 10M, 10C, and 10K, respectively. Then, by applying a primary transfer bias to the primary transfer rollers 15M, 15C, and 15K, these toner images are transferred onto the intermediate transfer belt 20 in a superimposed manner with the yellow toner image. As a result, a full-color toner image is formed on the surface of the intermediate transfer belt 20.
Thereafter, this full-color toner image is conveyed to the secondary transfer unit by the rotation of the intermediate transfer belt 20. Then, in the secondary transfer portion, a secondary transfer bias is applied to the secondary transfer roller 60, so that the full-color toner image on the intermediate transfer belt 20 is transferred to the sheet S.
Next, the sheet S to which the toner image has been transferred is heated and pressed in the fixing device 3, so that the toner image on the sheet S is fixed to the sheet S. Thereafter, the sheet S on which the toner image has been fixed is discharged to the discharge portion 11 by the discharge roller 28.
When the photosensitive drum 10Y is referred to as a first photosensitive body, any one of the photosensitive drums 10M, 10C, and 10K is referred to as a second photosensitive body. When the photosensitive drum 10M is referred to as a first photosensitive body, any one of the photosensitive drums 10Y, 10C, and 10K is referred to as a second photosensitive body. That is, when one of the photosensitive drums 10Y, 10M, 10C, and 10K is referred to as a first photosensitive body, any one of the other photosensitive drums is referred to as a second photosensitive body. Similarly, when the developing device 13Y is referred to as a first developing portion, any one of the developing devices 13M, 13C, and 13K is referred to as a second developing portion. That is, when one of the developing devices 13Y, 13M, 13C, and 13K is referred to as a first developing portion, any one of the other developing devices is referred to as a second developing portion.
<Optical Scanning Device>
Next, the configuration of the optical scanning device 40 will be described.
The irradiation openings 42 (42a to 42d) are opening portions (openings for laser passage) formed on the cover 45b (a part of the housing) through which the laser beams L pass from the inside of the optical box (hermetically sealed space side of the optical scanning device 40) to the outside of the optical box. The laser beams L are emitted from semiconductor lasers (not shown) that are light sources and scan the photosensitive drums 10. Here, the irradiation opening 42 through which the laser beam L that scans the first photosensitive body is referred to as a first opening portion, and the irradiation opening 42 through which the laser beam L which scans the second photosensitive body is referred to as a second opening portion.
As shown in
In addition, the irradiation openings 42 respectively have four transmissive members 52 (52a to 52d) that close them from the outside of the cover 45b in order to prevent foreign matter such as toner and dust from entering the inside of the housing of the optical scanning device 40. Here, the transmissive member 52 that closes the first opening portion described above is referred to as a first transmissive member, and the transmissive member 52 that closes the second opening portion is referred to as a second transmissive member.
The transmissive member 52 has transmission property by which the laser beam L emitted from a semiconductor laser (not shown) transmits through the transmissive member 52 and the laser beam produced by a semiconductor laser may be emitted to the photosensitive drums 10. In the present embodiment, the outer side of the transmissive member 52 with respect to the optical scanning device 40 is a light-emitting surface, and the inner side with respect to the optical scanning device 40 is a light incident surface. The transmissive member 52 has a rectangular shape whose longitude direction is the main scanning direction of the laser beam L deflected by the rotary polygon mirror 41. The transmitting member 52 is, for example, a glass cover, but may be made of plastic or the like as long as the laser beam may transmit through the material.
As described above, the optical scanning device 40 is configured to prevent foreign matters such as toner, paper powder, and dust from entering the optical scanning device 40 by being covered with the cover 45b and the transmissive member 52. Further, by fixing the transmissive member 52 larger than the irradiation opening 42 on the cover 45b, foreign matters such as toner, paper powder, and dust falling from above the optical scanning device 40 are prevented from entering the inside of the optical scanning device 40 via the gap between the transmission member 52 and irradiation opening 42.
The optical scanning device 40 is provided with two cleaning holders 51 (51a, 51b) as holding members, which are mainly made of POM (polyacetal resin) and have flexibility. The cleaning holder 51a engages with guide rails 61a and 61b formed on the cover 45b, and extends so as to straddle the two adjacent transmissive members 52a and 52b. The cleaning holder 51b engages with guide rails 61c and 61d formed on the cover 45b, and extends so as to straddle two adjacent transmissive members 52c and 52d.
That is, the longitudinal direction (second direction) of the cleaning holder 51 is a direction orthogonal to the longitudinal direction (first direction) of the transmissive member 52 and the vertical direction. The widthwise direction of the cleaning holder 51 is the same as the longitudinal direction of the transmissive member 52. The longitudinal direction of the transmissive member 52 is the same as the main scanning direction of the laser beam L deflected by the rotary polygon mirror 41.
The guide rail 61 extends along the longitudinal direction of the transmissive member 52 and guides the movement of the cleaning holder 51. Further, two stoppers 56a and two stoppers 56b made of resin are provided at ends in the longitudinal direction of the guide rails 61, respectively. The stoppers 56a and 56b may be formed integrally with the cover 45b or may be formed separately from the cover 45b.
The cleaning holder 51 is connected to the wire 54. In other words, the cleaning holder 51 holds the wire 54. The wire 54 is annularly stretched by four tension pulleys 57 that are rotatably held by the cover 45b, the tension adjustment pulley 58, and the wire winding portion 59. Specifically, the wire 54 is stretched so as to be parallel to the longitudinal direction of the transmissive members 52 at positions between two adjacent transmission members 52.
The wire 54 annually travels by the driving force of the motor 55. The wire 54 is wound and adjusted in length by the wire winding portion 59 that is rotated by the driving force of the motor 55. As described above, the wire 54 is stretched by the tension pulleys 57, the tension adjustment pulley 58, and the wire winding portion 59, so that the tension of the wire 54 can be stabilized and the wire 54 may smoothly travel in an annular shape.
Further, as the wire 54 travels, the cleaning holder 51 moves in the longitudinal direction of the transmissive member 52 (the direction of the arrow K4 or the direction of the arrow K5 shown in
The cleaning holders 51a and 51b integrally hold two cleaning members 53 (53a to 53d) such that the connecting portion with the wire is located between two cleaning members 53. The cleaning member 53 is a rectangular rubber pad made of silicon rubber, and is disposed so as to be in contact with and pressed by the transmissive member 52. The materials of the cleaning holder 51 and the cleaning member 53 are not limited to these.
As the cleaning holder 51 moves, the cleaning member 53 moves in the longitudinal direction of the transmission member 52 (the direction of the arrow K4 or the arrow K5 shown in
The cover 45b is formed with the catch groove 66 that collects and holds the foreign matters removed by the cleaning member 53 at a position adjacent to the transmissive member 52 in the direction orthogonal to the moving direction of the cleaning member 53. The catch groove 66 is a groove formed below the surface of the transmissive member 52 in the thickness direction of the transmissive member 52.
<Cleaning Holder>
Next, the configuration of the cleaning holder 51 will be described in detail.
As shown in
The cleaning holder 51a includes the engaging portions 51a3 and 51a4 that respectively extend from the end portion in the longitudinal direction toward the central portion and respectively engage with the guide rails 61a and 61b such that the engaging portions 51a3 and 51a4 are respectively hooked by the guide rails 61a and 61b. That is, the engaging portion 51a3 on one end side in the longitudinal direction of the cleaning holder 51a engages with the guide rail 61a (first guide portion), and the engaging portion 51a4 on the other end side engages with the guide rail 61b (second guide portion).
The cylindrical connecting member 70 is attached to the wire 54. The wire 54 is inserted into the cylinder of the connecting member 70. The connecting member 70 is fitted into the fitting hole 51a5 provided in the cleaning holder 51a. As a result, the wire 54 and the cleaning holder 51a are connected, and the cleaning holder 51a moves as the wire 54 moves. In addition, by setting the relationship between the lengths W1 and W2 shown in
<Cleaning Mode>
Next, a cleaning mode for cleaning the surface of the transmissive member 52 will be described.
The cleaning mode is executed when a user operates an input device (not shown) such as a touch panel when the image forming apparatus A is in a maintenance state. In addition, the cleaning mode is executed in response to the fact that the number of formed images has reached a predetermined number since the previous cleaning operation. In addition, the execution timing of the cleaning mode is not limited to this and a different timing may be adopted.
When the cleaning mode is started, the motor 55 is first driven, and the wire 54 travels in the direction of the arrow K6 shown in
Thereafter, the cleaning holder 51a abuts against the stoppers 56a provided at one end of the moving path. As a result, the movement of the cleaning holders 51a and 51b is restricted. At this time, since the load acting on the motor 55 increases, it is possible to detect that the cleaning holders 51 abut against the stoppers by detecting the increase in the load. Then, the motor 55 starts reverse rotation in response to the detection of the increase in load, and the wire 54 also starts to travel in the reverse direction (the direction of the arrow K7 shown in
Thereafter, the cleaning holder 51b abuts against the stoppers 56b provided at one end of the moving path. As a result, the movement of the cleaning holders 51a and 51b is restricted. As described above, since the load acting on the motor 55 increases at this time, it is possible to detect that the cleaning holders 51a and 51b abut against the stoppers 56a and 56b by detecting the increase in the load. Then, the motor 55 is stopped in response to the detection of the increase in load. Thus, in this embodiment, every time the cleaning mode is executed, the cleaning members 53 are reciprocated once along the longitudinal direction of the transmissive members 52.
<Attachment and Detachment of the Cleaning Holder>
Next, attachment and detachment of the cleaning holder 51 will be described.
As shown in
Next, the worker inserts a finger below the pressing surface 51a2x of the protruding portion 51a2, presses the pressing surface 51a2x upward to apply a force in the direction of the arrow F2 to the cleaning holder 51a. In addition, when applying the force in the direction of the arrow F2, the worker does not necessarily need to insert a finger below the pressing surface 51a2x, and it may suffice that the worker only hooks a finger on the lower corner of the right end of the protruding portion 51a2 in
By the manual work of the worker, the force in the direction of the arrow F2 acts on the protruding portion 51a2 with the protruding portion 51a1 side being not substantially moved with respect to the cover 45b, so that the holder 51a bends in the longitudinal direction as shown in
Moreover, when attaching the cleaning holder 51a, the worker engages the engaging portion 51a3 of the cleaning holder 51a with the guide rail 61a. Thereafter, the worker moves the cleaning holder 51a to the right side and abuts a part of the engaging portion 51a3 against the cover 45b. Thereafter, the worker presses the vicinity of the central portion in the longitudinal direction of the cleaning holder 51a while holding the protrusion 51a2 in the state in which the protrusion 51a1 side is not substantially moved with respect to the cover 45b so that the cleaning holder 51a bends in the longitudinal direction. When the cleaning holder 51a bends, the engaging portion 51a4 moves to the right side so that the engaging portion 51a4 can be engaged with the guide rail 61b. As a result, the cleaning holder 51a is attached to the guide rails 61a and 61b.
Thus, according to the configuration of the present embodiment, the cleaning holder 51a can be easily replaced. That is, when the cleaning holder 51a does not have the protrusions 51a1 and 51a2, it is difficult to remove the cleaning holder 51a so that it is difficult to replace the cleaning member 53. On the other hand, in this embodiment, the protrusion portions 51a1 and 51a2 for making the cleaning holder 51a bend to the longitudinal direction are provided on the cleaning holder 51a. As a result, it becomes easy to remove the cleaning holder 51a, and the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be improved.
Above the protruding portion 51a1, the process cartridge (not shown) in which the photosensitive drum 10, the charging roller 12 and the developing device 13 are integrated, is provided. Thus, if the length H1 of the protruding portion 51a1 shown in
Further, as described above, when removing the cleaning holder 51a, a load is applied to the protruding portion 51a1 side to create a fulcrum. Here, by setting the relationship between the length H1 of the protruding portion 51a1 and the length H2 of the protruding portion 51a2 to H1<H2, the distance between the pressing surface 51a2x of the protruding portion 51a2 from the fulcrum becomes longer. As a result, the cleaning holder 51a may be bent with a small load. In this embodiment, H1=3 mm and H2=6 mm, which satisfy this relationship.
The length P1 of the portion extending from the protruding portion 51a1 in the longitudinal direction of the cleaning holder 51a and the length P2 of the portion extending from the protruding portion 51a2 in the longitudinal direction of the cleaning holder 51a has the relationship of P1<P2. As a result, the surface of the pressing surface 51a2x for being in contact with a finger becomes relatively large, so that it is easy to apply a load to the cleaning holder 51a. In this embodiment, P1=2 mm and P2=5 mm, which satisfy this relationship.
Moreover, in this embodiment, the two protruding portions 51a1 and 51a2 are provided on the cleaning holder 51a. However, this invention is not limited to this. That is, as shown in
In this case, when removing the cleaning holder 51a, a maintenance worker first applies a force in the direction of the arrow F1 to the cleaning holder 51a by pushing the end surface of the side opposite to the side on which the protruding portion 51a2 is provided. By this operation, the cleaning holder 51a moves to the right side and a part of the engaging portion 51a3 abuts against the cover 45b.
Next, the worker inserts a finger below the pressing surface 51a2x of the protruding portion 51a2, presses the pressing surface 51a2x upward to apply a force in the direction of the arrow F2 to the cleaning holder 51a. In addition, when applying the force in the direction of the arrow F2, the worker does not necessarily need to insert a finger below the pressing surface 51a2x, and it may suffice that the worker only hooks a finger on the lower corner of the right end of the protruding portion 51a2. As a result, the cleaning holder 51a can be removed similarly to the above description, and the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be improved.
Further, as shown in
Next, the configuration of the image forming apparatus according to the second embodiment of the present invention will be described. The same parts as those in the first embodiment will be denoted by the same reference numerals and the description thereof will be omitted.
As shown in
By providing the recess 51a7 in this manner, when the operator applies a force to the cleaning holder 51a when removing the cleaning holder 51a, the cleaning holder 51a is easily bent in the longitudinal direction since the strength of the recess 51a7 is weak. Therefore, the cleaning holder 51a can be easily detached from the guide rails 61a and 61b, and the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be further improved.
In the present embodiment, the cleaning holder 51a is easily bent by the recess 51a7. However, for example, the cleaning holder 51a may be configured to be easily bent by reducing the thickness of a part of the cleaning holder 51a or by forming a hollow shape.
Next, the configuration of the image forming apparatus according to the third embodiment of the present invention will be described. The same parts as those in the first and second embodiments will be denoted by the same reference numerals and the description thereof will be omitted.
As shown in
Thus, even in the configuration in which the protruding portion 51a1 is provided at a position between the cleaning member 53a and the cleaning member 53b, the cleaning holder 51 can be easily removed in the same manner as the configuration in which the protruding portion is provided at a position closer to the end portion side than the cleaning member 53a. Furthermore, since the distance between the protruding portions 51a1 and 51a2 is reduced, it may be possible for a worker to remove the cleaning holder 51a with one hand. Therefore, the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be improved.
By providing the recess 51a7 in this manner, when the operator applies a force to the cleaning holder 51a when removing the cleaning holder 51a, the cleaning holder 51a is easily bent in the longitudinal direction since the strength of the recess 51a7 is weak. Therefore, the cleaning holder 51a can be easily detached from the guide rails 61a and 61b, and the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be further improved.
In the present embodiment, the cleaning holder 51a is easily bent by the recess 51a7. However, for example, the cleaning holder 51a may be configured to be easily bent by reducing the thickness of a part of the cleaning holder 51a or by forming a hollow shape.
Next, the configuration of the image forming apparatus according to the fourth embodiment of the present invention will be described. The same parts as those in the first, second and third embodiments will be denoted by the same reference numerals and the description thereof will be omitted.
As shown in
As shown in
Next, the worker presses the pressing surface 51a2x of the protruding portion 51a2 of the cleaning holder 51a to the left side to apply a force in the direction of arrow F2 to the cleaning holder 51a. At this time, even without the protruding portion 51a2, it is possible to apply a force in the direction of arrow F2, but the presence of the protruding portion 51a2 increases the area of the pressing surface 51a2x, and the worker more easily presses the cleaning holder 51a to the arrow F2.
By the manual work of the worker, the force in the direction of the arrow F2 acts on the protruding portion 51a2 with the protruding portion 51a1 side being not substantially moved with respect to the cover 45b, so that the holder 51a bends in the longitudinal direction as shown in
Thus, even if the cleaning holder 51a is configured to engage with the guide rails 61a and 61b from the inside, by providing the protruding portions 51a1 and 51a2, the exchangeability of the cleaning holder 51a and the cleaning members 53a and 53b can be improved.
Further, in the first and second embodiments, the configurations in which four transmission members 52 are respectively provided for the four irradiation openings 42 have been described, but the present invention is not limited to this. That is, as long as their functions can be performed, the number of the irradiation portions 42 and the number of the transmissive members 52 are arbitrary, and the same effect as described above can be obtained even with the configuration with other numbers of the irradiation portions and the transmissive members.
Moreover, the configuration in which the ribs 51a6 are provided, described using
In the first and second embodiments, the configurations in which the two cleaning members 53 are held by the single cleaning holder 51a or 51b have been described. However, the present invention is not limited to this. Namely, as shown in
In this case, for example, the cleaning holder 51a is engaged with the guide rails 61a and 61b provided respectively at positions closer to the end portions of the cleaning holder 51a than those of the transmissive members 52b and 52c. Further, the cleaning holder 51a is connected to the wire 54 at a position between the transmissive members 52b and 52c. With this configuration, the replacement of the cleaning member 53 is completed by replacing only the single cleaning holder 51a. Therefore, the exchangeability of the cleaning member 53 can be improved. Further, the manufacturing cost can be reduced by reducing the number of parts.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2018-227619, filed Dec. 4, 2018, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2018-227619 | Dec 2018 | JP | national |