JP4070400B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus such as a copying machine, a facsimile machine, a printer, and the like. Specifically, by taking in toner into the developer by the movement of the developer, the toner density can be adjusted without requiring toner density detecting means. The present invention relates to an image forming apparatus using a controllable developing device.
[0002]
[Prior art]
Conventionally, in a developing device that performs development using a two-component developer containing toner and a carrier, the toner is taken into the developer from the toner replenishing port of the toner container by the movement of the developer carried on the developer carrying member, A developing device capable of self-controlling the toner density is known (see JP-A-9-197833). In the developing device having such a toner concentration self-control system, an appropriate amount of toner corresponding to the toner concentration can be taken in from the toner replenishment port by its own movement with respect to the developer carried on the developer carrier. The toner density sensor is not necessary, and the toner replenishing device can be simplified. Furthermore, compared with the conventional two-component development system, the number of magnetic carriers is reduced, and the torque of the apparatus can be greatly reduced. From these facts, it is possible to simplify the means for detecting and adjusting the mixing ratio of toner and magnetic carrier, and to omit stirring members such as paddles and screws, and to reduce the size and cost of the apparatus. There is.
[0003]
FIG. 12 shows an example of a developing device having the toner density self-control system. In this developing device, a developing sleeve 14 as a developing carrier containing a fixed magnet group as a magnetic field generating means, a doctor 16 as a regulating member for regulating the amount of developer, and an upstream of the rotating direction of the doctor 16. On the side, a developer accommodating case 17 for accommodating the developer blocked by the doctor 16, a toner hopper 19 as a toner accommodating portion for accommodating the toner 13a, and the like are provided. In the developer accommodating case 17, a reverse roller 25 is provided as a developer peeling member for promoting replacement and mixing of the developer on the developing sleeve 14 and the developer in the developer accommodating case 17. . The toner hopper 19 has a toner replenishing port 19 a facing the developing sleeve 14 on the upstream side of the developing sleeve 14 in the developer conveying direction with respect to the doctor 16. In the toner hopper 19, a toner agitator 20 is provided as a toner delivery member that supplies toner toward the toner supply port. Further, a predoctor 17 a is provided as a regulating member on the toner replenishing side that regulates the amount of the developer that is replenished with toner from the toner hopper 19 and proceeds toward the developer containing case 17.
[0004]
In this developing device, the toner in the developer is consumed with the development. If the amount of toner taken from the toner replenishing port 19a exceeds the amount consumed, the developer that has taken in the toner from the toner replenishing port 19a. The amount of restriction by the predoctor 17a increases due to an increase in its own bulk. As a result, a developer pool is formed from the pre-doctor 17a to the casing part below the developing sleeve 14, and the amount of toner taken into the developer on the developing sleeve 14 is reduced. When the amount of regulation by the pre-doctor 17a further increases and the developer stays in the vicinity of the toner replenishing port, the toner is stopped from being taken into the developer and reaches a stable toner concentration at which the toner concentration is stabilized. When the toner is consumed by development and the toner concentration of the developer decreases, the volume of the developer decreases, the amount of toner taken into the developer from the toner supply port 19a gradually increases, and the toner concentration of the developer increases. Come to come.
[0005]
[Problems to be solved by the invention]
However, in the developing device configured as described above, the developer stays only in the developer accommodating case 17 immediately after the developer in which the toner and the carrier are mixed at a predetermined ratio is put into the developer accommodating case 17. Thereafter, the toner is carried on the developing sleeve 14 by the rotation of the developing sleeve 14 during the initial driving when the apparatus is driven for the first time. When the developing sleeve 14 rotates, the surface of the developing sleeve 14 successively moves to a position in contact with and facing the developer in the developer accommodating case 17, and the entire surface of the developing sleeve 14 has passed through the developer accommodating case. In other words, the developer is dispersed over the entire surface of the developing sleeve 14. For this reason, when the developing sleeve 14 is driven immediately after the developer is fed, since the developer pool is not formed, the amount of toner taken in increases. When development is started in this state, the toner density in the image rises abnormally and forms. There is a problem in that abnormal images such as background stains and toner scattering occur in the printed image. Further, in the apparatus provided with the toner agitator 20, the toner is directly fed into the developing sleeve 14 in which the developer is not dispersed, and the abnormal image becomes more noticeable.
[0006]
The present invention has been made in view of the above background, and an object of the present invention is to detect abnormal images such as scumming and toner scattering that occur in an image during image formation (hereinafter referred to as initial image formation) that is performed for the first time after adding a developer. It is an object of the present invention to provide an image forming apparatus capable of preventing the above-described problem.
[0007]
[Means for Solving the Problems]
To achieve the above object, an image forming apparatus according to claim 1 includes an image carrier, latent image forming means for forming a latent image on the image carrier, and developing the latent image on the image carrier to develop a toner. A developing means for forming an image, and as the developing means, a developer carrying member that carries a developer containing toner and a magnetic carrier by a magnetic force generated by the magnetic field generating means and moves endlessly in a predetermined direction, and the development Supported on the agent carrier To the developing position facing the image carrier. A developer regulating member that regulates the layer thickness of the developer; A developer containing case that forms a developer containing portion in which the developer that has been prevented from proceeding to the developing position by the developer regulating member is retained; Contains toner inside, The developer container than the above A toner container having a toner replenishing port facing the developer carrier on the upstream side in a predetermined direction; The developer layer on the developer carrying member that passes through the developing position and returns to the developer containing portion is regulated, and the developer that has been prevented from proceeding to the developer containing portion is removed from the toner supply port. A pre-developer regulating member to be retained in An image forming apparatus using a developing device that takes in toner into the developer from the toner replenishing port by movement of the developer carried on the developer carrying member. Developer storage case Before image formation for the first time after adding developer to The toner in the developer container is dispersed by the endless movement, and the toner on the developer carrier that has passed through the development position is started to take in toner from the toner supply port. After the concentration increases and the developer reservoir retained in the toner supply port by the pre-developer regulating member covers the toner supply port In addition, an image pattern for toner consumption is formed on the image carrier for toner consumption.
[0008]
Here, the following timing may be considered when image formation is performed for the first time after the developer is charged into the developing device. For example, in a configuration having a developer accommodating portion that accommodates the developer scraped off by the developer regulating member, when a new developing unit is used, the developer is accommodated in a preset case in order to prevent developer leakage due to transportation. In the case of a developing device configured to be placed on the upper part of the developer container, after removing the blocking member between the preset case and the developer container and putting the developer into the developer container, and It is conceivable that the latent image formed on the image carrier is developed by the developer supplied to the surface of the developer carrier.
[0009]
In the image forming apparatus of claim 1, prior to the initial image formation, The toner replenishing port is connected to the developer on the developer carrier that has passed through the developing position after the developer has been dispersed and the developer in the developer accommodating portion has been dispersed by the endless movement before the first image formation. After toner acquisition from A toner consumption image pattern is formed on the image bearing member, and the toner is removed by transferring the toner consumption image pattern onto the transfer paper by removing the toner with a photoconductor cleaning device without performing transfer to the transfer paper. Force consumption. Thus, it is possible to prevent the initial image formation from being performed with the developer having an abnormally increased toner concentration, and to prevent an abnormal increase in the toner concentration occurring in the image due to the initial image formation.
[0010]
According to a second aspect of the present invention, there is provided the image forming apparatus according to the first aspect, wherein a toner consumption image pattern is formed on the image carrier for the toner consumption after a predetermined time has elapsed after the start of the initial driving of the developing device. It is characterized by what is done.
[0011]
Here, after the start of the initial driving is performed to start up the developing device to a state where development can be performed, such as loading the developer on the developer bearing member. There are various types of driving including rotational driving.
[0012]
According to another aspect of the image forming apparatus of the present invention, a toner consumption pattern is formed after the toner is sufficiently supplied onto the developer carrying member by the initial driving of the developing device, and sufficient toner is placed on the developer carrying member. The toner is not excessively consumed by the formation of the toner consumption pattern before being supplied. If a toner consumption pattern is formed while the toner on the developer carrier is insufficient, the supply of toner cannot catch up with the amount of toner consumed, and the image due to the initial image formation thereafter is excessively lowered or the carrier is exposed to light. There is a risk of problems such as abnormal images such as the toner adhering directly to the body and the toner adhering to the carrier adhering part and its surroundings in the halftone image and the like, and the carrier adhering directly to the surface of the transfer material. However, in the present invention, the occurrence of such abnormal images and carrier adhesion is also prevented.
[0013]
According to a third aspect of the present invention, there is provided the image forming apparatus according to the second aspect, further comprising a toner delivery member that sends the toner from the toner supply port toward the developer while stirring the toner in the toner storage unit. The toner consumption image pattern formation on the image carrier for toner consumption is started after the toner delivery is started.
[0014]
Here, the toner delivery by the toner delivery member is started when, for example, when the toner delivery member is an agitator having a stirring blade such as a mylar, the agitator rotates and the tip of the mylar reaches the toner supply port. The toner is sent out while passing through the toner supply port.
[0015]
4. The image forming apparatus according to claim 3, wherein the toner in the toner container is surely sent out toward the toner replenishing port by the toner delivery member, and the toner carrying pattern is formed in a state where sufficient toner is carried on the developer carrying member. I do.
[0016]
According to a fourth aspect of the present invention, there is provided the image forming apparatus according to the first, second, or third aspect, wherein the toner delivery member is provided on the rotation shaft and the rotation shaft rotates to remove the toner from the toner supply port. And a feeding member that feeds the toner toward the developer, wherein the rotation speed of the toner feeding member is slower than the rotation speed of the developer carrier.
[0017]
Here, when the rotation speed of the toner delivery member is equal to or higher than the rotation speed of the developer carrying member, the toner delivery member makes one revolution or more before the developer carrying member makes one revolution, and the feeding member is rotated by the rotation shaft. The toner is always supplied from the toner supply port regardless of the position. As a result, an abnormal increase in toner density is more likely to occur.
[0018]
According to another aspect of the image forming apparatus of the present invention, the developer carrying member completes one rotation before the toner delivery member makes one rotation so that a state where the toner is dispersed over the entire surface of the developer carrying member can be obtained. To. As a result, the toner supply from the toner replenishing port that has always occurred when the rotation speed of the toner delivery member is equal to or higher than the rotation speed of the developer carrier is not necessarily generated.
[0019]
An image forming apparatus according to a fifth aspect is the image forming apparatus according to the first, second, third, or fourth aspect, further comprising an image carrier cleaning member that removes transfer residual toner on the surface of the image carrier. The toner consumption image pattern formed on the image carrier is removed by the image carrier cleaning member without being transferred to a transfer material, and the toner consumption image pattern is intermittently formed on the image carrier. It is characterized by comprising a plurality of formed images.
[0020]
According to the fifth aspect of the present invention, a toner consuming image pattern is formed from a plurality of intermittent image portions, and the toner consuming image pattern is removed by the image carrier cleaning member to consume the toner. The image carrier cleaning member removes the image with a small area more than once, because the cleaning effect is restored when the image is interrupted more reliably than the image with a large area is continuously removed. Can do.
[0021]
An image forming apparatus according to a sixth aspect is the image forming apparatus according to the fifth aspect, compared with the toner adhesion amount in one image portion of the post-formed image portion formed later from among the respective image portions in the plurality of images. The toner adhesion amount in one image portion of the pre-formed image portion formed before the post-formed image portion is reduced.
[0022]
Since the developer immediately after charging has a low charge amount, the charge amount of the toner constituting the image pattern for toner consumption is also low, and the toner on the image carrier is scattered on the proximity member provided in the vicinity of the periphery of the image carrier. There is a problem that it is easy to do.
[0023]
7. The image forming apparatus according to claim 6, wherein a toner adhesion amount of a pre-formed image portion formed at a fast stage among a plurality of images is larger than a toner adhesion amount of a post-formed image portion formed after the charge amount of the developer is increased. To reduce toner scattering caused by insufficient charging.
[0027]
Claims 7 The image forming apparatus according to claim 1, 2, 3, 4, 5. Or 6 The image forming apparatus includes a contact transfer member that contacts and faces the surface of the image carrier and forms a transfer nip portion for transferring a toner image on the image carrier to a transfer target by a transfer bias. Thus, when the image pattern for toner consumption passes through the transfer nip portion between the image carrier and the contact transfer member, the transfer bias is turned off.
[0028]
Claim 7 In this image forming apparatus, when the image pattern for toner consumption is carried on the surface of the image carrier and passed through the transfer nip portion, the transfer bias is turned off and the toner for forming the image pattern is contact-transferred by the transfer bias. Prevents transfer and adhesion to the member side.
[0029]
Claims 8 The image forming apparatus of claim 1, 2, 3, 4, 5, 6. Or 7 The image forming apparatus includes a contact transfer member that contacts and faces the surface of the image carrier and forms a transfer nip portion for transferring a toner image on the image carrier to a transfer target by a transfer bias. In addition, a contact transfer member cleaning means for cleaning the contact transfer member is provided.
[0030]
Claim 8 In this image forming apparatus, after the toner consumption image pattern passes through the transfer nip portion, the toner or the like attached to the contact transfer member is removed by the contact transfer member cleaning unit.
[0031]
Claims 9 The image forming apparatus of claim 8 In the image forming apparatus, the cleaning by the contact transfer member cleaning unit is executed after all the toner consumption image patterns have passed through the transfer nip portion.
[0032]
Claim 9 In this image forming apparatus, the contact transfer member is cleaned after the toner consumption image pattern has completely passed through the transfer nip portion, and the toner adhering to the toner consumption image pattern is reliably removed.
[0033]
Claim 1 0 The image forming apparatus of claim 8 Or 9 In this image forming apparatus, the contact transfer member cleaning means is constituted by a toner return means for returning the toner adhering to the contact transfer member to the surface of the image carrier again.
[0034]
Claim 1 0 In this image forming apparatus, the toner adhering to the contact transfer member is returned to the surface of the image carrier by the toner returning means, so that the contact transfer member is more reliably cleaned.
[0035]
Claim 1 1 The image forming apparatus of claim 1, 2, 3, 4, 5, 6, 7, 8, 9. Or 10 In the moving direction of the surface of the image carrier, in the image forming apparatus, downstream of the image pattern forming position for toner consumption on the image carrier and upstream of the position of removing the image pattern for toner consumption from the image carrier. In addition to the transfer member provided to transfer a normal image from the surface of the image carrier to the transfer target, there is a contact member that contacts the surface of the image carrier. Shi The image portion of the image pattern for toner consumption is formed on the surface of the image carrier excluding the contact position of the contact member.
[0036]
Claim 1 1 In the image forming apparatus, when there is a contact member that contacts the surface of the image carrier other than the contact transfer member (for example, a separation claw of the transfer paper), the contact member is excluded from the surface contact position of the image carrier. An image portion of a toner consumption image pattern is formed.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments 1 to 3 in which the present invention is applied to an electrophotographic copying machine (hereinafter referred to as a printer) as an image forming apparatus will be described below.
Embodiment 1
First, the configuration and operation of the entire printer according to the first embodiment will be described. FIG. 1 is a schematic configuration diagram of the entire printer. FIG. 2 is a schematic configuration diagram illustrating a configuration of the process cartridge 11 configured to be detachable from the printer main body. In FIG. 1, the peripheral surface of the photoreceptor 1 as a latent image carrier is rotated positively or negatively by the charging device 2 while being driven to rotate at a predetermined peripheral speed (in this embodiment, the linear speed is 120 mm / sec). After being uniformly charged to a predetermined potential, the image exposure apparatus 3 such as slit exposure or laser beam scanning exposure performs scanning exposure processing based on image information to form an electrostatic latent image. The electrostatic latent image formed on the photoreceptor 1 is developed by the developing device 4 to become a toner image. The toner image formed on the photosensitive member 1 passes from the sheet feeding cassette 5 to the registration roller 6 and the conveyance guide plate 7 and passes between the photosensitive member 1 and the transfer roller 8 as a contact transfer member. The image is transferred by a transfer roller 8 onto a transfer material serving as a transfer target fed in synchronization with the rotation. The transfer material onto which the toner image has been transferred in this manner is separated from the peripheral surface of the photoreceptor 1 and sent to the image fixing device 9, where the toner image is fixed and then copied as a copy (copy). It is discharged out of the device. The surface on the photoreceptor 1 after image transfer is recovered by removing the transfer residual toner 13a by the cleaning blade 10a that is in contact with the rotation direction of the photoreceptor 1 of the cleaning device 10 from the counter direction. Is cleaned and is neutralized by a neutralizing device (not shown) and used for the next image formation.
[0038]
As shown in FIGS. 1 and 2, the constituent elements of the photosensitive member 1, the charging device 2, the developing device 4, and the cleaning device 10 described above can be attached to and detached from the printer body as an integrally formed process cartridge 11. It is supported.
[0039]
Next, the developing device 4 will be described. FIG. 3A is a cross-sectional view illustrating a schematic configuration of the developing device 4 in an initial state. FIG. 3B is a cross-sectional view showing a schematic configuration of the developing device 4 in the actual use state. The developing device 4 is disposed on the side of the photosensitive member 1 and has a casing 12 as a developing container in which an opening is formed toward the photosensitive member 1. A part of the casing 12 is exposed from the opening, and the toner 13 a and magnetic material are exposed. A developing sleeve 14 made of a non-magnetic material as a developer carrying member for carrying a two-component developer (hereinafter referred to as “developer”) 13 including a carrier, and a magnetic field generated fixedly disposed inside the developing sleeve 14 As a means, a magnet roller 15 composed of a fixed magnet group is provided.
[0040]
In addition, above the developing sleeve 14, a developer 16 as a developer regulating member that regulates the amount of the developer 13 that is carried and conveyed on the developing sleeve 14, and the developing that is a facing portion of the photosensitive member 1. A developer accommodating case 17 for accommodating the developer 13 whose progress to the position is blocked by the doctor 16 is provided. The developer accommodating case 17 forms a developer accommodating portion 18 in which the developer 13 blocked by the doctor 16 from staying at the developing position, which is a portion facing the photoreceptor 1, is retained between the developing sleeve 14 and the developing sleeve 14. is doing. Further, a tip portion of the developer accommodating case 17 facing the developing sleeve 14 is a predoctor 17 a that regulates the amount of the developer 13 that tends to advance toward the inside of the developer accommodating portion 18. The predoctor 17a is set at a distance from the developing sleeve 14 so as to regulate the increase in the developer 13 when the layer thickness of the developer 13 on the developing sleeve 14 increases. The magnet roller 15 has a magnetic pole of the same polarity between the main pole formed facing the developing position and the position facing the pre-doctor 17a so that the magnetic force of the magnetic field reaches the developer accommodating portion 18. Magnetic poles are formed so that there are two. Further, similarly to the general developing device 4, the magnet roller 15 is provided with a conveyance magnetic pole so that it can be conveyed while continuing to carry the developer 13 on the developing sleeve 14.
[0041]
In addition, a part of the casing 12 forms a toner hopper 19 as a toner accommodating portion that accommodates the toner 13a. The toner hopper 19 is adjacent to the upstream side of the developer storage case 17 in the developer transport direction on the developing sleeve 14 and has a toner supply port 19 a at a position facing the surface of the developing sleeve 14. The toner replenishing port 19 a is formed in a space between the predoctor 17 a and the protruding portion 12 a formed at a part of the bottom of the casing 12. The protrusion 12a is formed with a predetermined length so as to incline downward from the toner hopper 19 side toward the developing sleeve 14 side. Further, a toner agitator 20 serving as a toner delivery member for delivering the toner 13a while stirring toward the toner supply port 19a is disposed inside the toner hopper 19. The toner 13a is a rotating shaft 20a, and a blade as a feeding member that is provided on the rotating shaft 20a and that feeds the toner 13a from the toner replenishing port 19a toward the developer side while being agitated by the clockwise rotation of the rotating shaft 20a. Part 20b.
[0042]
Above the developer accommodating case 17 and the toner hopper 19, an input developer accommodating portion 21 for accommodating the developer 13 and the toner 13a in a sealed state in an initial state, and an input toner accommodating portion 22 are provided. And are provided. The charging developer storage unit 21 stores the developer 13 to be input to the developer storage case 17, and the charging toner storage unit 22 stores the toner 13 a to be input to the toner hopper 19. As the developer 13, a two-component developer 13 comprising a magnetic toner 13a having a volume average particle diameter of 7.5 μm and a magnetic carrier made of magnetite having an average particle diameter of 50 μm was used. As shown in FIG. 3A, in the initial state, the developer 13 is accommodated in the input developer accommodating portion 21, and the toner 13 a is accommodated in the input toner accommodating portion 22, and is sealed by the seal member 23. The developer 13 and the toner 13a are prevented from leaking from the opening portion of the casing 12 due to vibration and inclination during conveyance. 3B, when the seal member 23 is pulled out during actual use, the developer 13 is stored in the developer storage case 17 from the input developer storage portion 21 and the toner 13a is stored in the input toner. The toner is dropped and fed into the toner hopper 19 from the portion 22. The developer 13 accommodated in the loading developer accommodating portion 21 contains toner 13a in advance so as to have a predetermined toner concentration.
[0043]
Further, in order to effectively perform the circulating operation of the developer 13 in the developer retaining portion, the developing device 4 is rotated in the same direction as the developing sleeve 14 by a variable driving means (not shown) in the developer retaining portion. A reverse roller 25 as a driving cylindrical peeling member is disposed in a state of maintaining a certain gap from the developing sleeve 14. And in the opposing part of the developing sleeve 14 and the reverse roller 25, the surface has moved so that it may become reverse direction mutually. The reverse roller 25 is a magnetic roller having a diameter of 7 mm, and the rotation speed during development corresponds to a linear speed of 260 mm / sec. The diameter of the developing sleeve 14 was 16 mm, and the linear velocity was set to 300 mm / sec.
The reverse roller 25 may be cylindrical or columnar. For the reverse roller 25, for example, a magnetic member having an iron core plated with nickel can be used.
[0044]
In the developing device 4 configured as described above, the developer 13 on the developing sleeve 14 is transported as the developing sleeve 14 rotates in the counterclockwise direction (arrow A direction in the figure), and is regulated by the doctor 16 to be a thin layer. It becomes. The thinned developer 13 is conveyed to a developing position facing the photoreceptor 1 rotating in the arrow B direction. At this development position, the toner 13a is supplied to the electrostatic latent image formed on the photoreceptor 1, and the electrostatic latent image is visualized. The developer 13 on the developing sleeve 14 that has passed through the developing position is further conveyed as the developing sleeve 14 rotates, and is sent out by the agitator 20 through the toner supply port 19a and stays in contact with the developer containing portion 18. The new toner 13 a is taken in at the contact portion between the toner 13 a and the developer 13 in the developer container 18, and then returns to the developer container 18. The internal pressure of the developer 13 containing the new toner 13 a increases at the restriction portion by the doctor 16. In the developer 13 whose internal pressure has increased, the toner 13a is charged by the magnetic carrier. As described above, the toner 13a in the developer 13 on the developing sleeve 14 can be charged by the internal pressure of the developer 13 in the developer accommodating portion 18, so that the developer 13 such as a paddle or screw is charged or stirred. Therefore, a complicated agitation transport mechanism is not required. Further, the reverse roller 25 facilitates replacement and mixing of the developer 13 on the developing sleeve 14 and the developer 13 in the developer accommodating portion.
[0045]
On the other hand, a part of the developer 13 that is not supplied to the developing position and is prevented from proceeding by the doctor 16 is brought into the toner replenishing port 19a of the toner hopper 19 by the internal pressure and gravity of the developer 13 itself in the developer accommodating portion 18. Move towards. The developer 13 that has moved to the vicinity of the toner supply port 19 a is conveyed so as to circulate toward the doctor 16 as the developing sleeve 14 rotates.
[0046]
Further, in the developing device 4 having the above-described configuration, when the toner 13a replenished to the developer 13 increases and the toner density increases, the bulk of the developer 13 increases accordingly. And covers the opening of the toner supply port 19a. For this reason, the amount of toner taken into the developer 13 on the developing sleeve 14 is reduced. Due to the reduction in the toner intake amount, the toner density of the developer 13 is always kept below a certain density. On the contrary, when the toner concentration of the developer 13 is lowered, the volume of the developer 13 is reduced, so that the developer 13 does not block the toner replenishing port 19a, so that a predetermined amount of toner 13a is supplied to the developer 13 on the developing sleeve 14. Is taken in, and the toner density of the developer 13 is always kept at a certain density or higher. Thus, since the toner density can be controlled within a substantially constant range, the toner density sensor, an optical image density sensor for detecting the image density of the reference toner image formed on the photoreceptor 1 in order to know the developing ability of the developer, A complicated toner density control mechanism using a toner replenishing member or the like becomes unnecessary.
[0047]
FIG. 4 is a main part control block diagram of the printer configured as described above. In this printer, a control signal from the CPU 50 is sent to the drive control unit 51 and the high voltage control unit 53 of each device to control the power supply to each drive device 52 and ON / OFF of the bias, and the image forming unit 54. Or the applied bias value is controlled.
[0048]
Next, an embodiment corresponding to the present invention will be described using the printer having the above configuration.
<Example 1>
In the first embodiment, the developer 13 is dropped from the charging developer accommodating portion 21 into the developer accommodating case 17 and the toner 13a is dropped from the charging toner accommodating portion 22 into the toner hopper (hereinafter referred to as the toner hopper). Before the first image formation after the initial state, the toner consumption image pattern is formed to forcibly consume the toner 13a.
A specific apparatus configuration when the toner consumption image pattern is formed is as follows.
The developing gap (Gp) between the photosensitive member 1 and the developing sleeve 14 in the developing unit is 0.4 mm, the doctor 16 gap (Gd) between the doctor 16 and the developing sleeve 14 is also 0.4 mm, and the predoctor 17a and the developing are developed. The predoctor gap (Gpd) between the sleeve 14 and the sleeve 14 was 1.0 mm. In addition, the gap at the peeling portion between the reverse roller 25 and the developing sleeve 14 was set to 0.3 mm.
[0049]
The image pattern for toner consumption can be formed by making the developing device 4 perform negative-positive development and applying only the developing bias without charging the photoreceptor 1. Further, after the photosensitive member 1 is charged, a latent image (hereinafter referred to as a consumption pattern latent image S) that becomes a toner consumption image pattern (hereinafter referred to as a consumption pattern T) is formed by exposure. You may make it develop. With either method, the toner 13a in the developing sleeve 14 and the developer retaining portion can be forcibly consumed.
[0050]
FIG. 5 is a timing chart illustrating the timing of toner consumption image pattern formation according to the first embodiment. In the first embodiment, as shown in FIG. 5, the timing of driving the developing device 4, applying the developing bias, and driving the developing roller is controlled by the CPU 50. First, after the developing device 4 is in an initial state, driving of the developing device 4 is started (driving ON), and in synchronization with this, rotation of the developing sleeve 14 is started (developing sleeve 14 ON). Start the initial drive. Then, after a certain period of time has elapsed, the application of the development bias is started (development bias ON).
[0051]
When a certain period of time has elapsed after the start of the initial drive of the developing device 4, the developing roller rotates so that the surface of the developing roller moves one after another to a position facing the developer 13 in the developer retaining portion, and the developer is transferred to the surface of the developing roller. 13 is dispersed. Also, the toner 13a starts to be taken into the developer, and the toner density increases. Then, after the toner density becomes high, a consumption pattern T is formed on the photoreceptor 1 to forcibly consume the toner 13a.
[0052]
In the developing device 4 having a self-toner density control mechanism, the toner 13a is fed directly to the surface of the developing sleeve 14 at the start of initial driving immediately after the developer is added, or the bulk of the developer 13 near the predoctor 17a is insufficient. In addition, the regulated amount of the toner replenishment amount is insufficient and the toner density increases abnormally, resulting in a defect in the formed image. In this embodiment, when the developing device 4 in the initial state is used, it is possible to forcibly consume toner by forming a consumption pattern before normal image formation, thereby preventing an abnormal increase in toner density. I am doing so.
[0053]
Further, since the consumption pattern T is formed after a predetermined time has elapsed after the start of the initial driving, the toner concentration is lowered by performing toner consumption before the developer 13 is dispersed on the developing sleeve 14. Never too much.
[0054]
<Example 2>
Next, another example 2 using the printer of the first embodiment will be described.
FIG. 6 is a timing chart of toner consumption image pattern formation according to the second embodiment. The difference from the first embodiment is that the consumption pattern formation is started after the toner agitator 20 has rotated at least once.
In this embodiment, the rotational speed of the agitator 20 is 20 rpm. At this time, the time t1 from the start of rotation of the agitator 20 (agitator 20 ON) to the start of development bias application (development bias ON) is set to 3 seconds or more so that the agitator 20 makes one rotation or more. .
[0055]
By controlling the development bias application start timing as described above, the consumption pattern T can be formed after the agitator 20 has reliably rotated one or more times. As a result, the toner 13a can be consumed after the toner 13a has been reliably fed by the agitator 20, and the toner can be consumed in a state where a sufficient amount of toner 13a is carried on the developing sleeve 14. Accordingly, there is no possibility that an abnormal image such as an excessive decrease in image density or white spots due to excessive consumption of the toner 13a, carrier adhesion to the photosensitive member 1 and the transfer material, or the like occurs.
[0056]
In the first and second embodiments, the rotation speed of the developing sleeve 14 is 330 rpm, and the rotation speed of the toner agitator 20 is faster than 20 rpm. Thus, the respective rotation speeds are set so that the developing sleeve 14 makes one rotation or more before the toner agitator 20 makes one rotation. Thus, the developer 13 can be dispersed throughout the developing sleeve 14 before the toner agitator 20 makes one rotation, and the toner 13a can be hardly supplied directly to the surface of the developing sleeve 14.
[0057]
[Embodiment 2]
Embodiment 2 will be described below. Since the basic configuration of this printer is the same as that of the first embodiment, a description thereof will be omitted, and differences from the first embodiment and points that require special regulation will be described.
In the normal image formation of this printer, the potentials of the photosensitive member 1 charged by the charging device 2 are -900V, the potential of the exposed portion of the latent image formed by the laser beam irradiated by the image exposure device 3 is -150V, and the developing bias- 700V. Further, the developing gap (Gp) between the photosensitive member 1 and the developing sleeve 14 in the developing unit is 0.35 mm, the doctor 16 gap (Gd) between the doctor 16 and the developing sleeve 14 is 0.34 mm, and the predoctor 17a. And the developing sleeve 14 have a predoctor gap (Gpd) of 1.0 mm. Further, the gap at the peeling portion between the reverse roller 25 and the developing sleeve 14 was set to 0.4 mm.
[0058]
Examples 3 and 4 using the printer of the second embodiment will be described below.
<Example 3>
In the third embodiment, the consumption pattern T is constituted by a plurality of intermittent image portions t1.
FIG. 7 is a timing chart of the consumption pattern formation according to the third embodiment. Each potential at the time of forming the consumption pattern differs from each potential at the time of normal image formation, and is set to the photosensitive member 1 charging potential −500 V, the exposure portion potential −100 V, and the developing bias −400 V. First, the main motor is turned on to start driving the agitator 20, the developing sleeve 14, the photosensitive member 1 and the like, and the photosensitive member 1 is charged for forming a consumption pattern. After a predetermined time has elapsed, 15 sets of consumption pattern latent images S are formed on the photoreceptor 1 with 2 seconds ON and 2 seconds OFF as one set. Further, the developing bias is turned ON, and the consumption pattern latent image S is developed. As a result, a consumption pattern T for toner consumption is formed on the photosensitive member 1 as a pattern in which 15 intermittent image portions t1 appear at equal intervals.
The consumption pattern T is collected in the cleaning device 10 by sequentially removing the image portions t1 by the cleaning blade 10a.
[0059]
Since the image of the consumption pattern T is divided into a plurality of images as in the third embodiment, the toner 13a is excessively applied to the cleaning blade 10a that is generated when one large consumption pattern T is removed by the cleaning blade 10a. Accumulation can be prevented, and the cleaning effect can be restored each time an image is interrupted. Thereby, it is possible to prevent the toner 13a passing through the gap formed by the toner 13a accumulated on the cleaning blade 10a from being generated, and to remove the toner 13a that forms the consumption pattern T more reliably.
[0060]
By the way, during the initial driving after the developer 13 is charged, the toner 13a in the developer is not sufficiently charged, and the charge amount increases with stirring.
FIG. 8 is a diagram illustrating a change in the toner charge amount with respect to the developer stirring time due to the rotation of the developing sleeve 14 in the configuration having the same self-toner density control mechanism as that of the present embodiment. As shown in this figure, the amount of charge of the toner 13a is insufficient during initial driving. When development is performed in this state, the toner 13a adhering to the photosensitive member 1 is peeled off with the rotation of the photosensitive member 1, and the toner scatters. Will occur. The same applies to the case of forming an image for toner consumption.
When the toner scatters, the conveyance guide plate 7 provided on the upstream side of the transfer nip is contaminated with the scatter toner 13a, and the transfer paper guided by the conveyance guide plate during normal image formation is contaminated. After the developing sleeve 14 is driven for a certain time (after about 20 seconds in FIG. 8), the charge amount is sufficient, and even if a large amount of toner 13a is carried on the photoreceptor 1, toner scattering is a problem. There will be no degree.
[0061]
In view of the above, an embodiment for preventing toner scattering when forming the consumption pattern T will be described.
[0062]
<Example 4>
In the fourth embodiment, similarly to the third embodiment, the consumption pattern T is constituted by a plurality of intermittent image portions t1. However, in this embodiment, from the beginning of the 15 sets of consumption patterns T to 1 to 5 sets (hereinafter referred to as the first half of the consumption pattern T), the toner consumption amount in one image is the sixth and subsequent sets ( Hereinafter, it is less than the latter half of the consumption pattern T).
[0063]
FIG. 9 is a timing chart of the consumption pattern formation according to the fourth embodiment. In this figure, the timing of forming the consumption pattern is the same as that in the third embodiment, but the charging potential of the photosensitive member 1 and the developing bias are switched between the first half and the second half of the consumption pattern T.
Specifically, in the first half of the consumption pattern T, the photosensitive member 1 charging potential is −300 V and the developing bias is −200 V, and in the second half, the photosensitive member 1 charging potential is −500 V and the developing bias is −400 V. Further, the exposure portion potential is set to -100V in both cases.
[0064]
When the charging potential of the photosensitive member 1 and the developing bias are switched as described above, the amount of toner adhering to the photosensitive member 1 in the image portion, that is, the pre-formed image portion up to 20 seconds after the start of consumption pattern formation is small and exceeds 20 seconds. In other words, the amount of toner attached to the photoreceptor 1 increases in the post-formed image portion. Therefore, the toner adhering to the photoreceptor 1 that causes toner scattering can be reduced until the charge amount of the toner 13a is sufficiently increased, and toner scattering due to insufficient charging of the toner 13a can be prevented.
[0065]
In Example 4, it is conceivable that the toner adhesion amount on the photosensitive member 1 is reduced in all the consumption patterns T to prevent toner scattering. In this case, in order to reduce the toner density to a desired density, it is necessary to increase the number of sets of consumption patterns T, which increases the time loss of the consumption pattern formation and is not practical.
[0066]
By the way, in this printer, there are types in which the configuration of the developing device 4 is the same and only the capacity of the toner hopper is different. For example, the toner capacity is 800 g and the number of printable sheets is 20000 (hereinafter referred to as A type), and the toner capacity is 180 g and the number of printable sheets is 3000 (hereinafter referred to as B type). In these developing devices 4 as well, an abnormal increase in toner density during initial driving occurs, but it has been found that the degree of increase varies depending on the toner capacity.
In the printer of this embodiment, the rate of increase is high for the A type and low for the B type. For this reason, if the consumption pattern T in which an appropriate toner consumption amount is obtained with the A-type device is applied to the B-type device as it is, the toner density will be excessively lowered in the B-type device.
[0067]
Therefore, the conditions for forming the consumption pattern T can be changed as follows in the A-type and B-type apparatuses.
(Type A)
Photoconductor 1 charging potential: -500V
・ Exposure part potential: -100V
・ Development bias -400V
・ Consumption pattern: 1 set of 2 seconds ON / 2 seconds OFF is executed 15 sets
(B type)
Photoconductor 1 charging potential: -500V
・ Exposure part potential: -100V
・ Development bias -400V
・ Consumption pattern: 5 sets of 2 seconds ON / 2 seconds OFF
When the formation conditions of the consumption pattern T are set as described above, the amount of toner consumed by the consumption pattern T in the B type can be reduced as compared to the A type, and the toner density during normal image formation is always maintained. It can be maintained stably and satisfactorily.
[0068]
Here, in the above example, the A and B consumption patterns are formed by changing the number of sets of images constituting the consumption pattern T. In addition to this method, for example, the development bias and the exposure portion potential are used. A method of changing the toner consumption for each set by changing the above is also conceivable. Specifically, the B-type developing bias may be changed from −400 V to −200 V, or the exposure portion potential may be changed from −100 V to −300 V.
[0069]
[Embodiment 3]
The third embodiment will be described below. Since the basic configuration of this printer is the same as that of the first embodiment, the description thereof will be omitted, and only differences from the first embodiment will be described.
The development gap (Gp) of this printer was 0.4 mm, the doctor 16 gap (Gd) was 0.35 mm, and the pre-doctor gap (Gpd) was 1.0 mm. Further, the gap at the peeling portion between the reverse roller 25 and the developing sleeve 14 was set to 0.4 mm.
[0070]
Example 5 performed using the printer of Embodiment 3 will be described below.
<Example 5>
In this embodiment, negative positive development reversal development is performed. Therefore, the charging of the photoconductor 1 is always ON, and the photoconductor 1 charging potential is −1250 V and the developing bias is −250 V.
FIG. 10 is a timing chart of device driving according to the fifth embodiment.
The main motor is turned on (S1), driving of the agitator 20, the developing sleeve 14, the photosensitive member 1 and the like is started, and the photosensitive member 1 is charged for forming a consumption pattern. At this time, the transfer bias application of the transfer roller 8 is turned off.
The developing bias is turned on after a time (189 msec) required for the top of the charged area on the surface of the photoreceptor 1 to reach the developing position, and the exposure by the polygon mirror is turned on after 1 second has elapsed after the main motor is turned on (S2). ). After 1.5 seconds, five sets of consumption pattern latent images S are formed on the photosensitive member 1 with 2 seconds ON and 2 seconds OFF as one set. The formed consumption pattern latent image S is sequentially developed at the development position, and the toner 13a is transferred onto the photoreceptor 1, and after passing through the transfer region, it is cleaned. The time (318 msec) required from the end of formation of the portion corresponding to the last image portion t1 of the consumption pattern latent image S (S3) until the rear end of the image portion t1 finishes passing through the transfer region is the consumption pattern. As the passage waiting time, the transfer bias continues to be maintained in the OFF state. After a lapse of 1 second from S3, the transfer bias is started to be output with -polarity while the rotation of the photoreceptor 1 is continued (S4), and the-(minus) charged toner 13a adhering to the transfer roller 8 is applied to the photoreceptor 1. It is transferred and collected by the cleaning device 10. After the polarity output is performed for 6 seconds, the bias is returned to the FF state, and this time, the transfer bias is started to be output with the + polarity (S5). After a time corresponding to 0.9 rotation of the transfer roller (371 msec) has elapsed, the bias is turned off. When the trailing end of the surface area of the photosensitive drum surface that has passed the + polarity transfer bias application position has finished passing through the charging area (S6), when the charging bias is turned off and further through the developing area (S7), development Turn off the bias.
The charging bias is turned off 1200 msec before the device driving is stopped, and the charging bias is turned off 179 msec after the charging bias is turned off.
In this embodiment, there is an image formation request while the transfer bias is output in the + polarity to the transfer roller 8 and between the time when the charging bias is turned off and the time when the developing bias is turned off. Also, interrupts that do not accept the interrupt are prohibited.
[0071]
When the operation control of the printer is performed as described above, since the transfer bias is turned off when the consumption pattern T passes through the transfer region, whichever toner is charged positively or negatively included in the image pattern. 13a can also be prevented from electrostatically adhering to the transfer roller 8 side.
Even if the transfer bias is turned off, the toner 13 a is slightly transferred to the transfer roller 8 due to the mechanical pressure contact between the photosensitive member 1 and the transfer roller 8. In this embodiment, the toner 13a or the like attached to the transfer roller 8 as a toner return means is returned to the photosensitive member 1 side by sequentially applying a positive polarity and a negative polarity transfer bias, and the transfer roller 8 can be cleaned. .
[0072]
In this embodiment, after the consumption pattern T has completely passed through the transfer nip portion, the transfer roller 8 is sequentially cleaned by transfer bias of + polarity and −polarity. Thus, it is possible to reliably remove the toner 13a and the like attached to the transfer roller 8 through the consumption pattern.
[0073]
Further, in Embodiments 1 to 3 described above, in order to make it easy to separate the transfer paper from the surface of the photoreceptor 1, one in which a separation claw is brought into contact with the surface of the photoreceptor 1 is generally known. Like this separation claw, if there is a contact member on the surface of the photoreceptor 1 downstream of the consumption pattern forming position and upstream of the cleaning portion as the consumption pattern removal position, the surface of the photoreceptor carrying the consumption pattern T is formed. If it passes, the toner 13a may be transferred to the separation claw, and the surface of the photoreceptor 1 or the transfer paper may be soiled. In order to prevent such a problem, the image portion t1 of the consumption pattern T may be formed except for the contact position of the surface of the photoconductor 1 of the separation claw.
[0074]
FIG. 11 is a diagram illustrating a formation example of the image portion t1 of the consumption pattern T. Separation claws are in contact with two axial positions on the surface of the photoreceptor 1. The contact position N of the separation claw is present in the form of two strips in the circumferential direction due to the rotation of the photoreceptor 1. Therefore, the image portion t1 of the consumption pattern T is formed excluding the two strip-shaped regions that are the contact positions, and the two strip-shaped regions are set as non-image portions t2.
[0075]
As described above, if the image portion t1 is not formed at the contact position of the separation claw, it is possible to prevent the surface of the photoreceptor 1 and the transfer paper from being stained.
[0076]
In the first to third embodiments, the toner delivery member using the agitator 20 having two blades has been described. However, the present invention is not limited to this, and the toner 13a is transferred from the toner supply port 19a to the developer 13. Any member may be used as long as it is a member sent out.
[0077]
【The invention's effect】
According to the image forming apparatus of the first aspect, it is possible to prevent an abnormal increase in the toner density generated in the image at the time of initial image formation, and therefore, there is an excellent effect that abnormal images such as scumming and toner scattering can be prevented.
In addition, a toner input section for storing new toner is also provided at the upper part of the toner storage section, and a seal member between the toner input section and the toner storage section is provided in synchronization with the input of the developer into the developing device. Even in the case where the toner is removed and the toner is stored in the toner container, the same effect can be obtained if the toner consumption pattern is formed after the developer is charged and after the toner is charged in the toner container. There is also an excellent effect.
[0078]
According to the image forming apparatus of the second aspect, in the image forming apparatus that forms a pattern for toner consumption in order to prevent an abnormal increase in the toner density generated in the image during the initial image formation, an excessive decrease in the image density, white spots, etc. There is an excellent effect of preventing problems such as abnormal images and carrier adhesion.
[0079]
In particular, according to the image forming apparatus of the third aspect, since the pattern for toner consumption is formed in a state where sufficient toner is carried on the developer carrying member, an abnormal image such as an excessively low image density or white spots, a carrier There is an excellent effect that defects such as adhesion can be prevented more reliably.
[0080]
According to the image forming apparatus of the fourth aspect, since the toner supply by the toner delivery member does not always occur, the toner directly adheres to the surface of the developer carrying member by the arrangement of the feed member on the rotating shaft. Therefore, there is an excellent effect that abnormal images can be prevented more reliably.
[0081]
According to the image forming apparatus of the present invention, the image pattern for toner consumption can be removed more reliably, so that an abnormal increase due to a defective cleaning of the image carrier is prevented in addition to preventing an abnormal increase in toner density due to the initial image formation. There is an excellent effect that an image can also be prevented.
[0082]
According to the image forming apparatus of the sixth aspect, since toner scattering due to insufficient charging can be prevented, abnormalities such as scumming or toner scattering occurring at the time of initial image formation can be prevented without causing contamination of peripheral members such as toner scattering. There is an excellent effect that an image can be prevented.
[0084]
Claim 7 According to this image forming apparatus, it is possible to prevent the toner that forms the toner consumption image pattern from adhering to the contact transfer member due to the transfer bias, and therefore, there is an excellent effect that the contamination of the contact transfer member can be reduced.
[0085]
Claim 8 According to the image forming apparatus, since the toner and the like attached to the contact transfer member can be removed, the contact transfer member can be made clean, and the transfer material such as transfer paper can be actually passed through the transfer nip. When transferring an image, there is an excellent effect that it is possible to prevent dirt from adhering to the back surface of the transfer material.
[0086]
Claim 9 According to this image forming apparatus, since the toner and the like adhering to the toner consumption image pattern passage is reliably removed, the contact transfer member can be more reliably cleaned.
[0087]
Claim 1 0 According to the image forming apparatus, there is an excellent effect that the contact transfer member can be more surely cleaned by the toner returning unit.
Further, if the toner returned to the surface of the image carrier is processed together with the toner consumption image pattern, it is not necessary to provide a special device or member for the processing of the returned toner.
[0088]
Claim 1 1 According to this image forming apparatus, since the image portion of the image pattern for toner consumption is not formed at the contact position on the image carrier surface of the contact member, the toner of the image portion is prevented from being transferred to the contact member and contaminated. There is an excellent effect of being able to.
[Brief description of the drawings]
FIG. 1 is a schematic configuration of an entire printer according to an embodiment.
FIG. 2 is a schematic configuration diagram of a process cartridge configured to be detachable from a printer main body.
FIG. 3A is a cross-sectional view illustrating a schematic configuration of a developing device in an initial state.
(B) is sectional drawing which shows schematic structure of the image development apparatus in an actual use state.
FIG. 4 is a main part control block diagram of the printer according to the first embodiment.
FIG. 5 is a timing chart of toner consumption image pattern formation according to the first embodiment.
FIG. 6 is a timing chart of toner consumption image pattern formation according to the second embodiment.
FIG. 7 is a timing chart of forming a consumption pattern according to the third embodiment.
FIG. 8 is a graph showing a change in toner charge amount with respect to developer agitation time.
FIG. 9 is a timing chart of forming a consumption pattern according to the fourth embodiment.
FIG. 10 is a timing chart of device driving according to the fifth embodiment.
FIG. 11 is a diagram illustrating an example of forming an image portion of a consumption pattern.
FIG. 12 is an explanatory diagram of a conventional developing device having a toner concentration self-control system.
[Explanation of symbols]
1 Photoconductor
2 Charging device
3 Image charging device
4 Development device
8 Transfer roller
9 Image fixing device
10 Cleaning device
11 Process cartridge
12 casing
12a Protrusion
13 Developer
13a Toner
14 Development sleeve
15 Magnet roller
16 Doctor
17 Developer storage case
17a Predoctor
18 Developer container
19 Toner Hopper
19a Toner supply port
20 Toner agitator
20a Rotating shaft
20b Feather
21 Developer container for charging
22 Toner container for charging
23 Seal member
25 Reverse Roller
50 CPU
51 Drive controller
52 Drive unit
53 High pressure controller
54 Image forming unit
N Separation claw contact position
T consumption pattern
t1 Image part
t2 Image part
S Consumption pattern latent image

Claims (11)

An image carrier, latent image forming means for forming a latent image on the image carrier, and developing means for developing the latent image on the image carrier to form a toner image,
As developing means, a developer bearing member which moves endlessly in a predetermined direction and carried by magnetic force of the magnetic field generating means a developer containing a toner and a magnetic carrier, the image carrier is carried on the developer carrying member A developer regulating member that regulates the layer thickness of the developer conveyed toward the developing position facing the body, and a developer containing portion in which the developer that has been prevented from proceeding to the developing position by the developer regulating member is retained a developer containing case forming a housing the toner therein, the toner containing portion having a toner supply port facing the developer carrying member in the predetermined direction on the upstream side of the developer accommodating portion, said developing position The developer layer on the developer carrier that passes through the developer container and regulates the layer thickness of the developer, and the developer that has been prevented from proceeding to the developer container is retained in the toner supply port. and a developer regulating member, In the image forming apparatus using the developing apparatus incorporating the toner to the developer from the toner supply port by the movement of the developer carried on the developer carrying member,
On the developer carrying member that has passed through the development position after the developer is dispersed in the endless movement before the image is formed for the first time after the developer is put into the developer containing case . After the toner starts to be taken into the developer from the toner replenishing port, the toner concentration increases, and the developer reservoir retained in the toner replenishing port by the pre-developer regulating member covers the toner replenishing port. An image forming apparatus for forming an image pattern for toner consumption on the image carrier for toner consumption. The image forming apparatus according to claim 1.
An image forming apparatus, wherein a toner consuming image pattern is formed on the image carrier for consuming the toner after a predetermined time has elapsed after the start of the initial driving of the developing device. The image forming apparatus according to claim 2.
Provided is a toner delivery member that agitates the toner in the toner storage portion and delivers the toner from the toner replenishing port toward the developer, and after the toner delivery by the toner delivery member is started, the image carrier for the toner consumption An image forming apparatus, which starts forming an image pattern for toner consumption. The image forming apparatus according to claim 1, 2 or 3.
The toner delivery member has a rotation shaft and a feed member that is provided on the rotation shaft and feeds the toner from the toner supply port toward the developer by the rotation of the rotation shaft,
An image forming apparatus characterized in that the rotational speed of the toner delivery member is slower than the rotational speed of the developer carrier. The image forming apparatus according to claim 1, 2, 3 or 4,
An image carrier cleaning member that removes transfer residual toner on the surface of the image carrier, and the toner consumption image pattern formed on the image carrier is removed by the image carrier cleaning member without being transferred to a transfer material. To do,
An image forming apparatus comprising: a plurality of images in which a plurality of image portions are intermittently formed on the image carrier. The image forming apparatus according to claim 5.
One of the pre-formed image portions formed before the post-formed image portion as compared to the toner adhesion amount in one image portion of the post-formed image portion formed later from among the image portions in the plurality of images. An image forming apparatus characterized in that a toner adhesion amount in an image portion is reduced . The image forming apparatus 請 Motomeko 1,2,3,4,5 or 6,
A contact transfer member that contacts and faces the surface of the image carrier and forms a transfer nip for transferring a toner image on the image carrier to a transfer medium by a transfer bias;
An image forming apparatus, wherein the transfer bias is turned off when the image pattern for toner consumption passes through a transfer nip portion between the image carrier and the contact transfer member. The image forming apparatus according to claim 1, 2, 3, 4, 5, 6 or 7 .
A contact transfer member that contacts and faces the surface of the image carrier and forms a transfer nip for transferring a toner image on the image carrier to a transfer medium by a transfer bias;
An image forming apparatus comprising a contact transfer member cleaning unit for cleaning the contact transfer member. The image forming apparatus according to claim 8 .
An image forming apparatus, wherein cleaning by the contact transfer member cleaning unit is executed after all of the toner consuming image pattern has passed through the transfer nip portion. The image forming apparatus according to claim 8 or 9 ,
An image forming apparatus, wherein the contact transfer member cleaning means is constituted by a toner return means for returning the toner adhering to the contact transfer member to the surface of the image carrier again. The image forming apparatus according to claim 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 .
In the moving direction of the image carrier surface, the normal image is placed downstream of the toner consumption image pattern formation position on the image carrier and upstream of the toner consumption image pattern removal position from the image carrier. contact member in contact with the image bearing member surface is present from the image bearing member surface in addition to the transfer member provided to transfer to the transfer member, the toner on the image bearing member surface except the contact member contacting position An image forming apparatus for forming an image portion in a consumption image pattern.

Images