The present disclosure relates to an image forming apparatus that forms an image on a recording medium.
Examples of an image forming apparatus such as a laser beam printer or a light-emitting diode (LED) printer include an image forming apparatus which includes a tray that can be drawn out from an apparatus body and in which a plurality of components for performing an image forming process are configured as a cartridge attachable to and detachable from the tray. According to this configuration, a user can easily replace the cartridge by drawing out the tray.
Japanese Patent Laid-Open No. 2019-028345 discloses an image forming apparatus in which a developing cartridge is attachable to and detachable from a tray-shaped drum unit and the drum unit is attached to an apparatus body in the state of accommodating the developing cartridge. A storage medium for storing various information about the developing cartridge is attached to this developing cartridge, and is electrically connected to a relay board provided in a rear portion of the drum unit in the case where the developing cartridge is attached to the drum unit. Further, when the drum unit is inserted in the apparatus body, a contact member provided in the drum unit and electrically connected to the relay board comes into contact with a contact member provided in the apparatus body, and thus it becomes possible for a controller of the apparatus body to obtain information from the storage medium of the developing cartridge.
In the configuration described in Japanese Patent Laid-Open No. 2019-028345, the contact member of the drum unit and the contact member of the apparatus body come into contact with each other when the drum unit is moved in a direction inclined downward with respect to the horizontal direction after the drum unit is moved approximately horizontally along a transfer belt. However, according to this configuration, the contact members are brought into contact with each other in a state in which the drum unit is moving obliquely downward while being urged by gravity without restricting the movement direction by a guide rail or the like that guides insertion of the drum unit, and therefore connection failure can occur.
The present disclosure provides an image forming apparatus capable of reducing occurrence of connection failure between contact portions.
According to one aspect of the present disclosure, an image forming apparatus includes an apparatus body including a controller, a photoconductor unit including a photoconductor, a guide member provided in the apparatus body and configured to guide movement of the photoconductor unit with respect to the apparatus body, a developing cartridge configured to be attachable to and detachable from an attachment portion provided in the photoconductor unit, and a second contact portion provided in the apparatus body. The photoconductor unit is attached to the apparatus body so as to be drawable from the apparatus body. The developing cartridge includes a casing configured to accommodate developer, a developing roller configured to develop an electrostatic latent image on the photoconductor by using the developer, and a storage medium configured to store information about the developing cartridge, and a first contact portion is provided in the photoconductor unit and configured to be electrically connected to the storage medium in a state in which the developing cartridge is attached to the photoconductor unit. The second contact portion is electrically connected to the controller and configured to be in contact with the first contact portion in a state in which the photoconductor unit is attached to the apparatus body. The photoconductor unit is configured to, in a case of attaching the photoconductor unit to the apparatus body, move from a first position to a second position while being guided by the guide member and then move from the second position to a third position. The first position is a position where the developing cartridge is attachable to and detachable from the attachment portion. The third position is a position which is below the second position and in which an image forming operation on a recording medium is executable. A first direction from the first position toward the second position is a horizontal direction or a direction whose inclination with respect to the horizontal direction is smaller than inclination of a second direction from the second position toward the third position with respect to the horizontal direction. At least one of the first contact portion and the second contact portion is capable of being displaced such that engagement between the first contact portion and the second contact portion is performed while the photoconductor unit moves in the first direction by being guided by the guide member, and the engagement is maintained while the photoconductor unit moves from the second position to the third position.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
Exemplary embodiments of the present disclosure will be described below with reference to drawings. In the description below, a side from which a user is supposed to access an image forming apparatus will be referred to as a front side of the image forming apparatus, and a side opposite to the front side will be referred to as a rear side of the image forming apparatus. In the case where a front door is provided, the front door is provided on the front side. In addition, a left side and a right side of the image forming apparatus as viewed from the front will be referred to as a left side and a right side of the image forming apparatus.
In addition, a direction in which an axis of a photosensitive drum extends will be referred to as an X direction, the vertical direction (i.e., gravity direction) will be referred to as a Z direction, and a direction intersecting with the X direction and the Z direction will be referred to as a Y direction. In embodiments below, the X direction is a direction from the right side to the left side of the image forming apparatus, and the Y direction is a direction toward the rear side of the image forming apparatus. The X direction, the Y direction, and the Z direction are preferably perpendicular to one another and constitute an orthogonal coordinate system. That is, the X direction and the Y direction are preferably both horizontal directions. In addition, in the description below, the shapes of constituent elements of the image forming apparatus and the positional relationship between the constituent elements that are mentioned are based on the positions and orientations of the constituent elements in the state of being attached to the image forming apparatus unless otherwise described.
A configuration of an image forming apparatus 1 according to a first embodiment will be described.
The cartridge tray 3 includes a tray frame body 30, a plurality of photosensitive drums 4k, 4c, 4m, and 4y rotatably supported by the tray frame body 30, and cartridge accommodation portions 89k, 89c, 89m, and 89y illustrated in
A front door 40 is openably and closably provided on the front side of the apparatus body 2, and as will be described later, the cartridge tray 3 can be drawn out from the apparatus body 2 to replace the cartridge tray 3 and/or the developing cartridges 8k to 8y by opening the front door 40. To be noted, the apparatus body 2 is a portion of the image forming apparatus 1 excluding the cartridge tray 3 and the developing cartridges 8k to 8y, and for example, includes a frame body of the image forming apparatus 1.
In the apparatus body 2, a laser scanner unit LB serving as an exposing unit is provided above the developing cartridges 8k to 8y and the cartridge tray 3. In addition, in the apparatus body 2, a belt unit 11 serving as a conveyance unit is provided below the developing cartridges 8k to 8y and the cartridge tray 3. In this belt unit 11, an electrostatic attraction belt 12 having flexibility is stretched over a driving roller 13 and a tension roller 14. The electrostatic attraction belt 12 is an example of a belt member that conveys the recording medium S. The electrostatic attraction belt 12 of the present embodiment is stretched over the driving roller 13 and the tension roller 14 such that the electrostatic attraction belt 12 extends in an approximate horizontal direction between the driving roller 13 and the tension roller 14.
Transfer rollers 16k, 16c, 16m, and 16y are disposed in a space enclosed by the electrostatic attraction belt 12 so as to oppose the photosensitive drums 4k to 4y. These portions where the photosensitive drums 4k to 4y oppose the transfer rollers 16k to 16y, that is, nip portions between the photosensitive drums 4k to 4y and the electrostatic attraction belt 12, are transfer portions where a transfer process is performed.
A feeding unit 18 is provided below the belt unit 11. This feeding unit 18 includes a feeding tray 19 that supports and accommodates recording media S thereon and a feeding roller 20, and feeds the recording media S one by one. A fixing unit 21 that performs a fixing process is provided beside the belt unit 11 in the Y direction. A discharge unit 22 that discharges the recording medium S to the outside of the apparatus body 2 is provided in an upper portion of the apparatus body 2 above the fixing unit 21.
In addition, as schematically illustrated in
The image forming operation will be described with reference to
When the front door 40 is closed, unillustrated drum driving couplings provided in the image forming apparatus 1 engage with drum couplings 54 connected to the photosensitive drums 4 provided in the cartridge tray 3. When the image forming apparatus 1 receives an instruction to execute image formation, the drum couplings 54 are rotationally driven by a drive output motor via a gear of the apparatus body 2 that are not illustrated, and thus the photosensitive drums 4 are rotationally driven at a predetermined speed. The electrostatic attraction belt 12 is also rotationally driven at a speed corresponding to the speed of the photosensitive drums 4. At this time, the laser scanner unit LB is also driven, and emits light. The charging rollers 5k to 5y uniformly charge the surface of the photosensitive drums 4 to a predetermined polarity and potential in synchronization with the light emission from the laser scanner unit LB. The laser scanner unit LB exposes the surface of the photosensitive drums 4 with laser light L corresponding to image signals of respective colors in a scanning manner. As a result of this, electrostatic latent images corresponding to image signals of corresponding colors are formed on the surfaces of the photosensitive drums 4, that is, on the photoconductors.
These electrostatic latent images are developed by the developing rollers 6k to 6y that are rotationally driven at a predetermined speed. Through such a process, a yellow toner image corresponding to a yellow component of the full-color image is formed on the first photosensitive drum 4y. Similarly, toner images respectively corresponding to magenta, cyan, and black components of the full color image are formed on the second to fourth photosensitive drums 4m, 4c, and 4k.
Meanwhile, the recording media S are separated and fed one by one from the feeding tray 19 at predetermined control timings. While a recording medium S passes by the first to fourth photosensitive drums 4y, 4m, 4c, and 4k, the yellow, magenta, cyan, and black toner images are transferred onto the recording medium S so as to be superimposed on one another. In this manner, an unfixed full-color toner image of four colors is formed on the recording medium S.
The recording medium S onto which the toner image has been transferred is subjected to the fixing process in the fixing unit 21. The fixing unit 21 includes a roller pair that nips and conveys the recording medium S, and a heating mechanism for heating the toner image on the recording medium S, and applies heat and pressure to the unfixed toner image. Examples of the heating mechanism include a halogen lamp and an electromagnetic induction heating unit. As a result of this, the toner is melted, the colors of the toner are mixed, then the toner adheres to the recording medium S, and thus a fixed image fixed to the recording medium S is obtained. The recording medium S having passed through the fixing unit 21 is discharged onto a discharge tray 23 provided on an upper surface of the apparatus body 2 by the discharge unit 22.
Next, an insertion/draw-out operation of the cartridge tray 3 into and from the apparatus body 2 will be described with reference to
Next, an insertion/draw-out operation of the cartridge tray 3 will be described with reference to
On side surfaces of the tray frame body 30 of the cartridge tray 3 in the X direction, tray guides 49L and 49R projecting to the outside from the respective side surfaces of the tray frame body 30 are provided as illustrated in
A guide configuration of the cartridge tray 3 will be described in detail with reference to
As illustrated in
Next, a guide configuration of the cartridge tray 3 provided in the apparatus body 2 will be described. As illustrated in
In the description below, the position of the cartridge tray 3 illustrated in
An attachment operation of the cartridge tray 3 to the apparatus body 2 will be described below.
After replacing the developing cartridges 8k to 8y, a user pushes the cartridge tray 3 positioned at the drawn-out position in the insertion direction D1 to insert the cartridge tray 3 in the apparatus body 2.
After the cartridge tray 3 passes the drum separation position, the cartridge tray 3 moves in an attachment completion direction D2 inclined downward in the Z direction toward the rear side in the Y direction with respect to the horizontal direction. Specifically, the tray guide inclined surfaces 49b slide with respect to the tray stoppers 41c, and the guide rollers 50 roll on the inclined surfaces 41b. The attachment completion direction D2 is inclined more than the insertion direction D1 with respect to the horizontal direction. In other words, the insertion direction D1 serving as the first direction from the first position toward the second position in the present embodiment is substantially a horizontal direction. As will be described later, the first direction is not limited to a horizontal direction, and may be any direction as long as the inclination of the first direction with respect to the horizontal direction is smaller than the inclination of the second direction from the second position to the third direction with respect to the horizontal direction. In the present embodiment, the insertion direction D1 serves as the first direction, the attachment completion direction D2 serves as the second direction, and the Y direction serves as the horizontal direction.
As a result of this, as illustrated in
When the cartridge tray 3 is in the attached position, the lower surfaces 49a of the tray guides 49 are positioned on the rear side in the Y direction with respect to the tray stoppers 41c. In addition, when the cartridge tray 3 is in the attached position, the guide rollers 50 are positioned on the rear side in the Y direction, that is, the downstream side in the insertion direction D1, with respect to the tray guide inclined surfaces 49b. Therefore, movement of the cartridge tray 3 to the front side in the Y direction is restricted. Further, a penetrating shaft 55 illustrated in
The operation of drawing out the cartridge tray 3 from the apparatus body 2 is performed in a process of an order reversed from the attaching operation.
That is, when replacing the developing cartridges 8k to 8y, the user opens the front door 40 of the image forming apparatus 1, and draws out the cartridge tray 3 positioned in the attached position to the front side in the Y direction. Then, the cartridge tray 3 moves from the attached position of
When the user draws out the cartridge tray 3 further, the cartridge tray 3 is guided by the guide rails 41 and moves to the front side in the Y direction, that is, in a direction opposite to the insertion direction D1. Specifically, the lower surfaces 49a of the tray guide 49 slide with respect to the tray stoppers 41c, and the guide rollers 50 roll on the guide surfaces 41a of the guide rail 41.
When the cartridge tray 3 reaches the drawn-out position illustrated in
Next, a configuration for electrically connecting memories attached to the developing cartridges 8k to 8y to the apparatus body 2 via the cartridge tray 3 will be described.
As illustrated in
As illustrated in
The relay board 84 is provided in a rear surface portion of the cartridge tray 3, that is, a side surface portion of the cartridge tray 3 on the rear side in the Y direction as illustrated in
The in-tray connector 100 serving as a first contact portion or a photoconductor unit contact portion is also provided in the rear surface portion of the cartridge tray 3. The in-tray connector 100 is exposed to the rear side of a rear frame 30B of the tray frame body 30 in the Y direction, that is, to the downstream side in the insertion direction D1 as illustrated in
The in-tray connector 100 is connected to the relay board 84 via a wiring portion 86. Therefore, when the developing cartridges 8k to 8y are attached to the cartridge tray 3, the memory tags 81k to 81y are electrically connected to the in-tray connector 100 via the tray memory contacts 82k to 82y, the wiring portion 83, the relay board 84, and the wiring portion 86.
Next, the configuration of the in-body connector 200 will be described with reference to
As illustrated in
The connector holder 201 is movably held by a connector guide 202 fixed to the apparatus body 2. The connector guide 202 is provided with a guide rail 202a extending in the up-down direction, that is, an approximate vertical direction, and a guide protrusion 201a of the connector holder 201 is guided by the guide rail 202a. As a result of this, the movement direction of the connector holder 201 is restricted to the approximate vertical direction. That is, the in-body connector 200 serving as a second contact portion or a body contact portion of the present embodiment is configured to be displaceable, that is, movable in the vertical direction.
In addition, as schematically illustrated in
To be noted, although the cartridge tray 3 is not attached to the apparatus body 2 in
As will be described later with reference to
In addition, the movable range of the in-body connector 200 is set such that the engaged state with the in-tray connector 100 is maintained while the cartridge tray 3 moves from the drum separation position to the attached position. Specifically, the length of the guide rail 202a and the like is set such that a movement amount of the in-tray connector 100 in the Z direction in movement of the cartridge tray 3 from the drum separation position to the attached position is within the movable range of the in-body connector 200 in the Z direction. In addition, such a connector shape that an amount in which the in-tray connector 100 can move in the Y direction while maintaining the engaged state with the in-body connector 200 is equal to or greater than the movement amount of the in-tray connector 100 at the time when the cartridge tray 3 moves from the drum separation position to the attached position in the Y direction is employed.
To be noted, a guide shape 200a extending in the insertion direction D1 can be preferably provided in at least one of the in-tray connector 100 and the in-body connector 200 as illustrated in
Next, a connection operation between the in-tray connector 100 and the in-body connector 200 will be described.
When the cartridge tray 3 is inserted in the insertion direction D1 from the drawn-out position to the drum separation position along the guide rails 41, the in-body connector 200 stands by at the upper position by being urged by the spring member 203 described above as illustrated in
When the cartridge tray 3 moves from the drum separation position toward the attached position in the attachment completion direction D2, the in-body connector 200 moves downward in the Z direction in accordance with the movement of the in-tray connector 100 in the attachment completion direction D2. In addition, since the movement of the in-body connector 200 in the Y direction is restricted, the in-tray connector 100 is fitted deeper with the in-body connector 200, and thus the terminals come into contact with each other. Then, when the cartridge tray 3 reaches the attached position, the connection between the in-tray connector 100 and the in-body connector 200 is completed.
As described above, when the cartridge tray 3 is in the attached position, the memory tags 81k to 81y of the developing cartridges 8k to 8y are electrically connected to the control board 2C of the apparatus body 2 via a connection portion between the in-tray connector 100 and the in-body connector 200. As a result of this, the control board 2C can access the memory tags 81k to 81y and read out stored information.
As described above, in the present embodiment, the in-tray connector 100 engages with the in-body connector 200 while the cartridge tray 3 moves from the drawn-out position to the drum separation position in the insertion direction D1. According to this configuration, the cartridge tray 3 can be stably connected to the apparatus body 2 when attaching the cartridge tray 3. This will be described below.
As a comparative example, a configuration in which the in-tray connector 100 does not engage with the in-body connector 200 while the cartridge tray 3 moves in the insertion direction D1 and engages with the in-body connector 200 when the cartridge tray 3 moves from the drum separation position to the attached position in the attachment completion direction D2 is considered. However, in this case, the cartridge tray 3 does not receive the guiding effect of the guide surfaces 41a of the guide rails 41, and the connectors engage with each other in a state in which the connectors are moving obliquely downward by being urged by the weight of the cartridge tray 3 and the developing cartridges 8k to 8y. Therefore, a connection failure can occur. In addition, when there is deviation between the positions of the connectors, there is a risk that the connectors collide with each other and are thus damaged.
In contrast, in the present embodiment, the in-tray connector 100 engages with the in-body connector 200 while the cartridge tray 3 is guided by the guide rails 41 and moves in the insertion direction D1 that is closer to the horizontal direction than the attachment completion direction D2. Therefore, the connectors can be more reliably engaged than in the configuration of the comparative example.
In addition, in the present embodiment, the in-body connector 200 and the in-tray connector 100 are each disposed in an orientation directed upstream or downstream in the insertion direction D1, which is an approximate horizontal direction. As a result of this, the possibility of foreign matter such as dust entering the inside of the connectors is reduced, which contributes to stable connection between the connectors.
Although the in-body connector 200 that slides in the approximate vertical direction has been described as an example of a second contact portion or a body contact portion that can be displaced in the vertical direction in the first embodiment described above, the in-body connector 200 that slides in a movement direction D3 intersecting with the vertical direction as illustrated in
In addition, although the insertion direction D1 of the cartridge tray 3 has been described as an approximate horizontal direction in the first embodiment, the insertion direction D1 may be inclined with respect to the horizontal direction. For example, a configuration in which the insertion direction D1 is inclined downward toward the rear side in the Y direction and the attachment completion direction D2 is inclined downward at an angle steeper than the insertion direction D1 may be employed.
In addition, in the first embodiment described above, the attachment operation of the cartridge tray 3 is constituted by two-step motions including a motion in the insertion direction D1 and a motion in the attachment completion direction D2. The configuration is not limited to this, and for example, the guide rails and the like may be formed such that the movement direction of the cartridge tray 3 continuously changes from the insertion direction D1 to the attachment completion direction D2. In this case, the “second direction” is a movement direction of the cartridge tray 3 reaching the attached position serving as a third position. The “first direction” is a movement direction of the cartridge tray 3 in a portion which is upstream of the portion where the cartridge tray 3 moves in the second direction and in which the inclination of the movement direction with respect to the horizontal direction is smaller than the inclination of the second direction with respect to the horizontal direction in the movement trajectory of the cartridge tray 3.
To be noted, as the in-tray connector 100 and the in-body connector 200, connector configurations typically known as drawer connectors can be preferably used. Drawer connectors are connectors including guide mechanisms that fit together before the terminals thereof are connected to each other.
An image forming apparatus according to a second embodiment will be described with reference to
The in-tray connector 100 of the present embodiment is provided so as to be movable up and down in the Z direction with respect to the tray frame body 30 of the cartridge tray 3. Specifically, the in-tray connector 100 is attached to a connector holder 302, and the connector holder 302 is supported by a rear frame 301 of the tray frame body 30 in a state in which the movement direction thereof is restricted to an approximate vertical direction. A spring member 303 serving as an urging member is disposed between the connector holder 302 and the rear frame 301, and the connector holder 302 is urged downward by the spring member 303. Therefore, when the cartridge tray 3 is at the drawn-out position, the in-tray connector 100 stands by in a lower position of the movable range.
In contrast, the in-body connector 200 is attached to a connector fixing holder 304 fixed to the frame body of the apparatus body 2 as illustrated in
A connection operation of the present embodiment will be described.
When the cartridge tray 3 is inserted in the insertion direction D1 from the drawn-out position toward the drum separation position along the guide rails 41, the in-tray connector 100 is urged by the spring member 303 described above and stands by in the lower position as illustrated in
When the cartridge tray 3 is inserted further, the cartridge tray 3 moves from the drum separation position to the attached position in the attachment completion direction D2 while maintaining the engaged state between the in-tray connector 100 and the in-body connector 200 as illustrated in
As described above, since a configuration in which the in-tray connector 100 engages with the in-body connector 200 while the cartridge tray 3 moves in the insertion direction D1 is employed in the second embodiment, stable connection between the connectors can be realized. In addition, also in the present embodiment, the connectors are each disposed in an orientation directed in an approximate horizontal direction, and therefore the possibility of foreign matter such as dust entering the inside of the connectors can be reduced to realize more stable connection.
To be noted, although the in-tray connector 100 is urged downward by the spring member 303 serving as an urging member in the second embodiment, for example, a configuration in which the in-tray connector 100 detached from the in-body connector 200 stands by in the lower position by the weight thereof may be employed.
In the first and second embodiments, a configuration in which developing cartridges are attached to and detached from a cartridge tray including photosensitive drums has been described as an example. The configuration is not limited to this, and a configuration in which a cartridge including photosensitive drums and drum memory tags such as a process cartridge integrated with the developing cartridges or a photoconductor cartridge different from the developing cartridges is attached to and detached from a tray not including photosensitive drums may be employed.
In addition, the electrostatic attraction belt 12 of the first and second embodiments is merely an example of a belt member included in the image forming apparatus, and the present technology may be applied to, for example, an image forming apparatus including an intermediate transfer belt serving as an intermediate transfer member. In this case, a configuration in which the photosensitive drums are in contact with the intermediate transfer belt when the cartridge tray 3 is in the attached position, and the photosensitive drums are separated from the intermediate transfer belt when the cartridge tray 3 moves between the drum separation position and the drawn-out position is preferably employed.
In addition, in the first and second embodiments described above, a case where the photosensitive drums 4k to 4y come into contact with the electrostatic attraction belt 12 when the cartridge tray 3 reaches the attached position serving as a third position along the inclined surfaces 41b of the guide rails 41 and the like has been described. Instead of this, for example, a configuration in which the photosensitive drums do not come into contact with the electrostatic attraction belt 12 when the cartridge tray 3 reaches the attached position, and the photosensitive drums come into contact with the electrostatic attraction belt 12 as a result of the cartridge tray 3 or the electrostatic attraction belt 12 moving in accordance with an operation of closing the front door 40 may be employed.
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. 2020-038853, filed on Mar. 6, 2020, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2020-038853 | Mar 2020 | JP | national |
Number | Date | Country | |
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Parent | 17973189 | Oct 2022 | US |
Child | 18530966 | US | |
Parent | 17172512 | Feb 2021 | US |
Child | 17973189 | US |