The present invention relates to an image forming apparatus, and a process cartridge which is removably installable in an image forming apparatus.
In this specification, an image forming apparatus is an apparatus which forms an image on recording medium. Some examples of an image forming apparatus are an electrophotographic copying machine, an electrophotographic printer (laser printer, LED printer, etc.) and the like.
Recording medium is medium across which an image is formed with the use of an electrophotographic image formation process. Some examples of recording medium are recording paper, OHP sheet, label, and the like.
A process cartridge is a cartridge in which an electrophotographic photosensitive component, and means for processing the electrophotographic photosensitive component, are disposed together, and which is removably installable in the main assembly of an image forming apparatus.
In the field of an image forming apparatus which employs an electrophotographic image formation process, it is a common practice to employ a process cartridge system, which integrally places an electrophotographic photosensitive component (which hereafter may be referred to simply as photosensitive drum), and means for processing the photosensitive component, in a cartridge which is removably installable in the main assembly of the image forming apparatus.
A process cartridge system enables a user of an image forming apparatus to maintain the apparatus by himself or herself, that is, without relying on a service person. Thus, it can drastically improve an electrophotographic image forming apparatus in terms of maintenance. Therefore, it is widely in use in the field of an electrophotographic image forming apparatus.
A conventional process cartridge is made up of a photosensitive drum unit and a development unit. The photosensitive drum unit has a cleaning unit frame by which the photosensitive drum is held. The development unit has: a development roller as a means for developing the latent image on the photosensitive drum; a development blade; and toner as developer.
There have been known image forming apparatuses of the so-called inline type. An ordinary image forming apparatus of the inline type employs process cartridges, which correspond to four primary colors, more specifically, yellow, magenta, and cyan and black, of which a full-color image is to be synthetically formed. Each cartridge has a photosensitive drum, and a development unit. Thus, an ordinary image forming apparatus of the inline type forms a full-color image by layering yellow, magenta, cyan and black monochromatic images.
During an image forming operation, a development roller is kept pressed toward the photosensitive drum. In the case of an image forming apparatus which employs a development method which places a development roller in contact with a photosensitive drum to develop the latent image on the photosensitive drum, the development roller is kept pressed upon the peripheral surface of the photosensitive drum.
Thus, if an image forming apparatus which employs a development roller having an elastic layer is left unattended for a substantial length of time in such a condition that the elastic layer of the development roller remains in contact with the peripheral surface of the photosensitive drum, it is possible for the elastic layer of the development roller to permanently deform. Thus, if an image forming apparatus which employs a development roller having an elastic layer is used after it has been unattended for a substantial length of time, it is possible that the latent image on the photosensitive drum will be nonuniformly developed.
Further, if a development roller remains in contact with a photosensitive drum while no image is formed, it is possible for the developer on the development roller will unnecessarily adhere to the photosensitive drum, regardless of whether the development roller has an elastic layer or not. Further, if the photosensitive drum and development roller are rotated in contact with each other even when the development roller is not used for development, it is possible that the photosensitive drum, development roller, and developer will be prematurely deteriorated by the friction between the photosensitive drum and development roller.
Thus, various proposals have been made to prevent the above described problems. One of the proposals is disclosed in Japanese Laid-open Patent Application No 2007-213024. According to this patent application, the image forming apparatus is provided with a mechanism which acts on each process cartridge so that while no image is formed, the photosensitive drum and development roller in the process cartridge in the apparatus main assembly are kept separated from each other. More specifically, the process cartridges are mounted in the drawer with which the main assembly of the image forming apparatus is provided, so that as the drawing is pushed into the main assembly, the process cartridges are properly positioned for image formation, in the main assembly of the image forming apparatus, and also, so that while the drawer is pushed into, or pulled out of the main assembly, for the installation or removal of the process cartridge, into, or from, the main assembly, the abovementioned mechanism for separating (disengaging) the development roller from the photosensitive drum is kept retracted from the process cartridge installation/removal path, in order to prevent the mechanism from interfering with the process cartridges.
The present invention is one of the results of further development of the above described prior art. Thus, an object of the present invention is to simplify in structure the mechanism for separating (disengaging) the developer carrying component and image bearing component of a process cartridge, to provide a combination of an image forming apparatus and a process cartridge, which is substantially more inexpensive and smaller in size than the combination in accordance with the prior art.
According to an aspect of the present invention, there is provided an image forming apparatus for forming an image on a recording material, said image forming apparatus comprising a mounting portion for detachably mounting a process cartridge, said process cartridge including a first unit having an image bearing member, and a second unit having a developer carrying member, said second unit being movable between a contact position in which said developer carrying member contacts said image bearing member and a spaced position in which said developer carrying member is spaced from said image bearing member; an engageable member engageable with a force receiving portion provided on said second unit; wherein said engageable member is movable between a first position for maintaining said second unit in the spaced position by engaging with said force receiving portion, a second position for permitting movement of said second unit from the spaced position to the contact position in image forming operation; and a third position for permitting said process cartridge to be mounted, by being pressed by said process cartridge to retract, when said process cartridge is mounted to said mounting portion.
According to another aspect of the present invention, there is provided an image forming apparatus for forming an image on a recording material, said image forming apparatus comprising a process cartridge, said process cartridge including a first unit having an image bearing member, and a second unit having a developer carrying member, said second unit being movable between a contact position in which said developer carrying member contacts said image bearing member and a spaced position in which said developer carrying member is spaced from said image bearing member; an engageable member engageable with a force receiving portion provided on said second unit; wherein said engageable member is movable between a first position for maintaining said second unit in the spaced position by engaging with said force receiving portion; a second position for permitting movement of said second unit from the spaced position to the contact position in image forming operation, and a third position for permitting said process cartridge to be mounted, by being pressed by said process cartridge to retract, when said process cartridge is mounted to a main assembly of said image forming apparatus.
According to a further aspect of the present invention, there is provided a process cartridge detachably mountable to a main assembly of the apparatus of image forming apparatus, said process cartridge comprising a first unit including an image bearing member; a second unit including a developer carrying member, said second unit being movable between a contact position in which said developer carrying member contacts said image bearing member and a spaced position in which said developer carrying member is spaced from said image bearing member; a force receiving portion provided on said second unit and engageable with an engageable member provided in said main assembly of the apparatus to receive from said engageable member a force for moving said second unit from the contact position to the spaced position; and an urging portion, provided on said second unit, for urging the engageable member to move the engageable member to a retracted position in which movement of said process cartridge is permitted, when said process cartridge is mounted to the main assembly of the apparatus.
According to a further aspect of the present invention, there is provided a process cartridge detachably mountable to a main assembly of the apparatus of image forming apparatus, said process cartridge comprising a first unit including an image bearing member; a second unit including a developer carrying member, said second unit being movable between a contact position in which said developer carrying member contacts said image bearing member and a spaced position in which said developer carrying member is spaced from said image bearing member; and a force receiving portion provided on said second unit and engageable with an engageable member provided in said main assembly of the apparatus to receive from said engageable member a force for moving said second unit from the contact position to the spaced position, wherein said engageable member and said force receiving portion are pulled from each other by engagement therebetween.
According to a further aspect of the present invention, there is provided a process cartridge comprising a first unit including an image bearing member; a second unit including a developer carrying member, said second unit being rotatably connected with said first unit so as to be movable between a contact position in which said developer carrying member contacts said image bearing member and a spaced position in which said developer carrying member is spaced from said image bearing member; and a projected portion provided at an end portion of said second unit with respect to an axial direction of said developer carrying member, said projected portion projected in a direction crossing with the axial direction away from said developer carrying member, wherein said projected portion is provided with a recess or opening, in which a force receiving portion for receiving a force for moving said second unit from the contact position to the spaced position, and wherein as seen in a direction along the axial direction of said developer carrying member, said force receiving portion facing a side where said developer carrying member is provided.
Another object of the present invention is to provide a combination of an image forming apparatus and a process cartridge installable in the main assembly of the image forming apparatus, which ensures that when the process cartridge is installed into the main assembly of the image forming apparatus, the process cartridge engaging component of the main assembly of the image forming apparatus retracts to allow the process cartridge to be properly installed in the main assembly.
These and other objects, features, and advantages of the present invention will become more apparent upon consideration of the following description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings.
Parts (a) and (b) of
Parts (a) and (b) of
Parts (a) and (b) of
Part (a) of
Part (a) and (b) of
Parts (a) and (b) of
Parts (a) and (b) of
Parts (a) and (b) of
Hereinafter, the image forming apparatuses in accordance with the present invention are described in detail with reference to
The image forming apparatus A employs four process cartridges P (PY, PM, PC and PK), that is, the first, second, third and fourth process cartridges PY, PM, PC and PK, which are horizontally aligned in parallel in the main assembly 100. Each of the first to fourth process cartridges P (PY, PM, PC and PK) is provided with its own electrophotographic image formation system, which is similar to that of the other process cartridges P, except for the color of the developer its uses.
Each of the first to fourth process cartridges P (PY, PM, PC and PK) has a development unit 4 equipped with a development roller 41 for developing the electrostatic latent image on the peripheral surface of the photosensitive drum 1.
The first process cartridge PY contains yellow (Y) developer in its development unit 4. It forms a yellow developer image on the peripheral surface of the photosensitive drum 1.
The second process cartridge PM contains magenta (M) developer in its development unit 4. It forms a magenta developer image on the peripheral surface of the photosensitive drum 1.
The third process cartridge PC contains cyan (C) developer in its development unit 4. It forms a magenta developer image on the peripheral surface of the photosensitive drum 1.
The fourth process cartridge PK contains black (B) developer in its development unit 4. It forms a black developer image on the peripheral surface of the photosensitive drum 1.
The stacked sheets S of recording paper (recording medium) in the sheet feeder tray 19 are fed one by one into the apparatus main assembly 100 by the sheet feeder roller 20 which rotates in the counterclockwise direction (indicated by arrow mark W) in
The photosensitive drum 1 is being rotated in the counterclockwise direction (indicated by arrow mark K) in
The photosensitive drum 1 is an image bearing component which bears an image (toner image). The development roller 41 is a developer bearing component which bears the developer (toner) for developing an electrostatic latent image.
The toner image formed on the photosensitive drum 1 is transferred onto the intermediary transfer belt 13 as the intermediary transfer component. In a case where a multicolor image is formed, the electrostatic latent images formed on the photosensitive drums 1, one for one, are developed into yellow, magenta, cyan and black toner images. Then, the toner images are sequentially transferred onto the intermediary transfer belt 13.
Next, the toner images on the intermediary transfer belt 13 are conveyed to the nip between the belt driver roller 14 and secondary transfer roller 18, in which they are transferred onto a sheet S of recording paper sent to the nip. In this embodiment, the toner image on the photosensitive drum 1 is temporarily transferred onto the intermediary transfer belt 13, and then, is transferred from the intermediary transfer belt 13 onto the sheet S of recording paper. However, the present invention is also compatible to an image forming apparatus structured so that the toner image is directly transferred from the photosensitive drum 1 onto the sheet S of recording paper. Such an image forming apparatus is provided with a conveyer belt (sheet conveying component), instead of the intermediary transfer belt 13, which is for conveying the sheet S of recording paper, onto which yellow, magenta, cyan and black toner images are sequentially transferred directly from the photosensitive drums 1 while the sheet S is conveyed by the conveyer belt.
After the transfer of the toner images onto the sheet S of recording paper, the sheet S is sent to the nip between the fixation film 24 and a pressure roller 25, in which they are fixed to the sheet S by the heat and pressure applied to the sheet S and toner images thereon, in the nip. After the fixation of the toner images to the sheet S, the sheet S is discharged by a pair of discharge rollers 26 into a delivery tray 27.
Next, the method for replacing a process cartridge P in this laser beam printer is described.
In the following description of the embodiments of the present invention, a component which moves while holding the process cartridges PY, PM, PC and PK is referred to as a cartridge tray 28. The cartridge tray 28 is a component on which the process cartridges PY, PM, PC and PK are mounted. It is disposed in the apparatus main assembly 100 so that it is supported by a cartridge tray supporting component (which hereafter may be referred to simply as tray supporting component) 32, being enabled to be slid in the horizontal direction of
Referring to
The apparatus main assembly 100 is provided with a door 30.
The door 30 is provided with a connection arm 33, which keeps the door 30 and tray supporting component 32 in connection to each other. That is, the connection arm 33 and tray holding component 32 make up a means for moving the cartridge tray 28; they are moved by the opening or closing movement of the door 30. That is, as the door 30, which is remaining closed (
As the cartridge tray 28 is pulled out of the apparatus main assembly 100, the cartridges P on the cartridge tray 28 are also moved out of the apparatus main assembly 100 while being moved in the direction which is intersectional to the axial line of the photosensitive drum 1.
Next, the mechanism which moves the cartridge tray 28 by being moved by the movement of the opening or closing of the door 30 is described in detail.
Referring to
The groove 101a of the lateral plate 101 is stair-stepped, and has a single step. Thus, as the tray supporting component 32 is moved, not only does it horizontally move, but also, upward by a distance L1, causing thereby the cartridge tray 28 to move upward by the distance L1. Thus, if the process cartridges P are in the cartridge tray 28, the photosensitive drum 1 in each process cartridge is separated from the intermediary transfer belt 13.
It is when the photosensitive drums 1 (process cartridges P) are not in contact with the intermediary transfer belt 13 that a user is to pull the cartridge tray 28 outward of the apparatus main assembly 100 by the handhold 29 shown in FIG. 6, part (b). As the user pulls the cartridge tray 28, the cartridge tray 28 comes out of the apparatus main assembly 100, and moves to its outermost position, as shown in
The procedure for installing the process cartridges P into the apparatus main assembly 100 is opposite to the above-described procedure for removing the process cartridges P from the apparatus main assembly 100. That is, first, the cartridge tray 28 is to be pulled out of the apparatus main assembly 100 as far as it can be. Then, the process cartridges P are to be mounted into the cartridge tray 28. Then, the cartridge tray 28 is to be pushed into the apparatus main assembly 100.
As the cartridge tray 28 is pushed into the apparatus main assembly 100, it is moved into the cartridge space in the apparatus main assembly 100 while being moved in the direction intersectional to the axial line of each photosensitive drum 1, and therefore, the process cartridges P in the cartridge tray 28 are moved along with the cartridge tray 28 into the process cartridge space in the apparatus main assembly 100.
Then, the door 30 is to be closed after the placement of the cartridge tray 28 in the apparatus main assembly 100. As the door 30 is closed, the cartridge tray 28 is lowered, while being moved leftward (direction indicated by arrow mark Z in
In this embodiment, the image forming apparatus is structured so that the movement (opening or closing) of the door 30 switches the image forming apparatus in the state of contact between the photosensitive drum 1 and intermediary transfer belt 13 (movement places the photosensitive drum 1 in contact with the intermediary transfer belt 13, or separates the photosensitive drum 1 from the intermediary transfer belt 13). However, the present invention is also compatible with an image forming apparatus having a belt for conveying a sheet S of recording medium, instead of the intermediary transfer belt 13. In a case where the present invention is applied to an image forming apparatus having a sheet conveyance belt, the apparatus has only to be structured so that the state of contact between the photosensitive drum 1 and sheet conveyance belt is changed by the movement (opening or closing) of the door 30.
In this embodiment, the direction parallel to the axial line of the photosensitive drum 1 is referred to as the leftward or rightward direction (lengthwise direction). The process cartridge P is in the form of a rectangle box, the lengthwise direction of which is parallel to the leftward and rightward directions of the photosensitive drum 1. The photosensitive drum 1 is rotatably supported by the right and left end walls 46 and 47 of the cleaning unit 5, in terms of the lengthwise direction of the process cartridge P. It is from the right end of the process cartridge P that the process cartridge P is driven. The process cartridge P is provided with a drum coupling 55 (
In this embodiment, the process cartridge P is made up of a cleaning unit 5 and a development unit 4, which are connected to each other in such a manner that they are allowed to rotationally move relative to each other. The cleaning unit 5, which may be referred to as the first unit (photosensitive drum unit), holds the photosensitive drum 1. The development unit 4, which may be referred to as the second unit, holds the development roller 41.
The cleaning unit 5 is provided with a charging device 3, which is of the so-called contact type. That is, the charging device 3, which is a component for charging the photosensitive drum 1, is placed in contact with the photosensitive drum 1, and is rotated by the rotation of the photosensitive drum 1. The cleaning unit 5 is also provided with a cleaning blade 51, which is a blade formed of elastic rubber. The cleaning blade 51 is positioned so that its cleaning edge remains in contact with the peripheral surface of the photosensitive drum 1. The cleaning blade 51 plays the role of removing the residual toner on the photosensitive drum 1, that is, the toner remaining on the photosensitive drum 1 after the transfer of a toner image from the photosensitive drum 1. After the removal of the transfer residual toner from the photosensitive drum 1 by the cleaning blade 51, the transfer residual toner is stored in the toner storage 52 in the cleaning unit 5.
The development unit 4 has the development roller 41 as a developing means, and a development blade 42. It has also a development chamber (developer storage changer) 43 which stores toner.
Referring to
The development unit 4 is provided with a development unit cover 57, which is disposed on the outward side of the bearing 41 in terms of the lengthwise direction. That is, the development unit 4 is structured so that the development roller coupling 56 and development roller gear 45 are covered by the development unit cover 57. The cover 57 is provided with a cylindrical section 57b having a cylindrical hole 57d, through which the development roller coupling 56 is exposed from the development unit 4.
Referring to
The process cartridge P is structured so that the development unit 4 is kept pressed by the pressure from a compression spring 53, which is an elastic component, so that the development unit 4 is rotationally moved about the rotational axis X in the direction to cause the development roller 41 to be kept in contact with the photosensitive drum 1. To describe in greater detail, referring to
Referring again to
Next, referring to
As described above, the development unit 4 is under the pressure generated by the compression spring 53 with which the process cartridge P is provided. Thus, it is in its contact position, in which it keeps the development roller 41 in contact with the photosensitive drum 1. However, if the development roller 41 remains in contact with the photosensitive drum 1 for a substantial length of time, it is possible for the development roller 41 to be indented by the photosensitive drum 1. Therefore, it is desired that unless the image forming apparatus is being actually used for image formation, the development roller 41 is kept separated from the photosensitive drum 1. In this embodiment, therefore, the apparatus main assembly 100 is provided with the development roller disengagement mechanism 60 which disengages (separates) the development roller 41, and keeps disengaged (separated) the development roller 41, from the photosensitive drum 1.
Referring to
The spacing member 61 (which hereafter may be referred to simply as spacing member 61) is in the form of a letter L. It is a component which engages with the process cartridge P. That is, the spacing member 61 presses on the force bearing surface 44b of the process cartridge P by engaging (coming into contact) with the force bearing surface 44b.
The spacing member 61 is allowed to move relative to its moving member 62 in the vertical direction (direction indicated by arrow marks H1, or direction indicated by arrow mark H2) of the apparatus main assembly 100. That is, referring to
Next, referring to
The moving member 62 is on the underside of the process cartridges P (PY, PM, PC and PK). It is attached to the apparatus main assembly 100, being enabled to move relative to the apparatus main assembly 100. More specifically, the moving member 62 is provided with a circular cam 64, which is eccentrically attached to its shaft 65. As the shaft 65 of the cam 64 receives driving force from a driving force source (unshown) with which the apparatus main assembly 100 is provided, the cam 64 is rotated about the axial line of the shaft 65, causing thereby the moving member 62 to move in the roughly horizontal direction (leftward and rightward directions, indicated by arrow mark M and N, respectively).
The rotation of the cam 64 causes the moving member 62 to move between the position (which hereafter will be referred to as no-image-formation position), in which the moving member 62 keeps the development roller 41 separated from the photosensitive drum 1, and the position (which hereafter will be referred to as image formation position) in which the moving member 62 allows the development roller 41 to remain in contact with the photosensitive drum 1. One of the characteristic features of this embodiment is that as the process cartridges P are moved into the apparatus main assembly 100, the spacing member 61 supported by the moving member 62 is pressed by the corresponding process cartridge P, being thereby made to retract, as will be described later.
Next, the movements of the spacing member 61 which occur as the process cartridges P are installed into the apparatus main assembly 100, and the action of the development roller disengagement mechanism 60 which occur as the disengagement mechanism 60 separates the development roller 41 from the photosensitive drum 1, are described in detail in the order of their occurrence.
The door 30 is to be closed after the insertion of the cartridge tray 28 and process cartridge P thereon into the apparatus main assembly 100. As the door 30 is closed, the process cartridges P are moved left-and-downward (indicated by arrow mark Z) by the closing movement of the door 30, causing the photosensitive drums 1 to come into contact with the intermediary transfer belt 13 (
However, the spacing member 61 is provided with the spring 63. Thus, the spacing member 61 interferes with the process cartridge P, being thereby pressed by the pressing surface 44c of the process cartridge P. Consequently, the spring 63 is compressed, allowing thereby the spacing member 61 to move in the direction which is roughly in parallel to the direction (indicated by arrow mark H) in which process cartridge P is being moved. That is, as the spacing member 61 is pressed by the pressing surface 44c, it retracts from its normal position (moves into retreat), allowing thereby the process cartridge P to pass by the spacing member 61, and be disposed in the preset position in the apparatus main assembly 100. The pressing surface 44c is a part of the end surface of the protrusion 44d of the development unit 4.
Next, the force bearing surface 44b of the protrusion 44d is to be engaged with the spacing member 61. Thus, the moving member 62 is moved rightward (indicated by arrow mark N in
Next, as the moving member 62 moves leftward (indicated by arrow mark M in
Referring to
As the image forming apparatus is started up for image formation, the moving member 62 is moved into its image formation position shown in
As an image forming operation is ended, the moving member 62 is moved to its no-image-formation position, in which it keeps the development roller 41 separated from the photosensitive drum 1 (
[Three Positions of Spacing member]
To summarize the detailed description of the first embodiment of the present invention given above, the spacing member 61 is placeable in three different positions (it is enabled to be in three different states).
When the spacing member 61 is in the first position or second position, it is in the normal position (it has not retreated) relative to its moving member 62.
That is, that the spacing member 61 is in the first position (action position) means that the spacing member 61 is its normal position in terms of its positional relationship relative to the moving member 62, and also, that the moving member 62 is in its no-image-formation position. As the spacing member 61 is moved into the first position, it engages with the development unit 4 (acting on development unit 4), and presses on the development unit 4, moving thereby the development unit 4 into the separation position. Thus, the development roller 41 is separated from the photosensitive drum 1.
On the other hand, that the spacing member 61 is in its second position (inaction position) means that it is in its normal position in terms of its positional relationship relative to the moving member 62, and also, that the moving member 62 is in its image formation position. As the moving member 62 is moved away from the development unit 4, or reduced in the amount of force it applies to the development unit 4, it does not acts on the development unit 4. Therefore, the development unit 4 moves into the contact position, causing thereby the development roller 41 to come into contact with the photosensitive drum 1.
In comparison, when the spacing member 61 is in its retreat, it has retreated from the normal position, and the moving member 62 is in the no-image-formation position, and therefore, the development unit 4 is in the contact position.
Table 1 is the summary of the foregoing description of the three different positions of the spacing member 61, and those of the moving member 62.
The image forming apparatus in this embodiment is structured so that as soon as an image forming operation is ended, the moving member 62 is moved into the no-image-formation position, in which it keeps the development roller 41 separated from the photosensitive drum 1. Therefore, the moving member 62 is in the no-image-formation position even when the process cartridge P is installed into the apparatus main assembly 100. While the process cartridge P is installed into the apparatus main assembly 100, the development unit 4 is kept by the resiliency of the compression spring 53, in the position in which it keeps the development roller 41 in contact with the photosensitive drum 1. Thus, as the process cartridge P is moved into the apparatus main assembly 100, the protrusion 44d of the development unit 4 comes into contact with the spacing member 61 (
On the other hand, as the process cartridges P are moved out of the apparatus main assembly 100 while the spacing member 61 is in the third position (retreat:
To summarize the foregoing description of this embodiment, the image forming apparatus in this embodiment is structured so that the spacing member 61 which engages with the force bearing surface 44b of the process cartridge P is movably supported by the moving member 62, and also, that the spacing member 61 is pushed away into the third position (retreat). Thus, not only is the image forming apparatus in this embodiment simpler in its mechanism for causing the spacing member 61 to retract, but also, in the structure of its development roller disengagement mechanism 60, structure of the apparatus main assembly 100, and structure of the process cartridge P. Further, the spacing member 61 has to be made to retract only by a distance large enough to allow the process cartridges P to move with no interference from the spacing member 61. In other words, the space necessary to allow the spacing member 61 to retract does not need to be large. Thus, it is possible to reduce the apparatus main assembly 100 in size.
As the development roller moving member 62 is made to shuttle between its no-image-formation position and image formation position, it moves the spacing member 61 which is in its third position (retreat:
Further, the development roller 41 and photosensitive drum 1 do not rub each other when no image is formed. Therefore, the photosensitive drum 1, development roller 41, and/or the toner on the development roller 41 are less likely to deteriorate. Therefore, the process cartridge P in this embodiment is longer in service life.
Incidentally, in the case of the development roller disengagement mechanism 60, the four spacing members 61 are attached to the same moving member 62 in such a manner that they correspond in position to the four process cartridges P in terms of the horizontal direction (indicated by arrow mark M or N in
However, this embodiment is not intended to limit the present invention in terms of the structure of the development roller disengagement mechanism 60. For example, the present invention is also compatible with an image forming apparatus, the apparatus main assembly 100 of which is provided with a development roller disengagement mechanism 60 (spacing member 61 and moving member 62) dedicated to the process cartridge PK, that is, the cartridge for forming a black toner image, and a development roller disengagement mechanism 60 (spacing member 61 and moving member 62) for dealing with the process cartridge PY, PM and PC, that is, the process cartridges other than the process cartridge PK. In a case where such an image forming apparatus is used to form a black-and-white image, it is possible to separate the development roller 41 from the photosensitive drum 1 only in the process cartridges (PY, PM and PC), that is, the cartridges P other than the process cartridge (PK). Such a structural arrangement will be described in the description of the sixth embodiment of the present invention.
Further, the image forming apparatus in this embodiment is a color image forming apparatus. It employs multiple (four) process cartridges, and is provided with the same number of spacing member 61 as the number of the process cartridges P it employs. However, this embodiment is not intended to limit the present invention in terms of the number of the process cartridges and that of the spacing member 61. That is, the present invention is also applicable to a monochromatic image forming apparatus which employs only one process cartridge; the above described development roller disengagement mechanism 60 can be employed by a monochromatic image forming apparatus (in such a case, number of spacing member 61 is only one).
This embodiment is a modification of the first embodiment in terms of the spacing member (engaging component) with which the development roller disengagement mechanism is provided. More specifically, the image forming apparatus in this embodiment is structured so that the spacing member 71 retracts by rotationally moving relative to the moving member 72. In the following description of this embodiment, description is centered around the sections of the image forming apparatus, which are different in structural arrangement from the counter parts of the image forming apparatus in the first embodiment; the portions of the image forming apparatus in this embodiment, which are similar to the counterparts of the image forming apparatus in the first embodiment are not described.
Referring to
In order for the spacing member 71 which is in the position shown in
Then, as the moving member 72 is moved leftward (indicated by arrow mark M) from its image formation position shown in
Next, referring to
To summarize the forgoing description of the second embodiment, as the spacing member holder 72 is made to shuttle between the image formation position and no-image-formation position, the spacing member 71 is made to engage with the force bearing surface 44b, and the development unit 4 is moved into the separation position (
In this embodiment, the spacing member 71 is rotatably attached to the moving member 72. Therefore, there is virtually no play between the spacing member 71 and moving member 72. Therefore, this embodiment is stabler in terms of the movement of the spacing member than the first embodiment in which the movement of the spacing member is linear (
On the other hand, the first embodiment, in which the spacing member 61 (
In other words, the mechanism for moving the development roller disengaging components (61, 71) should be selected according to the functions of which the image forming apparatus 100 and its development roller disengagement mechanism (60, 70) are required.
This embodiment is a modification of the first embodiment in terms of the spacing member (61), protrusion (44d), and force bearing surface (44b) of the development roller disengagement mechanism 60. The description of this embodiment will centered around the structural arrangement of the image forming apparatus in this embodiment, which is different from that in the first embodiment; the structural components and their function, which are same as the counterparts in the first embodiment will not be described.
Referring to
The detailed description of this setup will be given later.
Before the starting of the description of the functions of the abovementioned components and the parts thereof, the force bearing surface 44b of the protrusion 44d, and spacing member 61, in this embodiment, are described in detail about their shape and positioning. Referring to
Show in
There is the following relationship among the angles θ0, θ1, and θ2:
θ1=θ0+θ2.
The protrusion 44d extends downward (indicated by arrow mark H1). That is, the protrusion 44d extends in the direction intersectional to the axial line 41x of the development roller 41, and also, in the opposite direction from the rotational axis 41x of the development roller 41. Further, as the process cartridge P is seen from the direction parallel to the axial line 41x of the development roller 41 (at plane perpendicular the axial line 41x of development roller 41), the force bearing surface 44b of the protrusion 44d faces toward the center (axial line 41x) of the development roller 41. In other words, referring to
This does not mean that the process cartridge P has to be structured so that the force bearing surface 44b squarely faces the development roller 41. That is, the process cartridge P may be structured so that the force bearing surface 44b is offset outward from the axial line 41x of the development roller 41 as shown in
Neither does this mean that the force bearing surface of the protrusion 44d has to be flat. That is, as long as at least the force bearing area (surface) of the protrusion 44d, which comes into contact with the spacing member 61 faces toward the development roller 41, the force bearing surface 44b of the protrusion 44d may be in the different shape from the shape in which the surface 44b is in this embodiment. For example, it may be curved.
To describe in greater detail, referring to
Further, the force bearing surface 44b of the protrusion 44d faces toward the rotational axis (pivot) X of the development unit 4. To describe in greater detail, referring to
Further, the protrusion 44d has a sub-protrusion 44a which extends in a manner to cover the rotational axis (pivot) X and development roller 41. This sub-protrusion 44a extends toward the cleaning unit 5 and photosensitive drum 1, creating thereby the recess 44g, which recesses in the opposite direction from the cleaning unit 5 and photosensitive drum 1. This recess 44g is a space between the force bearing surface 44b and development roller 41 (development roller side of development unit contacting surface 44b (force bearing surface)). As the leading edge of the spacing member 61 enters this space (recess 44g), it becomes possible for the pressing member 6 to engage with the force bearing surface 44b.
Further, referring to
Shown in
Referring to
That is, in this embodiment, the component Fly which acts in the direction to move the spacing member 61 from its retreat to the normal position (action position) (upward: direction indicated by arrow mark H2) is generated by the force F1 which the developer unit contacting surface 61b of the spacing member 61 receives from the force bearing surface 44b of the protrusion 44d. That is, the development unit contacting surface 61b of the spacing member 61 is tilted by the angle θ3 so that the force F1 which the spacing member 61 receives from the force bearing surface 44b generates the component Fly.
Further, in order to ensure that the development unit contacting surface 61b of the spacing member 61 comes into contact with the force bearing surface 44b of the development unit 4, the force bearing surface 44b is tilted in the same direction as the surface 61b. That is, the surface 61b and surface 44b are tilted relative to the direction of the movement of the moving member 62 in such a manner that their upstream side in terms of the direction indicated by the arrow mark H1, and also, the direction indicated by the arrow mark N, is higher in position than the downstream side.
The direction indicated by the arrow mark H1 is the direction in which the spacing member 61 is moved from the action position (
The development unit contacting surface 61b of the spacing member 61, and the pressing member contacting surface of the force bearing surface 44b are tilted as described above. Therefore, as the spacing member 61 engages (comes into contact) with the force bearing surface 44b, force is generated at their interface in the direction to cause the spacing member 61 and force bearing surface 44b to be pulled toward each other. That is, the spacing member 61 is pressed upward (indicated by arrow mark H2), and the force bearing surface 44b is pressed downward (indicated by arrow mark H1). Thus, the spacing member 61 and force bearing surface 44b behave as if they are pulling each other. Thus, even if the spacing member 61 is attached to the moving member 62 so that the former is allowed to move relative to the latter, it is ensured that when the spacing member 61 engages with the force bearing surface 44b, the spacing member 61 is kept in the normal position (action position) by the component Fly, and remains engaged with the force bearing surface 44b.
In particular, in this embodiment, the image forming apparatus is kept stable in the state of engagement between the force bearing surface 44b and spacing member 61, by setting the angle between the force bearing surface 44b and the force bearing surface contacting surface 61b to satisfy the following mathematical relationship:
θ1≥θ3 (FIG. 20), and θ2≥θ3 (FIG. 23).
This setting means that the angles (θ1, θ2) of the force bearing surface 44b are larger than the angle θ3 of the protrusion contacting surface 61b of the spacing member 61, when the development unit 4 is in the separation position or contact position. Thus, it is ensured regardless of the attitude of the development unit 4 that the protrusion contacting surface 61b of the spacing member 61 comes into contact with the tip of the force bearing surface 44b. Therefore, it is ensured that the force bearing surface 44b and the protrusion contacting surface 61b of the spacing member 61 remain in contact with each other.
To rearrange the foregoing mathematical formulas:
θ1≥θ3, and θ2=θ1−θ0≥θ3,
That is,
θ1≥θ3, and θ1−θ3≥θ0.
This means that when the development unit 4 is in the contact position, the angle (θ1−θ3) between the protrusion contacting surface 61b of the spacing member 61 and the force bearing surface 44b of the protrusion 44d is greater than the rotational angle θ0 (angle by which development unit 4 rotationally moves when it moves from contact position to separation position) of the development unit 4.
This embodiment is a modification of the second embodiment of the present invention in terms of the shape of the spacing member 71 and protrusion 44d with which the development roller disengagement mechanism. The following description of this embodiment is centered around the structural arrangement of the image forming apparatus in this embodiment, which are different from that in the second embodiment; the structural components of the image forming apparatus in this embodiment, and their functions, which are the same as the counterparts of the image forming apparatus in the second embodiment are not described.
Referring to
In order for the force bearing surface 44b of the protrusion 44d, and spacing member 71, which are in the states shown in
As the spacing member holder 72, which is in its image formation position shown in
To summarize the foregoing description of this embodiment, as the spacing member holder 72 is made to shuttle between its image formation position, and the no-image-formation position, the spacing member 71 is moved from its retreat (
Further, in this embodiment, as shown in
To describe in more detail, referring to
Further, referring to
The relationship among the force bearing surface 44b and the force bearing surface contacting surface 71b of the spacing member 71 is made to satisfy the following mathematical formulas to generate such a force that can keep the force bearing surface 44b and spacing member 71 engaged with each other: 03, and 0203 (
That is, the force bearing surface 44b and the force bearing surface contacting surface 71b of the spacing member 71 are tilted in the same direction. That is, the force bearing surface 44b and the force bearing surface contacting surface 71b are both tilted in such a direction that in terms of the direction indicated by the arrow mark N, and also, in terms of the direction indicated by an arrow mark H1, their upstream sides are positioned higher than their downstream sides (
Further, both when the development unit 4 is in the contact position and when the development unit 4 is in the separation position, the angles (θ1, θ2) of the force bearing surface 44b are greater than the angle θ3 of the force bearing surface contacting surface 71b of the spacing member 71.
To rearrange the foregoing mathematical formulas:
θ1≥θ3, and θ1−θ0≥θ3,
That is,
θ1≥θ3, and θ1−θ3≥θ0.
This means that when the development unit 4 is in the contact position, the angle (θ1−θ3) between the force bearing surface contacting surface 71b of the spacing member 71 and the force bearing surface 44b of the protrusion 44d is greater than the rotational angle θ0 of the development unit 4.
To describe in greater detail, referring to
Next, the force to which the force bearing surface contacting surface 71b of the spacing member 71, and the force to which the force bearing surface 44b is subjected are described with reference to drawings.
The force F1′ can be divided into a component F1x′ which is parallel to the direction (indicated by arrow mark M or N) of the movement of the spacing member holder 72, and a component Fly′ which is perpendicular to the direction (indicated by arrow mark M or N) of the movement of the spacing member holder 72. The component Fly′ is the downward component of the force F1′. In other words, the force bearing surface 44b is subjected to such a force that presses the force bearing surface 44b toward the spacing member 71.
Further, the force F1 which the force bearing surface contacting surface 71b of the spacing member 71 receives from the force bearing surface 44b acts in the direction to move the spacing member 71 from the retreat to the normal position, and also, in the direction to move the spacing member 71 toward the force bearing surface 44b. Further, the force bearing surface contacting surface 71b is tilted so that the force F1′ acts in the above described directions. Further, the force bearing surface 44b is also tilted in the same direction as the force bearing surface contacting surface 71b to ensure that the two surfaces 44b and 71b remain engaged with each other.
Therefore, in this embodiment, as the spacing member 71 comes into contact with the force bearing surface 44b, such a force that acts in the direction to cause the spacing member 71 and force bearing surface 44b to be pulled toward each other. Thus, even though the spacing member 71 is rotationally movable relative to the moving member 72, it is ensured that when it is necessary for the spacing member 71 to engage with the force bearing surface 44b, it is in the normal position, and remains engaged with the force bearing surface 44b.
This embodiment is a modification of the first to fourth embodiments in terms of the shape of the protrusion of the process cartridge P. The following description of this embodiment is centered around the features of the structural arrangement of the image forming apparatus in this embodiment, which are different from those in the first to fourth embodiments; the structural components of the image forming apparatus in this embodiment, and their functions, which are the same as the counterparts of the image forming apparatus in the preceding embodiments are not described.
Referring to
Referring to
That is, in this embodiment, the force bearing surface contacting surface 71b and force bearing surface 44h are structured so that the force F1 which the force bearing surface contacting surface 71b of the spacing member 71 receives from the force bearing surface (section) of the protrusion 44e acts in the direction (upward) to move the spacing member 71 from its retreat to the normal position. That is, they are structured so that as the spacing member 71 comes into contact with the force bearing surface 44h, such a force that acts in the direction to make the spacing member 71 and force bearing surface 44h pull each other. Therefore, even though the spacing member 71 is attached to the spacing member holder 72 so that it is allowed to rotationally move relative to the moving member 72, it is ensured that when it is necessary for the spacing member 71 to engage with the force bearing surface 44h, the spacing member 71 will be in the normal position, and remains in engagement with the force bearing surface 44h.
Also in this embodiment, the force bearing surface 44h is such a surface that faces toward the center (axial line 41x) of the development roller 41, and the pivot X of the development unit 4. Further, there is a space between the force bearing surface 44h of the protrusion 44e, and the development roller 41, because of the presence of the hole 44r. The entrance of the spacing member 71 into this space (hole 44r) ensures that the spacing member 71 engages with the force bearing surface 44h.
Further, the force bearing surface contacting surface 71b of the spacing member 71, and the force bearing surface 44h, do not need to be flat. That is, the surface 71b and surface 44h may be curved, or in the form of a small area, such as a ridge or dot.
This embodiment is a modification of the preceding embodiments in terms of the structure of the spacing member holder 72. Referring to
The spacing member holder 72R is a holder for moving the process cartridge PK in which black toner is stored. The spacing member holder 72L is for moving the process cartridges PY, PM and PC, in which yellow, magenta and cyan toners are stored. Providing an image forming apparatus with multiple (two in this embodiment) moving members 72 makes it possible to move only the development unit 4 in one or more specific process cartridges P (black cartridge PK in this embodiment) among the four process cartridges P, into the development roller engagement position, where keeping the development units 4 of the other process cartridges P (yellow, magenta and cyan process cartridges P in this embodiment) in their development roller disengagement position. The following is the detailed description of this setup.
The image forming apparatus A (
On the other hand, in the full-color mode, both the spacing member holders 72R and 72L are to be moved rightward from the positions in which they are in
In the case of the image forming apparatus A in this embodiment structured as described above, the spacing member holders 72R and 72L can be independently moved from each other. Thus, when it is necessary to print only monochromatic images, the development rollers 41 in the yellow, magenta and cyan process cartridges PY, PM and PC can be left separated from the photosensitive drums 1. Thus, it is ensured that the development rollers 41 in the yellow, magenta and cyan process cartridges PY, PM and PC are prevented from deforming, and also, that the toner on the development rollers 41 are prevented from adhering to the photosensitive drums 1. Further, since the photosensitive drum 1 and development roller 41 in each of the yellow, magenta and cyan process cartridges PY, PM and PC do not rub against each other. Therefore, the photosensitive drums 1, development rollers 41, and toner in these process cartridges P are prevented from being deteriorated by the friction between the photosensitive drum 1 and development roller 41.
One of the methods for reducing the width W7b is to reduce the distance between the support shaft (pivot) 74Y of the spacing member 71Y (development unit engaging component A) (rightmost of multiple pressing members 71 aligned in parallel), and the support (pivot) 74K of the spacing member 71K (development unit engaging component B) of the spacing member 71K (leftmost of multiple pressing members 71). In the case of the image forming apparatus structured as shown in
Next, the spacing member 71Y shown in
This force F1 generates such a moment that acts in the direction to rotationally move the spacing member 71Y about the support shaft (pivot) 74Y in the direction indicated by arrow mark s2. Thus, the spacing member 71Y is retained by this moment, the direction of which is indicated by the arrow mark s2, in the position (normal position) in which it can come into contact (engage) with the force bearing surface 44b. That is, the spacing member 71Y is prevented from retracting in the direction indicated by the arrow mark s1.
In this embodiment, the elastic member (spring 73) for pressing the spacing member 71 is a compression spring. However, this embodiment is not intended to limit the present invention in terms of the choice of the elastic component. For example, the elastic component may be a torsion spring 75 fitted as shown in
Lastly, to summarize the effects of the first to sixth embodiments described above, the present invention can simplify an image forming apparatus in terms of the structure of the mechanism for separating the developer bearing component in a process cartridge, from the image bearing component in the process cartridge.
Further, the present invention can ensure that when process cartridges are installed into the main assembly of an image forming apparatus, the process cartridge engaging components of the main assembly of the image forming apparatus retract. Thus, it can ensure that the process cartridges are properly installed into the main assembly of the image forming apparatus.
While the invention has been described with reference to the structures disclosed herein, it is not confined to the details set forth, and this application is intended to cover such modifications or changes as may come within the purposes of the improvements or the scope of the following claims.
The present invention is capable of simplifying in structure the mechanism for separating (disengaging) the developer carrying component and image bearing component of a process cartridge, to provide a combination of an image forming apparatus and a process cartridge, which is substantially more inexpensive and smaller in size than the combination in accordance with the prior art.
Number | Date | Country | Kind |
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2012-196872 | Sep 2012 | JP | national |
2013-145903 | Jul 2013 | JP | national |
Number | Date | Country | |
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Parent | 16720694 | Dec 2019 | US |
Child | 17470123 | US | |
Parent | 16439908 | Jun 2019 | US |
Child | 16720694 | US | |
Parent | 16170272 | Oct 2018 | US |
Child | 16439908 | US | |
Parent | 15808042 | Nov 2017 | US |
Child | 16170272 | US | |
Parent | 15209039 | Jul 2016 | US |
Child | 15808042 | US | |
Parent | 14421269 | Feb 2015 | US |
Child | 15209039 | US |