1. Field of the Invention
The present invention relates to an image forming apparatus forming an image on a sheet.
2. Description of Related Art
As an image forming method used for an image forming apparatus, there are a direct transfer system (for example, see Japanese Patent Application Laid-Open No. 7-295459) and an intermediate transfer system (see Japanese Patent Application Laid-Open No. 2004-240376).
In general, service men periodically perform replacement of consumables or maintenance of image forming apparatus at user's site. Recently, a design for the replacement or maintenance performed by users has been required. Therefore, processes of the image formation are designed to be implemented as individual units so that the units in the image forming apparatus can be detachably attachable by the users.
In addition, a jam clearance operation for the transfer material S (jammed paper) needs to be implemented. Japanese Patent Application Laid-Open Nos. 7-295459 and 2004-240376 discuss a construction where a position of a shaft pin in a fixing unit is determined with respect to an apparatus main body and an upper opening cover is opened or closed. In the construction, before the jam clearance operation is performed, the opening cover is rotated by manipulating a lever so as to open a conveyance path. After that, the jam clearance operation is performed.
In addition, Japanese Patent Application Laid-Open No. 10-187002 discusses a conveyance belt unit which is detachably attachable to the apparatus main body. More specifically, Japanese Patent Application Laid-Open No. 10-187002 discusses a construction where, when a conveyance belt unit is mounted on an apparatus main body, a key-shaped portion formed in the locking lever is engaged with a fastening shaft formed on the apparatus main body so that the conveyance belt unit can be held in the apparatus main body.
In such conventional constructions, if the opening cover or the conveyance belt unit is incompletely locked to the apparatus main body, the unit is not mounted on an accurate position, so that malfunction may occur in the image forming apparatus.
An object of the present invention is to provide an image forming apparatus capable of completely inserting a unit into an apparatus main body by using a simple construction for allowing a user to easily recognize that the unit is not locked to the apparatus main body.
According to an aspect of the present invention, there is provided an image forming apparatus which forms an image on a sheet, comprising: an apparatus main body; a unit which can be inserted into the apparatus main body; a locking device which locks the unit to the apparatus main body when the unit is in a predetermined inserted state in the apparatus main body; and a protrusion member which protrudes from an outer surface of the unit or from an outer surface of the apparatus main body in a state in which the unit is inserted into the apparatus main body but not locked to the apparatus main body by the locking device.
According to the present invention, a user can easily determine whether or not the unit is locked by recognizing a state of the protrusion member.
Hereinafter, exemplary embodiments of the present invention are described in detail with reference to the accompanying drawings. The scope of the invention is not limited to dimensions, material, shapes, and arrangement of components disclosed in the embodiments without particularly specified disclosure.
(Image Forming Apparatus)
Firstly, a whole construction of an image forming apparatus according to an embodiment of the present invention is described in brief with reference to the drawings. The image forming apparatus according to the embodiment is an intermediate transfer tandem-type color image forming apparatus.
As shown in
Each of the image forming portions 50Y, 50M, 50C, and 50K includes a corresponding charging device 51Y, 51M, 51C, or 51 K, a corresponding exposing device 52Y, 52M, 52C, or 52 K, a developing device 53Y, 53M, 53C, or 53K, and a photosensitive drum 54Y, 54M, 54C, or 54K. An intermediate transfer belt 55 is suspended in a tensioned state by a driving roller 56, a tension roller 57, and a secondary transfer inner roller 58 to rotate in the direction indicated by arrow in the figure. The color toner images are sequentially primarily-transferred on the intermediate transfer belt 55 in an overlapped manner by corresponding primary transfer devices 59Y, 59M, 59C, and 59K. Although color sequence in
The color toner image formed on the intermediate transfer belt 55 is secondarily-transferred on a transfer material (transfer paper) S conveyed from a feeding portion 555 by a secondary transfer device 500 at one time. The secondary transfer device 500 includes a secondary transfer outer roller 501. The secondary transfer outer roller 501 is pressed to face the secondary transfer inner roller 58 so as to form a transfer nip. As a result, the toner image is adsorbed electro-statistically on the transfer material S.
After the secondary transfer, the transfer material S is received by a fixing device 502. A fixing nip is formed on the fixing device 502 by a fixing roller 503 and a pressing roller 504, and the toner image on the transfer material S is conveyed while being heated and pressed. As a result, a fused toner image is heated and fixed on the transfer material S, so that a full color image fixed on the transfer material S can be obtained.
(State of Conveyance Unit in Main Body)
Next, a construction where the conveyance unit 2 as a sub-housing is drawn out from or inserted into the apparatus main body 1 as a main housing in the direction of arrow A is described with reference to
Now, three states of the conveyance unit 2 inserted into the apparatus main body 1 are described.
As shown in
As shown in
As shown in
Here, the half-opened state denotes not a state that the conveyance unit 2 is completely inserted into the apparatus main body 1 but a state just before a hook 103 of the later-described locking device 6 is engaged with a pin (engagement protrusion member) 111. In the half-opened state, the conveyance unit 2 is shown to slightly protrude from the side of the apparatus main body 1, but the user cannot easily determine based on the position of the conveyance unit 2 whether or not the conveyance unit 2 is completely inserted. More specifically, in the half-opened state, later-described connectors 114 and 116 of the conveyance unit 2 are not completely inserted into relay drawer connectors 105 and 106 described below. That is, the half-opened state is a temporary state. In the half-opened state, the position of the conveyance portion for the transfer material S is not secured, so that jam may occur. Therefore, the half-opened state needs to be effectively avoided.
As shown in
(Construction of Main Body 1)
Detailed construction of the apparatus main body 1 is described with reference to
As shown in
As shown in
In a rear side of the inner space which is continuous with the opening 666 of the apparatus main body, a slide mechanism 130 is provided to press the conveyance unit 2 toward the opening. The slide mechanism 130 provided to the apparatus main body 1 includes pushing-out sliders 112 and 113.
The slide mechanism 130 is described in detail with reference to
As shown in
As shown in
In this manner, due to the pushing-out sliders 112 and 113, when the locking of the conveyance unit 2 is released by erecting the lever 101, the conveyance unit 2 is automatically moved to protrude outwards from the apparatus main body 1 by the biasing force of the spring 122. Accordingly, the conveyance unit 2 can be easily replaced.
Connectors 114 and 116 connected to later-described relay drawer connectors 105 and 106 in the apparatus main body 1 are disposed in the vicinity of the opening 666 of the apparatus main body. A sensing portion 115 for sensing a later-described flag 104 is formed in an upper portion of the connector 114.
As shown in
(Construction of Conveyance Unit 2)
Detailed construction of the conveyance unit 2 is described with reference to
As shown in
Relay drawer connectors 105 and 106 are provided in a front upper portion (front portion in the drawing-out direction) of the conveyance unit 2. The relay drawer connectors 105 and 106 transmits power and signals to a heater as a heating source contained in the fixing device 502, a driving motor for conveying the transfer material, sensors, or other electric parts. In addition, a flag 104 for sensing opening and closing positions of the conveyance unit 2 is provided to the conveyance unit 2.
In such a construction, when the conveyance unit 2 is opened or closed, the relay drawer connector 105 of the conveyance unit 2 is connected to or disconnected from a connector 114 of the apparatus main body 1 (see
When the relay drawer connector 105 is inserted into the connector 114, the flag 104 becomes close to the sensing portion 115 (see
In this manner, in the embodiment, the sensing portion 115 for sensing the position of the conveyance unit 2 is disposed to the apparatus main body 1 in the vicinity of the connector 14, and the flag 104 is disposed to the conveyance unit 2 in the vicinity of the relay drawer connector 105.
As shown in
The fixing device 502 is fixed to the conveyance unit 2 so as to be contained in the conveyance unit 2. The fixing device 502 may be fixed to the conveyance unit 2 by using fastening members such as screws. Therefore, the fixing device 502 together with the conveyance unit 2 can be drawn out or inserted in one body, so that workability to replacement or maintenance according to lifecycle of the fixing roller 503 or the pressing roller 504 can be improved.
On the other hand, the secondary transfer device 500 is maintained on the reinforcing frame 21 in an unfixed state through the biasing unit 22. More specifically, a boss 24 provided to a roller holder 23 for holding the secondary transfer outer roller 501 is engaged with a long-hole bearing portion 25 provided to the reinforcing frame 21. Next, the roller holder 23 is pressed on the reinforcing frame 21 by the biasing unit 22. Therefore, the reinforcing frame 21 of the secondary transfer device 500 can be in a movable state in the sub scanning direction by engagement of the boss 24 with the long-hole bearing portion 25.
As shown in
(Overview of Operations of Drawing-Out/Inserting Conveyance Unit 2 from/into Main Body 1)
Now, operations of drawing out and inserting the conveyance unit 2 in the direction of arrow A are described in brief with reference to
When the conveyance unit 2 is inserted into the direction of arrow A, the tapered surface T of the channel-shaped portion E in each end portion of the roller holder 23 is engaged with the positioning boss 202. When the conveyance unit 2 is completely inserted into the apparatus main body 1, a bottom of the channel-shaped portion E contacts with the positioning boss 202, so that the engagement operation is completed.
During the engagement operation, the secondary transfer device 500 is gradually lifted up by the tapered surface T. On the other hand, the secondary transfer device 500 is pushed back by the positioning boss 202 along the long-hole bearing portion 25. Therefore, by drawing out the conveyance unit 2 from the apparatus main body 1, the pressing of the secondary transfer device 500 in the direction of arrow C shown in
When the secondary transfer device 500 is pressed, the pressing force of the secondary transfer outer roller 501 on the secondary transfer inner roller 58 is further increased by the secondary transfer pressing spring 203, so that the secondary transfer force can be optimized. In addition, the secondary transfer device 500 is arranged to completely follow the positioning boss 202 by biasing unit 22. Therefore, at the time that the pressing of the secondary transfer device 500 is completed, the secondary transfer outer roller 501 is automatically aligned to the secondary transfer inner roller 58.
In this manner, in the embodiment, the fixing device 502 can be aligned to the secondary transfer device (the secondary transfer inner roller 58 and the secondary transfer outer roller 501) of which alignment accuracy is ensured. Therefore, the conveyance unit 2 has a mechanism for adjusting an inserting form in the apparatus main body 1
Although, the positioning is affected by tolerance errors of individualized components, alignment accuracy among the secondary transfer inner roller 58, the secondary transfer outer roller 501, and the fixing device 502 can be maintained. Therefore, deterioration in performance of conveying and transfer and deterioration of image quality caused from decrease in alignment accuracy can be prevented.
In addition, according to the embodiment, when the user draws out the conveyance unit 2 from the apparatus main body 1 the pressing of the secondary transfer outer roller 501 can be automatically released. Particularly, in an intermediate transfer type image forming apparatus having a short path engine, although jam occurs between the secondary transfer device 500 and the fixing device 502, the jammed sheet as inserted in the fixing device 502 can be ejected from the image forming apparatus. As a result, the jam clearance operation can be easily performed without spraying of unfixed toners borne on the jammed sheet into the image forming apparatus.
(Detailed Construction of Locking Unit 6)
Detailed construction of the locking portion 6 of the conveyance unit 2 is described with reference to
As shown in
The lever 101 has the R-shaped pressing portion 101b at a position inner than the rotating shaft 101a. If the lever 101 is rotated in the external side, the rotating motion enables the pressing portion 101b to pivot about the rotating shaft 101a. The lever 101 is applied with a force clockwise by a torsion spring 101b (see
The upper portion of the arm 120 contacts with the pressing portion 101b, and the lower portion thereof is integrally fastened to the hook 103. A spring 117 is provided to the upper portion of the arm 120. The spring 117 is a tension spring. Therefore, the arm 120 is rotated about the central rotating shaft 118 to be applied with a force counterclockwise in
As described above, the hook 103 is integrally fastened to the lower portion of the arm 120. In the conveyance unit 2, two hooks 103 are disposed at both ends of the central rotating shaft 118 which is provided to extend and penetrate in the longitude direction of the conveyance unit 2 at the front side thereof. The hooks provided to both ends of the central rotating shaft 118 have the same shape. The central rotating shaft 118 is inserted into one end of the hook 103, and the U-shaped recess 103a is formed in the opposite end thereof from the central rotating shaft 113 of the pushing-out slider 118. The U-shaped recess 103a is engaged with the pin 111 provided to the apparatus main body 1.
According to such a construction, when the conveyance unit 2 is locked to the apparatus main body 1, the conveyance unit 2 is slidably moved to be inserted into the apparatus main body 1. When the conveyance unit 2 is in a predetermined inserting position in the apparatus main body 1, the locking device 6 locks the conveyance unit 2. More specifically, while the conveyance unit 2 is slidably moved to be inserted into the apparatus main body 1, the taper portion H at the distal end of the hook 103 contact with the pin 111 provided to the apparatus main body 1. The hook 103 is rotated clockwise against the force of the spring 117. In the state where the hook 103 is rotated clockwise, the lever 101 is in the state of protruding from the outer surface of the conveyance unit 2 (state of
When the pin 111 overrides a taper portion H of the hook 103 by further pushing the conveyance unit 2 into the apparatus main body 1, the U-shaped recess 103a of the hook 103 is engaged with the pin 111 provided to the apparatus main body 1 as shown in
The pin 111 is disposed at a high accuracy in each of the main-body side plates provided to the apparatus main body 1. Therefore, the hook 103 is also disposed at a high accuracy at each of the front inner sides of the conveyance unit 2. The hooks in the front inner sides are engaged with the pins 111, so that alignment of a conveyance portion between the apparatus main body 1 and the conveyance unit 2 can be ensured.
The pin 111 may be a rolling pin or other rotating members such as a roller and a bearing. By using such a pin, the hook 103 can be smoothly engaged with the pin 111. In this case, the hook 103 is automatically engaged with the pin 111 by the force of the tension spring 117, so that the half-opened state of the conveyance unit 2 can be effectively prevented.
According to the aforementioned construction, when the locking to the apparatus main body 1 is to be released, the user firstly erects the lever 101 as shown in
After completely drawing out the conveyance unit 2 from the apparatus main body 1, the user slidably moves the conveyance unit 2 in the apparatus main body so as to insert the conveyance unit 2 into the apparatus main body 1. In this case, the conveyance unit 2 may be in the state where the conveyance unit 2 is inserted into the apparatus main body 1 but the locking device 6 is not locked. Namely, the conveyance unit 2 may be in the half-opened state where the U-shaped recess 103a of the hook 103 is not engaged with the pin 111. In the embodiment, as shown in
If the user can recognize the incomplete locking of the conveyance unit 2, the user accurately completes the manipulation by the drawing and inserting of the conveyance unit 2 accurately. In addition, since the lever 101 is designed to be erected, the user can easily grip the lever 101 to draw out the conveyance unit 2. For example, in a case where the half-opened state is caused from a frictional force of connecting and disconnecting the relay drawer connectors 105, the user can easily recover the manipulation.
(Lock Sensing Unit 7 of Locking Portion 6)
A lock sensing portion 7 of the locking portion 6 is described with reference to
As shown in
A distal end portion 108a of the sensor arm 108 in the vicinity of the lever 101 is applied with a force toward the lever 101 by a torsion spring 108d. Therefore, the sensor arm 108 is rotated around a rotating shaft 108b by the rotating motion of the lever 101. A flag portion 108c is formed at an upper end of the sensor arm 108. According to a position of the flag portion 108c, sensing light of the photosensor 121 is blocked or passed. As a result, a position of the lever 101 can be sensed.
According to such a construction, the lock sensing portion 7 can sense whether or not the locking portion 6 is locked as follows.
Firstly, as shown in
Next, when the user releases the locking of the lever 101, the lever 101 is in the erected state as shown in
Although not shown, when the conveyance unit 2 is drawn out from the apparatus main body 1 and a jam clearance operation is performed, the lever 101 is in the fallen state. Therefore, the lever 101 does not protrude from the outer surface of the conveyance unit 2.
The conveyance unit 2 can be separated from the apparatus main body 1 by separating the distal end portion 103b of the hook 103 from the pin 111. In this state, the spring 117 applies a force so as for the arm 120 integrally fastened to the hook 103 to rotate counterclockwise. As shown in
When the conveyance unit 2 becomes close to the locked state to the apparatus main body 1, the distal end portion 103b of the hook 103 contacts with the pin 111. In this state, if the user erects the lever 101, the pressing portion 101b enables the arm 120 to rotate clockwise, and the hook 103 integrally fastened to the arm 120 is also rotated.
Due to the clockwise rotation of the hook 103, the inserting operation of the conveyance unit 2 automatically starts. Namely, the conveyance unit 2 is inserted into the apparatus main body 1. Therefore, the distal end portion 103b of the hook 103 contacts with the pin 111. In addition, when the conveyance unit 2 is pushed into the apparatus main body 1, the taper portion H in the distal end portion 103b of the hook 103 is pressed from the pin 111, so that the hook 103 automatically rotates clockwise.
The lever 101 which is applied with a fore clockwise by the torsion spring is rotated clockwise due to the clockwise rotation of the arm 120. Therefore, the distal end portion of the lever 101 protrudes from the outer surface of the conveyance unit 2.
When the U-shaped recess 103a of the hook 103 is engaged with the pin 111 by further inserting the conveyance unit 2 into the apparatus main body 1, the hook 103 is rotated counterclockwise. Accordingly, the arm 120 is also rotated counterclockwise to press the pressing portion 101b. As a result, the lever 101 does not protrude from the outer surface of the conveyance unit 2.
Now, electrical conduction states associated with the drawing out and inserting of the conveyance unit 2 are described. Due to the aforementioned construction of the locking portion 6 and the lock sensing portion 7, the pressing portion 101b and the sensor arm 108 are rotated according to the rotation of the lever 101. In the embodiment, a timing that the sensor arm 108 releases the blocked state of the photosensor 121 is arranged to be precedent to a timing that the pressing portion 101b presses the arm 120. Therefore, before the hook 103 is disengaged from the pin 111, the controller 777 recognizes that the locking is released and disconnects electric power for the connectors 14 and 115. Accordingly, in the power-connected state, the relay drawer connectors 105 are 106 cannot be disconnected from the connectors 114 and 115, and the conveyance unit 2 cannot be drawn out from the apparatus main body 1.
(Procedures of Controlling and Displaying in Jam Removing Operation)
Now, procedures of controlling and displaying performed in a jam clearance operation are described with reference to flowcharts of
Firstly, as shown in
In the unlocked state where the hook 103 is disengaged from the pin 111, the conveyance unit 2 is moved to be separated from the apparatus main body 1 by the slide mechanism 130. As a result, the relay drawer connectors 105 and 106 are disconnected from the connectors 114 and 116, respectively. According to the procedures, the connection and disconnection of the connectors 114 and 116 in the power-connected state can be prevented.
When the controller 777 determines based on the sensing signal of the sensing portion 115 that the conveyance unit 2 is in the OFF state (the state where the conveyance unit 2 is separated from the apparatus main body 1), the controller 777 determines that the opening of the conveyance unit 2 is completed. The controller 777 controls the liquid crystal manipulation panel 107 to display information that the jammed transfer material S needs to be removed. Accordingly, since an accurate state can be displayed, the user can perform a suitable manipulation at a proper timing.
As described above, when the conveyance unit 2 is inserted into the apparatus main body 1, the controller 777 performs the sensing of the sensing portion 115 for sensing the position of the conveyance unit 2 and, after that, the sensing of the lock sensing portion 7. On the other and, when the conveyance unit 2 is drawn out from the apparatus main body 1, the controller 777 performs the sensing of the lock sensing portion 7 and, after that, the sensing of the sensing portion 115 for sensing the conveyance unit 2. Accordingly, connection and disconnection of the connectors in the power-connected state can be prevented.
As shown in
In the lock-failure state where the hook 103 is not completely engaged with the pin 111, the controller 777 controls the liquid crystal manipulation panel 107 to display information indicating that the conveyance unit 2 needs to be drawn out and completely inserted again. Accordingly, since the user can be informed accurately, the workability to manipulation of drawing out and inserting the conveyance unit 2 to the apparatus main body 1 can be improved.
In the embodiment, if the half-opened state is sensed based on the sensing results of the lock sensing portion 7 and the sensing portion 115, the information indicating that the conveyance unit 2 needs to be drawn out and completely inserted again may be displayed. However, the display information is only an example. Therefore, any information indicating that the conveyance unit 2 is in the incompletely inserted state in the apparatus main body 1 may be displayed to the user.
When the user completely inserts the conveyance unit 2 into the apparatus main body 1, the controller 777 determines based on the sensing signal of the lock sensing portion 7 of the locking portion 6 that the conveyance unit 2 is inserted into the apparatus main body in the locked state. The controller 777 controls the electric power to be supplied through the connectors 114 and 116 to a heater of a fixing device 502 or a transfer material-conveying driving motor provided to the conveyance unit 2 or sensors. When the controller 777 determines that the conveyance unit 2 is in the locked state, the controller 777 controls the liquid crystal manipulation panel 107 to display information indicating that the image forming operation can be operated by the user.
According to the embodiment, the lock sensing portion 7 for sensing the locked state of the locking portion 6 is provided In addition, the user can determine the locked state by simply confirming the presence of the protrusion of the lever 101 from the conveyance unit 2. In addition, since the sensing portion 115 for sensing the position of the conveyance unit 2 is separately disposed, the half-opened state can be effectively determined. Since the sensed information is displayed on the liquid crystal manipulation panel 107, the user can recognize the locked state or the half-opened state by confirming the information displayed on the liquid crystal manipulation panel 107.
In the aforementioned embodiment, the pin 111 as an engagement protrusion for the locking portion 6 is disposed to the apparatus main body 1, and the lever 101 and the hook 103 having the U-shaped recess 103a as an engagement recess are disposed to the conveyance unit 2. However, the opposite construction may be adopted. In the opposite construction, in the half-opened state where the conveyance unit 2 is not completely locked to the apparatus main body 1, the lever 101 disposed to the apparatus main body 1 is arranged so as to protrude from an outer surface of the apparatus main body 1. Accordingly, like the aforementioned embodiment, the states of locking including the unlocked state can be recognized based on the position of the lever 101.
In addition, in the aforementioned embodiment, the sensing portion 115 for sensing the position of the conveyance unit 2 is disposed to the apparatus main body 1, and the flag 104 sensed by the sensing portion 115 is disposed to the conveyance unit 2. However, the opposite construction may be adopted.
This application claims the benefit of priority from the prior Japanese Patent Application No. 2006-083767 filed on Mar. 24, 2006 the entire contents of which are incorporated by reference herein.
Number | Date | Country | Kind |
---|---|---|---|
2006-083767 | Mar 2006 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5802426 | Miyazaki et al. | Sep 1998 | A |
6626594 | Lallemant | Sep 2003 | B1 |
6851802 | Sakakibara et al. | Feb 2005 | B2 |
6916052 | Yamada et al. | Jul 2005 | B2 |
Number | Date | Country |
---|---|---|
3-61959 | Mar 1991 | JP |
7-295459 | Nov 1995 | JP |
9-325543 | Dec 1997 | JP |
10-187002 | Jul 1998 | JP |
2003-223090 | Aug 2003 | JP |
2003-255803 | Sep 2003 | JP |
2004-240376 | Aug 2004 | JP |
Number | Date | Country | |
---|---|---|---|
20070222845 A1 | Sep 2007 | US |