JP2007017851A - Electrifying device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electrifying device capable of surely and easily detecting whether or not a cleaning member cleans the effective discharge area of an electrifying wire in entire length by a detection means. <P>SOLUTION: In the electrifying device 4 of an image forming apparatus 1, the cleaning member 7 exists at a position (standby position P0) where it is pushed into an inner side further than the end (inner side end P1) of the effective discharge area L in the longitudinal direction of the electrifying wire 41 in such a state that a rod member 6 is pushed into a drum casing 5 to the maximum. The electrifying device 4 is equipped with the detection means for detecting whether or not the cleaning member 7 reaches the end (front side end P2) of the effective discharge area L via the effective discharge area L when the rod member 6 is pulled out from the drum casing 5. The detection means comprises a first perpendicular member 9a as a member to be detected and a contact type micro switch 8 for detecting the first perpendicular member 9a. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a charging device including a charging wire that charges the surface of a photosensitive drum by corona discharge, a cleaning member that contacts the charging wire, and an operation lever that moves the cleaning member along the longitudinal direction of the charging wire.

  In an electrophotographic printer (image forming apparatus) of a type in which the surface of a photosensitive drum is charged with a corotron or a scorotron charger, insulating foreign matters such as silica and toner adhere to the charging wire. If this insulating foreign matter adheres to the wire, the charging performance of the photosensitive drum by the charging wire will deteriorate, so it is necessary to clean the wire and remove the foreign matter.

  The scorotron charger disclosed in Patent Document 1 includes a charging wire, a shield case for storing the charging wire, and a grid. Then, the current value flowing into the shield case from the charging wire is monitored, and when this current value becomes a predetermined value or less, it is determined that foreign matter has adhered to the grid, and a warning for prompting cleaning is displayed to the user. .

JP 2002-132025 A

In the charger described in Patent Document 1, even if the current value flowing from the charging wire to the shield case becomes equal to or lower than a predetermined value after the user cleans the grid according to the warning display, the warning display is not necessarily released. It did not mean that it was cleaned over the entire length of the effective area of the grid. This is because the change in the resistance value of the grid (increase / decrease in the current value) is caused by the cleaning effect obtained by removing the dirt on the grid, or the change in the environment of the image forming apparatus (change in humidity inside the apparatus). This is because it cannot be determined. For example, even when only a part of the dirt is removed by cleaning, depending on the environment of the image forming apparatus, the current value may become a predetermined value or more, and it may be mistaken for the completion of cleaning. is there.
The above relationship is the same when the invention described in Patent Document 1 is applied to a charging wire and the current value of the charging wire is monitored to determine whether the charging wire is dirty. . That is, it is impossible to detect whether or not the effective discharge area of the charging wire has been completely cleaned only by monitoring the current value of the charging wire.

  That is, the problem to be solved is that, in a charging device including a charging wire, it is not possible to detect whether or not the effective discharge area of the charging wire has been completely cleaned by monitoring the current value of the charging wire. is there.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, the charging device according to claim 1 is:
A charging wire for charging the surface of the photosensitive drum by corona discharge;
A frame on which the charging wire is stretched;
A rod member supported by the frame movably along the longitudinal direction of the charging wire;
A cleaning member supported by one end of the rod member and abutting against the charging wire;
An operation lever that is fixed to the other end of the rod member and protrudes to the outside of the frame;
With
A charging device of an image forming apparatus that cleans the charging wire by moving the cleaning member along the charging wire by pushing and pulling the rod member with respect to the frame by operating the operation lever. And
When the rod member is maximally pushed into the frame, the cleaning member is in a position pushed deeper than the effective discharge region in the longitudinal direction of the charging wire, and
When the rod member is pulled out from the frame, the cleaning member includes detection means for detecting whether or not the cleaning member has reached the end of the effective discharge region via the effective discharge region. is there.

The detecting means may detect the cleaning member itself, or may detect the cleaning member indirectly by detecting a detected member having a certain positional relationship with the cleaning member. The cleaning member itself and the detected member may be detected by a contact type sensor or a non-contact type sensor.
Further, even if the detection position of the cleaning member by the detection means is not the same position as the end position of the effective discharge region drawn out through the effective discharge region, the counter discharge region is more effective than the end position. The position pulled out to the side may be sufficient. If the cleaning member is detected at the position pulled out by the anti-effective discharge region side, it is obvious that the cleaning member has passed through the end position.
The frame may be any frame as long as the charging wire is stretched and the rod member is supported so as to be movable along the longitudinal direction of the charging wire. It may be a frame or a casing supported by the apparatus main body.

  With the above configuration, when the rod member is pushed into the frame as much as possible, the cleaning member is in a position pushed deeper than the effective discharge region in the longitudinal direction of the charging wire. And when the said detection means detects the said cleaning member, it will be understood that the said cleaning member reached | attained the edge part of the effective discharge area | region via the said effective discharge area | region.

The charging device according to claim 2 is:
The detection means includes
A detected member provided on the rod member;
A contact-type detector that detects the cleaning member by the presence or absence of contact with the detected member;
It is provided.

  With the above configuration, a certain positional relationship is established between the detected member and the cleaning member, and the cleaning member is indirectly detected by detecting the detected member with a contact-type detector.

  As effects of the present invention, the following effects can be obtained.

In claim 1,
The detection means can reliably and easily detect whether the entire length of the effective discharge region of the charging wire has been cleaned by the cleaning member.

  According to the second aspect of the present invention, the cleaning member can be detected when the member to be detected contacts the detector.

First, a charging device 4 as a first embodiment of the charging device according to the present invention will be described with reference to FIGS.
The charging device 4 is one of the electrophotographic process devices provided in the electrophotographic image forming apparatus 1. The image forming apparatus 1 is a multifunction peripheral such as a printer having only a print function, a copier having a scanner in addition to a printer, and a facsimile having a FAX transmission function.

FIG. 1 and FIG. 2 show a part of the image forming apparatus 1.
The image forming apparatus 1 includes a drum cartridge 2 that includes various apparatuses mainly including a photosensitive drum 3. The drum cartridge 2 is detachably provided in the image forming apparatus 1, and is opened with respect to the main body frame of the image forming apparatus 1 in the longitudinal direction of the photosensitive drum 3 by opening and closing the maintenance cover of the image forming apparatus 1. It has become free.

The main body frame of the image forming apparatus 1 is provided with a drum support frame 11 that engages with a drum casing 5 that forms an outer shell of the drum cartridge 2.
As will be described in detail below, the devices constituting the charging device 4 are separately arranged in the drum cartridge 2 and the drum support frame 11.

The drum cartridge 2 includes a photosensitive drum 3, a charging wire 41, a cleaning member 7, and a rod member 6 inside a drum casing 5. The photosensitive drum 3 is supported by the drum casing 5 so as to be rotatable about the axis of the photosensitive drum 3.
The drum casing 5 is formed with an opening 5 a for a movement path of a support member 9 (described later) that supports the cleaning member 7.

The respective devices provided in the drum casing 5 will be schematically described.
The charging wire 41 is arranged in parallel with the photosensitive drum 3 and is stretched between the inner walls of the drum casing 5.
The cleaning member 7 is a means for cleaning the charging wire 41 and is disposed so as to contact the charging wire 41.
The rod member 6 is a long member disposed in parallel with the charging wire 41, and the cleaning member 7 is supported at one end thereof, and the other end (the end on the anti-cleaning member 7 side) is the other member. An operation lever 6a having a diameter larger than that of the shaft portion is formed. The rod member 6 is supported by the drum casing 5 so as to be movable along the longitudinal direction of the charging wire 41, and in particular, the operation lever 6 a protrudes outside the drum casing 5. The user operates the operation lever 6 a to pull out the rod member 6 from the drum casing 5 and push the rod member 6 into the drum casing 5 to move the cleaning member 7 along the longitudinal direction of the charging wire 41. Is possible.

The layout of each device arranged in the image forming apparatus 1 will be described with reference to FIGS.
A drum cartridge 2 is disposed vertically below the drum support frame 11. In the mounted state of the drum cartridge 2, the charging wire 41 is positioned vertically below the rod member 6, and the photosensitive drum 3 is positioned vertically below the charging wire 41.
The longitudinal direction of the rod member 6 and the charging wire 41 is the front-rear direction of the image forming apparatus 1, and the right side of the paper surface of FIGS. 1 and 2 is the front side (front side) where the maintenance cover of the image forming apparatus 1 is arranged. is there.
Moreover, the direction of the arrow A shown in FIG. 1 and FIG. 2 shows the pushing direction (rear direction) of the rod member 6 (cleaning member 7) movable along the charging wire 41, and the tip side of the arrow A is It is the “back side (front side)” with respect to the operation lever 6a, and the terminal side of the arrow A is the “front side (rear side)” with respect to the operation lever 6a.
The direction perpendicular to the paper surface of FIGS. 1 and 2 is the left-right direction of the image forming apparatus 1.
The direction in this specification is defined as described above.

Next, the configuration of the charging device 4 according to the first embodiment of the present invention will be described.
The charging device 4 is a device mainly composed of a charging wire 41 that charges the surface of the photosensitive drum 3 by corona discharge. As described above, the charging device 4 includes a device arranged in the drum cartridge 2 and a device arranged in the drum support frame 11.
Among the devices constituting the charging device 4, devices disposed in the drum cartridge 2 include a charging wire 41, a rod member 6, a cleaning member 7, and a drum casing 5 that supports these. Among the devices constituting the charging device 4, a device arranged on the drum support frame 11 includes a micro switch 8 for detecting the position of the cleaning member 7.
In the present embodiment, the charging wire 41 is stretched around the drum casing 5 of the drum cartridge 2, but the frame for stretching the charging wire 41 is attached to the drum casing 5 that supports the photosensitive drum 3. It is not limited and other configurations may be used.

As shown in FIG. 3, the cleaning member 7 is supported by the push-side tip end portion (counter-operating lever 6 a side end portion) of the rod member 6 via the support member 9.
The support member 9 has a cross shape as a whole when viewed from the side (a viewpoint in the axial direction of the rod member 6), and is attached to the first vertical member 9a connected to the rod member 6 and the lower end of the first vertical member 9a. It consists of a horizontal member 9b to be connected and a second vertical member 9c connected to the lower end of the horizontal member 9b.
An opening that opens downward is formed in the second vertical member 9c, and the cleaning member 7 is fitted into the opening. The cleaning member 7 has a slit formed upward from the lower end, and the charging wire 41 is inserted into the slit so that the cleaning member 7 contacts the charging wire 41.
The second vertical member 9 c is inserted into the opening 5 a and protrudes toward the lower charging wire 41, thereby bringing the cleaning member 7 into contact with the charging wire 41. The horizontal member 9b is configured to be wider than the opening width of the opening 5a in the left-right direction (perpendicular to the plane of the drawing). The horizontal member 9b is in sliding contact with the upper surface of the drum casing 5 around the opening 5a so It is regulated.

The cleaning member 7 is made of a sponge in the present embodiment.
By pushing and pulling the rod member 6, the cleaning member 7 moves along the charging wire 41, and insulating foreign matters such as silica and toner attached to the charging wire 41 can be removed from the charging wire 41. .

The cleaning area | region by the cleaning member 7 of the charging wire 41 is demonstrated.
By using the image forming apparatus 1, the above-described insulating foreign matters such as silica and toner adhere to the surface of the charging wire 41, and the charging performance of the photosensitive drum 3 by the charging wire 41 decreases. Here, the discharge area (length) necessary for charging the photosensitive drum 3 out of the total length of the charging wire 41 supported in the drum casing 5 is defined as an effective discharge area L. That is, the portion of the charging wire 41 that needs to be cleaned is a portion of the effective discharge region L.
Further, both ends of the effective discharge region L are referred to as a back side end portion P1 and a near side end portion P2 when viewed from the viewpoint of the user operating the operation lever 6a. The back end P1 is an end of the effective discharge region L at which the cleaning member 7 reaches via the effective discharge region L when the rod member 6 is pushed into the drum casing 5. Further, the front side end portion P2 is an end portion of the both ends of the effective discharge region L that the cleaning member 7 reaches via the effective discharge region L when the rod member 6 is pulled out from the drum casing 5. is there.

At least during image formation by the image forming apparatus 1, the rod member 6 is pushed into the back side of the drum cartridge 2 as much as possible, and the operation lever 6 a is in contact with the front surface of the drum casing 5. At this time, the cleaning member 7 is pushed further into the back side than the back side end portion P1 of the effective discharge region L of the charging wire 41, and is located at the standby position P0. When the cleaning member 7 is positioned at the standby position P0, the entire effective discharge region L is opened, and charging of the photosensitive drum 3 by the charging wire 41 is not hindered.
Whether the cleaning member 7 is located at the standby position P0 is determined by checking whether the operation lever 6a is in contact with the front surface of the drum casing 5, or whether the rod member 6 is pushed further. By trying this, the user can easily confirm it.

On the other hand, when cleaning the charging wire 41, the user grasps the operation lever 6a, first operates to pull out the rod member 6, and then operates to push in the rod member. In this way, the cleaning member 7 is moved along the charging wire 41 to clean the charging wire 41. This push-pull may be performed at least once.
Here, in order to clean the entire length of the effective discharge region L of the charging wire 41, the cleaning member 7 positioned at the standby position W0 is pulled out at least once via the effective discharge region L, and the cleaning member 7 is at the front end. It is necessary to reach the position of P2, preferably the position drawn to the side opposite to the effective discharge region L from the front end P2.
Therefore, the charging device 4 detects whether or not the cleaning member 7 has reached the front end P2 of the effective discharge region L of the charging wire 41 when the rod member 6 is pulled out from the drum casing 5. Detecting means for doing this is provided. When the detection means detects that the cleaning member 7 has reached the front end P2, the cleaning member 7 can clean the entire length of the effective discharge region L.

As shown in FIGS. 1 to 3, the detection means detects whether or not the cleaning member 7 is positioned (has reached) at the front end P <b> 2 of the effective discharge region L of the charging wire 41. The microswitch 8 is a contact type detector, and a first vertical member 9a to be detected by the microswitch 8 is configured.
Although described later in detail, the first vertical member 9a and the cleaning member 7 have a certain positional relationship, and the cleaning member 7 can be detected based on the detection of the first vertical member 9a by the microswitch 8.

As shown in FIG. 3, the microswitch 8 is disposed inside the drum support frame 11 of the image forming apparatus 1.
The microswitch 8 includes a lever 8a provided in the microswitch 8 body, and a switch 8c that operates when an external force acts on the lever 8a. The drum support frame 11 has an opening 11a for projecting the lever 8a toward the drum casing 5 so that the first vertical member 9a can come into contact with the lever 8a.
One end of the lever 8a is pivotally supported by the main body of the micro switch 8, and the lever 8a is biased toward the first vertical member 9a by a spring. The lever 8a may be configured to be biased so as to be positioned on the first vertical member 9a side by its own weight without using a spring. The other end of the lever 8a is bent in a substantially arc shape, and a contact portion 8b that smoothly contacts the first vertical member 9a is formed.
In addition, the detector which detects the 1st vertical member 9a as a to-be-detected member corresponding to the cleaning member 7 is not limited to the microswitch 8, and if it is a contact type detector, it will not specifically limit.

In the present embodiment, in the longitudinal direction of the rod member 6, the cleaning member 7 and the first vertical member 9a are provided at substantially the same position. The microswitch 8 is provided at a position where the first vertical member 9a is detected when the cleaning member 7 is located at the front end P2.
For this reason, when the rod member 6 is pulled out and the micro switch 8 detects the first vertical member 9a, it is detected that the cleaning member 7 is located at the front end P2.

  Therefore, when the micro switch 8 detects the first vertical member 9 a, the cleaning member 7 is connected to the rod member 6 based on the positional relationship between the first vertical member 9 a and the cleaning member 7 in the longitudinal direction of the rod member 6. It is detected whether or not it is at a specific position in the longitudinal direction (that is, the front side end portion P2). If the positional relationship between the cleaning member 7 and the detected member corresponding to the cleaning member 7 (the first vertical member 9a in this embodiment) is clear, the cleaning member 7 and the detected member are placed at the same position. There is no need to provide the cleaning member 7 and the member to be detected may be arranged at a position separated by a certain distance in the longitudinal direction of the rod member 6.

Next, a charging device 104, which is a second embodiment of the charging device according to the present invention, will be described with reference to FIGS.
The charging device 104 of the second embodiment is different only in the configuration of the detection means of the cleaning member 7 in the charging device 4 of the first embodiment, and the other configurations are basically the same. The configuration of the image forming apparatus 101 provided with the charging device 104 is the same as that of the image forming apparatus 1 described in relation to the charging device 4 of the first embodiment. Therefore, the following description will mainly focus on the differences from the charging device 4 of the first embodiment.
The definition of the direction in FIGS. 4 and 5 is the same as the definition of the direction in FIGS. 1 and 2 related to the charging device 104.

In the first embodiment, the charging device 4, the image forming apparatus 1, the drum cartridge 2, and the drum support frame 11 are used. In the second embodiment, the charging device 104, the image forming apparatus 101, the drum cartridge 102, and the drum support frame are used. 111.
4 to 6, the same reference numerals as those in FIGS. 1 to 3 have the same configuration as that of the first embodiment. Therefore, in the second embodiment, detailed description thereof will be given. Is omitted.

The charging device 104 is a device mainly composed of a charging wire 41 that charges the surface of the photosensitive drum 3 by corona discharge. The charging device 104 includes a device arranged in the drum cartridge 102 and a device arranged in the drum support frame 111.
Among the devices constituting the charging device 104, devices disposed in the drum cartridge 102 include a charging wire 41, a rod member 6, a cleaning member 7, and a drum casing 5 that supports them. Among the devices constituting the charging device 104, a device disposed on the drum support frame 11 includes a light reflection sensor 13 for detecting the position of the cleaning member 7.

As shown in FIG. 4 to FIG. 6, the detection means of the cleaning member 7 provided in the charging device 104 determines whether the cleaning member 7 is located at the front end P <b> 2 of the effective discharge region L of the charging wire 41 (has reached). A light reflection sensor 13 which is a non-contact detector and a light reflection surface 12 which is a detection target by the light reflection sensor 13.
Although described later in detail, the light reflecting surface 12 and the cleaning member 7 have a certain positional relationship, and the cleaning member 7 can be detected based on the detection of the light reflecting surface 12 by the light reflecting sensor 13.

As shown in FIGS. 4 and 5, the light reflection sensor 13 includes a light emitter 13 a and a light receiver 13 b, and the image forming apparatus so that the light emitter 13 a and the light receiver 13 b face the light reflecting surface 12. 101 is disposed inside the drum support frame 111.
The light reflecting surface 12 is provided on the upper surface of the first vertical member 9a, and is formed by directly painting with a color having a high reflectance such as white or silver, or by sticking a seal or the like.

In the light reflection type sensor 13, the light emitter 13 a always emits light, the light reflection surface 12 (first vertical member 9 a) moves to an appropriate position, and the irradiation light from the light emitter 13 a is reflected on the light reflection surface 12. When reflected, the reflected light enters the light receiver 13b. At this time, the light reflection type sensor 13 is in a state of detecting the light reflection surface 12.
When the position of the light reflecting surface 12 (first vertical member 9a) is not on the light path of the irradiation light from the light emitter 13a, the reflected light from the light reflecting surface 12 does not enter the light receiver 13b, and the light is reflected. The type sensor 13 does not detect the light reflecting surface 12.

In the present embodiment, the cleaning member 7 and the light reflecting surface 12 (first vertical member 9a) are provided at substantially the same position in the longitudinal direction of the rod member 6. More specifically, the width and position of the light reflecting surface 12 are formed substantially the same as the position and width of the cleaning member 7. The light reflection sensor 13 (the light emitter 13a and the light receiver 13b) is provided at a position where the light reflecting surface 12 is detected when the cleaning member 7 is located at the front end P2.
For this reason, when the rod member 6 is pulled out and the light reflection sensor 13 detects the light reflection surface 12, it is detected that the cleaning member 7 is located at the front end P2.

  Here, when the light reflecting sensor 13 detects the light reflecting surface 12, the cleaning member 7 is based on the positional relationship between the light reflecting surface 12 and the cleaning member 7 in the longitudinal direction of the rod member 6. It is detected whether it is in the specific position in the longitudinal direction (that is, the front side end portion P2). If the positional relationship between the cleaning member 7 and the detected member corresponding to the cleaning member 7 (the light reflecting surface 12 in this embodiment) is clear, the cleaning member 7 and the detected member need to be provided at the same position. Alternatively, the cleaning member 7 and the member to be detected may be arranged at a position separated by a certain distance in the longitudinal direction of the rod member 6.

The light-reflective sensor 13 is particularly covered and protected by a drum support frame 111 and the like in order to protect the light emitter 13a and the light receiver 13b from insulating foreign matters such as silica and toner.
The drum support frame 111 is formed with an opening that can form a light irradiation path from the light emitter 13a to the light reflection surface 12 and a light reflection path from the light reflection surface 12 to the light receiver 13b. A transparent member 14 is fitted in the opening. The transparent member 14 is made of a transparent resin or glass.
The light reflection sensor 13 is protected from contact with the foreign matter by a covering member composed of the drum support frame 111 and the transparent member 14.

In addition to the light reflecting surface 12, the support member 9 is provided with a transparent portion cleaning member 15 for cleaning the transparent member 14.
The transparent portion cleaning member 15 is made of a brush, a sponge, or the like, and is provided on the upper surface of the transparent portion horizontal member 16 erected on the front surface of the first vertical member 9a. When the rod member 6 is pushed and pulled to clean the charging wire 41 with the cleaning member 7, the transparent portion cleaning member 15 is in contact with the surface of the transparent member 14 (surface facing the light reflecting surface 12). Insulating foreign matters such as silica and toner adhering to the surface of the transparent member 14 are cleaned.

Next, a charging device 204 that is a third embodiment of the charging device according to the present invention will be described with reference to FIGS.
The charging device 204 of the third embodiment is different only in the configuration of the detection means of the cleaning member 7 in the charging device 4 of the first embodiment, and the other configurations are basically the same. The configuration of the image forming apparatus 201 provided with the charging device 204 is the same as that of the image forming apparatus 1 described in relation to the charging device 4 of the first embodiment. Therefore, the following description will mainly focus on the differences from the charging device 4 of the first embodiment.
The definition of the direction in FIGS. 7 and 8 is the same as the definition of the direction in FIGS. 1 and 2 related to the charging device 104.

The charging device 4, the image forming device 1, the drum cartridge 2, and the drum support frame 11 in the first embodiment are respectively shown in the third embodiment, and the charging device 204, the image forming device 201, the drum cartridge 202, and the drum support frame in the third embodiment, respectively. 211.
Also, among the reference numerals in FIGS. 7 to 10, the same reference numerals as those in FIGS. 1 to 3 have the same configuration as that in the first embodiment. Therefore, in the third embodiment, detailed description thereof will be given. Is omitted.

The charging device 204 is a device mainly composed of a charging wire 41 that charges the surface of the photosensitive drum 3 by corona discharge. The charging device 204 includes a device arranged in the drum cartridge 202 and a device arranged in the drum support frame 211.
Among the devices constituting the charging device 204, the devices arranged in the drum cartridge 202 include the charging wire 41, the rod member 6, the cleaning member 7, and the drum casing 5 that supports them. Among the devices constituting the charging device 204, the device disposed on the drum support frame 211 includes the detector 21 for detecting the position of the cleaning member 7.

As shown in FIG. 7 to FIG. 10, the detection means of the cleaning member 7 provided in the charging device 204 determines whether the cleaning member 7 is located at the front end P2 of the effective discharge region L of the charging wire 41 (has reached). The detector 21 is a non-contact detector using a magnetic field change, and a magnet 18 to be detected by the detector 21.
As will be described in detail later, the magnet 18 and the cleaning member 7 have a certain positional relationship, and the cleaning member 7 can be detected based on detection of the magnet 18 by the detector 21.

As shown in FIGS. 9 and 10, the detector 21 that detects the magnet 18 includes an action member 22 and a light transmission sensor 26, and is disposed inside a resin-made drum support frame 211 of the image forming apparatus 201. ing.
The magnet 18 is arrange | positioned at the upper surface of the magnet part horizontal member 19 standingly arranged by the front surface of the 1st vertical member 9a.

  The action member 22 is configured as an actuator that swings in response to a magnetic field change caused by the approach or separation of the magnet 18, and includes a resin plate 23, a light shielding member 24 standing on one end of the resin plate, and the resin. And an action magnet 25 provided at the other end of the plate.

The resin plate 23 is a resin-made plate-like member and is refracted in a substantially reverse shape when viewed from the side, and is supported by the drum support frame 211 via the rotation shaft 31 at the bent portion. In particular, the resin plate 23 is composed of two parts, a light shielding side part 23 a where the light shielding member 24 is provided and a magnet side part 23 b where the action part magnet 25 is provided, with the rotating shaft 31 as a reference. Here, the rotary shaft 31 is provided in the vicinity of the upper surface of the drum support frame 311, and when one of the light shielding side portion 23 a or the magnet side portion 23 b is in surface contact with the upper surface of the drum support frame 311, the rotation shaft 31 is further increased. The swing of the action member 22 is stopped.
The light shielding member 24 is a member that can block the light path formed in the light transmission type sensor 26 according to the rotational position of the resin plate 23.
The action part magnet 25 is a magnet that acts so as to attract each other with the magnet 18 supported by the support member 9.

The light transmission type sensor 26 has a U-shaped main body, and includes a light emitter 26a and a light receiver 26b disposed inside the main body 26 so as to face each other. The light path from the light emitter 26a to the light receiver 26b is in a straight line, and the irradiation light from the light emitter 26a is incident on the light receiver 26b unless the light path is blocked by an external member.
When the rotation position of the resin plate 23 is appropriate, the blocking member 24 blocks the light path from the light emitter 26a to the light receiver 26b when the cleaning member 7 is positioned at the front end P2, as will be described in detail later. . At this time, the light transmission sensor 26 is in a state of detecting the operation of the action member 22 (swing of the resin plate 23). When the cleaning member 7 is not located at the front end P2, the light path from the light emitter 26a to the light receiver 26b is not blocked by the blocking member 24, and the light transmission sensor 26 does not detect the operation of the action member 22.

  Here, since the weight of the light-shielding side portion 23a to which the light-shielding member 24 is fixed is set to be larger than the weight of the magnet-side portion 23b, the resin plate 23 (function) is not applied in an external force other than gravity. In the member 22), the light-shielding side portion 23a is in contact with the upper surface of the drum support frame 211, and the magnet-side portion 23b is floated obliquely. This is the natural state of the action member 22. On the other hand, when the rod member 6 is pulled out, the magnet 18 approaches the action part magnet 25, and when the action part magnet 25 is attracted to the magnet 18, the resin plate 23 swings and the magnet side portion 23 b becomes the drum support frame. In contact with the upper surface of 211, the light-shielding side portion 23 a is in an obliquely floating state. This is the operating state of the action member 22.

In the present embodiment, the cleaning member 7 and the magnet 18 are provided at substantially the same position in the longitudinal direction of the rod member 6.
In a state where the cleaning member 7 is not located at the front end P2, the action member 22 is in a natural state. Therefore, the light path of the light transmission sensor 26 is not blocked by the action member 22, and the cleaning member 7 is at the front end. It is detected that it is not located at P2. On the other hand, in a state where the cleaning member 7 is located at the front end P2, that is, in a state where the magnet 18 is closest to the action portion magnet 25, the action portion magnet 25 is pulled by the magnet 18 and the action member 22 is in a natural state. To the operating state. For this reason, it is detected that the optical path of the light transmission sensor 26 is blocked by the action member 22 and the cleaning member 7 is positioned at the front end P2. The magnitude of the magnetic force of the magnet 18 and the action part magnet 25 and the positional relationship between the magnet 18 and the action part magnet 25 are set so that the action member 22 is swung.

In the configuration of the action member 22, in the present embodiment, the non-magnetic resin plate 23 and the action portion magnet 25 constitute an actuator that operates in response to a change in the magnetic field. However, the present invention is not limited to this configuration. Instead of the resin plate 23 and the action part magnet 25 which are reversed in a side view, a metal plate formed in a straight line is used as in a later-described action member 28 (fourth embodiment). A notch into which the plate enters may be formed on the upper surface of the drum support frame 311. Alternatively, in place of the resin plate 23 and the action portion magnet 25, a metal plate alone having a reverse letter shape in a side view as in the case of the resin plate 23 is used without forming a notch on the upper surface of the drum support frame 311. Also good.
Further, in the present embodiment, the detector 21 is composed of the action member 22 and a means for detecting the action of the action member 22 (light transmission sensor 26). However, the magnetic sensor alone capable of detecting the magnetic field change itself. It is also possible to substitute with.
Further, the sensor for detecting the operation of the action member 22 is not limited to the light transmission type sensor 26, and a light reflection type sensor may be used and a reflection surface may be provided on the blocking member 24.

Next, a charging device 304, which is a fourth embodiment of the charging device according to the present invention, will be described with reference to FIGS.
The charging device 304 of the fourth embodiment is different only in the configuration of the detection means of the cleaning member 7 in the charging device 4 of the first embodiment, and the other configurations are basically the same. The configuration of the image forming apparatus 301 provided with the charging device 304 is the same as that of the image forming apparatus 1 described in relation to the charging device 4 of the first embodiment. Therefore, the following description will mainly focus on the differences from the charging device 4 of the first embodiment.
The definition of the direction in FIGS. 11 and 12 is the same as the definition of the direction in FIGS. 1 and 2 related to the charging device 104.

The charging device 4, the image forming device 1, the drum cartridge 2, and the drum support frame 11 in the first embodiment are respectively shown in the fourth embodiment, and the charging device 304, the image forming device 301, the drum cartridge 302, and the drum support frame in the fourth embodiment, respectively. 311.
Also, among the reference numerals of FIGS. 11 to 14, the same reference numerals as those of FIGS. 1 to 3 have the same configuration as the first embodiment, and therefore the fourth embodiment will be described in detail. Is omitted.

The charging device 304 is a device mainly composed of a charging wire 41 that charges the surface of the photosensitive drum 3 by corona discharge. The charging device 304 includes a device disposed in the drum cartridge 302 and a device disposed in the drum support frame 311.
Among the devices constituting the charging device 304, the devices arranged in the drum cartridge 302 include the charging wire 41, the rod member 6, the cleaning member 7, and the drum casing 5 that supports them. Among the devices constituting the charging device 204, the device disposed on the drum support frame 311 includes a detector 27 for detecting the position of the cleaning member 7.

As shown in FIG. 11 to FIG. 14, the detection means of the cleaning member 7 provided in the charging device 304 determines whether the cleaning member 7 is positioned at the front end P2 of the effective discharge region L of the charging wire 41 (has reached). The detector 27 is a non-contact type detector using a magnetic field change, and a magnet 18 to be detected by the detector 27.
Although described later in detail, the magnet 18 and the cleaning member 7 have a certain positional relationship, and the cleaning member 7 can be detected based on the detection of the magnet 18 by the detector 27.
That is, the charging device 304 of the fourth embodiment is obtained by replacing the detector 21 provided in the charging device 204 of the third embodiment with a detector 27.

As shown in FIGS. 11 and 12, the detector 27 that detects the magnet 18 includes an action member 28 and a light transmission sensor 26, and is disposed inside a resin-made drum support frame 211 of the image forming apparatus 201. ing.
The magnet 18 is arrange | positioned at the upper surface of the magnet part horizontal member 19 standingly arranged by the front surface of the 1st vertical member 9a.

  The action member 28 is configured as an actuator that swings in response to a magnetic field change caused by the approaching / separation of the magnet 18, and includes a metal plate 29 and a light shielding member 24 erected on one end of the metal plate 29. Composed.

The metal plate 29 is a ferromagnetic plate-like member, is formed in a straight line shape when viewed from the side, and is pivotally supported by the drum support frame 311 via the rotation shaft 31 at the center. In particular, the metal plate 29 is composed of two parts, a light shielding side part 29 a where the light shielding member 24 is provided and a magnet side part 29 b as a part attracted by the magnet 18, based on the rotating shaft 31.
The light shielding member 24 is a member that can block the light path formed in the light transmission type sensor 26 according to the rotational position of the metal plate 29.

  Further, a notch 32 into which the magnet side portion 29 b can enter is formed on the upper surface side of the drum support frame 311, and the rotating shaft 31 is provided in the vicinity of the upper surface of the drum support frame 311. The linear metal plate 29 swings around the rotation shaft 31 within a range where the light shielding side portion 29a is in surface contact with the upper surface of the drum support frame 311 or the magnet side portion 29b is in surface contact with the surface of the notch 32. It is free to move. Further, since the weight of the light shielding side portion 29a to which the light shielding member 24 is fixed is set to be larger than the weight of the magnet side portion 29b, the light shielding side portion 29a is a drum in a state where no external force other than gravity acts. The upper surface of the support frame 211 is contacted to be stably supported.

  The configuration of the light transmission sensor 26 is as described above, and includes the light emitter 26a and the light receiver 26b. The light path from the light emitter 26a to the light receiver 26b is blocked by the blocking member 24 provided in the action member 28. It is in a possible state.

  In a state in which an external force other than gravity does not act, the metal plate 29 (the working member 28) is in a state in which the light shielding side portion 29a contacts the upper surface of the drum support frame 311 and the magnet side portion 29b does not enter the notch 32. It is in. This is the natural state of the action member 28. On the other hand, when the rod member 6 is pulled out and the magnet 18 approaches the magnet side portion 29b of the metal plate 29 and the metal plate 29 is attracted to the magnet 18, the metal plate 29 swings and the magnet side portion 29b is cut. It enters into the notch 32, and the light shielding side portion 29a is in a state of floating obliquely. This is the operating state of the action member 28.

In the present embodiment, the cleaning member 7 and the magnet 18 are provided at substantially the same position in the longitudinal direction of the rod member 6.
In a state where the cleaning member 7 is not located at the front end P2, the action member 28 is in a natural state. Therefore, the light path of the light transmission type sensor 26 is not blocked by the action member 22, and the cleaning member 7 is at the front end. It is detected that it is not located at P2. On the other hand, in a state where the cleaning member 7 is located at the front end P2, that is, in a state where the magnet 18 is closest to the magnet side portion 29b, the magnet side portion 29b is pulled by the magnet 18 and the action member 28 is in a natural state. To the operating state. For this reason, it is detected that the optical path of the light transmission sensor 26 is blocked by the action member 28 and the cleaning member 7 is positioned at the front end P2. The magnitude of the magnetic force of the magnet 18 and the positional relationship between the magnet 18 and the magnet side portion 29b are set so that the action member 28 swings.

In the configuration of the action member 28, in the present embodiment, the ferromagnetic metal plate 29 configures an actuator that operates in response to a change in the magnetic field. However, the configuration is not limited to this configuration. Instead of using a straight metal plate 29 and forming a notch 23 into which the metal plate 29 enters on the upper surface of the drum support frame 311, as in the third embodiment described above, the shape is reversed to the side when viewed from the side. A configuration in which the resin plate 23 and the action part magnet 25 are used and notches are not formed on the upper surface of the drum support frame 311 may be employed. Or the structure which forms the notch 23 in the upper surface of the drum support frame 311 is left as it is, and it replaces with the straight metal plate 29, and is arrange | positioned in the site | part corresponded to the linear resin plate and the magnet side site | part 23a. The working part magnet may be used.
Further, in the present embodiment, the detector 27 is composed of the action member 28 and the means for detecting the action of the action member 28 (light transmission sensor 26), but the magnetic sensor alone capable of detecting the magnetic field change itself. It is also possible to substitute with.
Further, the sensor for detecting the operation of the action member 28 is not limited to the light transmission type sensor 26, and a light reflection type sensor may be used and a reflection surface may be provided on the blocking member 24.

Next, a means for prompting cleaning of the charging wire 41 provided in the charging device 4 will be described.
The means for prompting cleaning of the charging wire 41 is the same as that of the charging device 4 of the first embodiment in the charging devices 104, 204, and 304 of the second to fourth embodiments.

  The degree to which insulating foreign matters such as silica and toner adhere to the charging wire 41 is affected by the frequency of use of the image forming apparatus 1 and the installation environment. However, by periodically cleaning the charging wire 41, the charging wire 41 The charging performance of 41 can be maintained.

  The image forming apparatus 1 is provided with a constant voltage circuit that applies a voltage to cause the charging wire 41 to corona discharge. This constant voltage circuit controls the voltage applied to the charging wire 41 to be constant (constant voltage) regardless of the amount of discharge from the charging wire 41. When the resistance value of the charging wire 41 increases due to adhesion, the voltage of the charging wire 41 is constant, and thus the current value flowing through the charging wire 41 decreases. Using this, the control device of the image forming apparatus 1 is configured to display a warning so as to prompt the user or the like to clean the charging wire 41 when the current value of the charging wire 41 falls below a predetermined reference value. . When the user confirms this warning display, the maintenance cover of the image forming apparatus 1 is opened, the rod member 6 of the drum cartridge 2 is pushed and pulled, and the charging wire 41 is cleaned.

When the charging wire 41 is properly cleaned, that is, when the entire effective discharge region L of the charging wire 41 is cleaned, the cleaning member 7 is charged by the detection means of the first to fourth embodiments. It is detected that the front end portion P2 of the effective discharge region L of the wire 41 has been reached once, and the warning display is released. On the other hand, when the charging wire 41 is not properly cleaned, that is, when only a part of the effective discharge region L of the charging wire 41 is cleaned, the cleaning member 7 is moved by the detection means during the cleaning operation. Since it has never been detected that the front end P2 has been reached, the warning display is not canceled.
Thus, when the detection means detects that the cleaning member 7 has reached the front end P2 of the effective discharge region L of the charging wire 41, the warning display is canceled, and when the detection is not detected, By being configured not to cancel the warning display, it is possible to prompt the user to perform reliable cleaning.

  Further, the means for prompting cleaning of the charging wire 41 is provided with a timer for measuring the elapsed time from the previous cleaning in the control device of the image forming apparatus 1, and when the timer detects that a predetermined time has elapsed, A configuration may be adopted in which a warning display that prompts the user or the like to perform cleaning is displayed on the display unit of the image forming apparatus 1.

The left view which showed the whole structure of the 1st Example of the charging device. The left view which showed the whole structure of the 1st Example of the charging device of the state in which the cleaning member was located in the near side edge part of the effective discharge area | region of a charging wire. The left view which showed the 1st Example of the detection means. The left view which showed the whole structure of the 2nd Example of the charging device. The left view which showed the whole structure of the 2nd Example of the charging device of the state in which the cleaning member was located in the near side edge part of the effective discharge area | region of a charging wire. The perspective view which showed the light reflection surface and the transparent member cleaning part. The left view which showed the whole structure of the 3rd Example of the charging device. The left view which showed the whole structure of the 3rd Example of the charging device of the state in which the cleaning member was located in the near side edge part of the effective discharge area | region of a charging wire. The left view which showed the 3rd Example of the detection means. The front view which showed the 3rd Example of the detection means. The left view which showed the whole structure of 4th Example of a charging device. The left view which showed the whole structure of 4th Example of the charging device of the state in which the cleaning member was located in the near side edge part of the effective discharge area | region of a charging wire. The left view which showed 4th Example of the detection means. The front view which showed the 4th Example of the detection means.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 * 101 * 201 * 301 Image forming apparatus 3 Photosensitive drum 4 * 104 * 204 * 304 Charging apparatus 5 Drum casing 6 Rod member 6a Operation lever 7 Cleaning member 9a First vertical member 8 Microswitch 11, 111, 211, 311 Drum Support frame 12 Light reflecting surface 13 Light reflecting sensor 14 Transparent member 15 Transparent portion cleaning member 18 Magnet 21/27 Detector 22/28 Action member 26 Light transmission sensor 41 Charging wire L Effective discharge area P0 Standby position P1 Back end Part P2 Front end

Claims (2)

A charging wire for charging the surface of the photosensitive drum by corona discharge;
A frame on which the charging wire is stretched;
A rod member supported by the frame movably along the longitudinal direction of the charging wire;
A cleaning member supported by one end of the rod member and abutting against the charging wire;
An operation lever that is fixed to the other end of the rod member and protrudes to the outside of the frame;
With
A charging device of an image forming apparatus that cleans the charging wire by moving the cleaning member along the charging wire by pushing and pulling the rod member with respect to the frame by operating the operation lever. And
When the rod member is maximally pushed into the frame, the cleaning member is in a position pushed deeper than the effective discharge region in the longitudinal direction of the charging wire, and
When the rod member is pulled out from within the frame, the cleaning member includes detection means for detecting whether or not the cleaning member has reached the end of the effective discharge region via the effective discharge region.
A charging device. The detection means includes
A detected member provided on the rod member;
A contact-type detector that detects the cleaning member by the presence or absence of contact with the detected member;
Comprising
The charging device according to claim 1.

Images