JP4337512B2 - Developing device and image forming apparatus using the same - Google Patents

Description

  The present invention relates to a developing device used in an image forming apparatus such as a copying machine or a printer, and in particular, uses a two-component developer including a toner and a magnetic carrier to develop an electrostatic latent image on an image carrier with toner. The present invention relates to a developing device configured as described above and an improvement of an image forming apparatus using the developing device.

2. Description of the Related Art Conventionally, as a developing device used in an image forming apparatus such as a copying machine or a printer, a device adopting a so-called hybrid developing method is known.
This includes a donor roll that faces an image carrier such as a photoconductor and carries toner, and a toner transport roll that carries a two-component developer that contains the toner and a magnetic carrier and that faces this donor roll. A large amount of developer is supplied from a toner conveying roll by a magnetic brush to form a toner layer on a donor roll (see, for example, Patent Document 1).
In this hybrid development system, since the toner is normally charged by stirring the two-component developer, it is easy to ensure a sufficient charge amount, and the toner is supplied from the toner transport roll to the donor roll by electrostatic force. Therefore, the toner charged with the reverse polarity is not supplied to the donor roll. Therefore, there is no adhesion of toner to the non-image area of the image carrier and the occurrence of fog is prevented. Further, since only the toner is supplied to the donor roll, there is an advantage that adhesion of the magnetic carrier to the image carrier is prevented.

Japanese Patent Laid-Open No. 9-21970 (column of embodiment of the invention, FIG. 1) JP-A-9-251237 (column of embodiment of the invention, FIG. 1) JP-A-10-319708 (column of embodiment of the invention, FIG. 1) Japanese Patent Laid-Open No. 10-340003 (column of embodiment of the invention, FIG. 1)

  However, in this type of hybrid development method, a method of replenishing toner in the toner supply area with respect to a portion where the toner is consumed on the donor roll is adopted. However, not only the portion where the toner is consumed but also the toner However, there is a problem in the development history that toner is supplied to the remaining non-consumed portion, and the previous toner consumption pattern appears on the developed image.

  In addition, when toner supply and scraping are repeated on the donor roll, the difference in physical adhesion between the large particle size toner and the small particle size toner (the large particle size toner is physically attached to the donor roll). Because the adhesion force is small, it can be easily scraped against the scraping force received in the nip area, but the toner with a small particle size is difficult to be scraped.) It will turn. This change in particle diameter on the donor roll brings about a change in development characteristics and transfer characteristics. The toner remains on the donor roll without being developed, and a new toner is supplied to the area. There is a toner density difference between the supplied area and this may cause an image defect (development history).

Therefore, a method is known in which all the toner is once removed from the donor roll that has passed through the development area, and then the toner is again carried on the donor roll at a portion (toner supply area) between the donor roll and the toner supply roll. . For example, there is a system that uses a scraper as the toner removing means, but in this case, there is a problem that the toner is fused to each other at the contact portion between the scraper and the donor roll.
Therefore, a method of adding a new toner collecting roll separately from the toner supplying roll and scraping off the toner on the donor roll with the toner collecting roll is also disclosed (for example, see Patent Document 2).

However, in this new method of adding a toner collection roll, if the amount of developer supplied to the toner supply roll and the toner collection roll is unstable, the amount of toner on the donor roll becomes unstable. , Uneven density occurs in the image.
In particular, it becomes more prominent when the developer is easily stressed between the toner supply roll and the toner collection roll, and the flowability of the developer decreases.

For this reason, there has been proposed a method of stabilizing the developer conveyance amount by rotating the toner supply roll and the toner collection roll in the same direction and further bringing them close to each other (see, for example, Patent Documents 3 and 4).
However, in this case, the problem of bias leakage between the two rolls is likely to occur, and is particularly noticeable when the toner concentration is lowered and the operating environment is in a high humidity state. Further, the developer entering between the two rolls is stressed, the developer is likely to be deteriorated, and there is a problem that fog occurs, and there is a problem that stable development characteristics cannot be obtained over a long period of time.
The present invention has been made in order to solve the above technical problems. The developer supply amount is stable, density unevenness can be suppressed over a long period of time, and development with stable development characteristics over a long period of time is achieved. An apparatus and an image forming apparatus using the same are provided.

That is, as shown in FIG. 1, the basic configuration of the present invention is such that a toner carrier 2 carrying a toner on the surface thereof facing an image carrier 1 carrying an electrostatic latent image, and a toner carrier 2 facing this toner carrier 2. At a position facing the toner carrier 2, and a developer carrier 3 for supplying and supplying the toner to the toner carrier 2. A collecting developer carrier 4 for collecting and collecting the two-component developer in a direction opposite to the toner conveyance direction and recovering the toner from the toner carrier 2 at a portion facing the toner carrier 2; The two developer carriers 3 and 4 and the toner carrier 2 are arranged opposite to each other , and rotate around the rotation shaft to convey the two-component developer in the circumferential direction of the rotation shaft and to supply the developer. The two-component developer received from the developer carrier 3 is used for the recovery. A conveying member 5 to pass to the image-carrying member 4, the toner carrying member 2, in which a drive control means 8 for driving and controlling each of the driving target two of the developer carrying member 3, 4 and the conveying member 5 .

In particular, according to the present invention, the drive control means 8 includes a steady mode in which development drive conditions necessary for a normal development operation for each drive target are set in advance, and before each drive target is driven in this steady mode. In addition, the steady mode is such that the two-component developer at the portion where the toner carrier 2 and the recovery developer carrier 4 face each other flows more easily in the developer transport direction of the recovery developer carrier 4 than in the steady mode. And a development preparation mode in which at least one of the potential difference between the toner carrier 2 and the recovery developer carrier 4 and the speed of the recovery developer carrier 4 is set under different driving conditions. In particular, it has a characteristic point.

In such technical means, the basic configuration of the developing device according to the present application is a type using a two-component developer, and therefore, toners having various color components can be used. Needless to say, the present invention can be applied to an image forming apparatus including a developing device, and can also be applied to, for example, a full-color image forming apparatus including a plurality of developing devices.
The toner carrier 2 is preferably an elastic member at least on the surface, but may be a metal. In the case of an elastic member, the toner carrier 2 may be in contact with the image carrier 1.
The two developer carriers 3 and 4 may be appropriately selected as long as they have a magnetic field generating means inside and carry and convey a two-component developer. For example, a rotatable non-magnetic sleeve and And a magnet member fixedly disposed in the nonmagnetic sleeve and provided with magnetic field generating means.
Furthermore, the magnetic field generating means may be any means as long as it has a plurality of magnetic poles. For example, as a configuration example of the magnetic poles, a pickup having a developing magnetic pole for contributing to development and a function capable of capturing the developer is used. Although the thing provided with the magnetic pole, the conveyance magnetic pole etc. which convey a developing agent is mentioned, it is not restricted to this, You may select suitably.
Furthermore, from the viewpoint of effectively transferring the toner between the two developer carriers 3 and 4 and the toner carrier 2, and between the developer carrier 3 for supply and the toner carrier 2 and the recovery. It is preferable that a predetermined bias for supplying or collecting the toner with respect to the toner carrier 2 is formed between the developer carrier 4 and the toner carrier 2. The bias voltage applied to 3 and 4 may be a DC voltage or an AC superimposed DC voltage.

On the other hand, like the two developer carriers 3 and 4, it is preferable that the conveying member 5 has a magnetic field generating means inside from the viewpoint of effectively conveying the two-component developer. Further, the transport member 5 may be in contact with the toner carrier 2 as long as it is separated from the supply developer carrier 3 and the recovery developer carrier 4 by a predetermined distance. There is .
The conveying member 5 is preferably rotated in the same direction at a portion facing the two developer carriers 3 and 4, whereby the conveying member 5 and the two developer carriers 3 and 4 are rotated. The stress of the developer is reduced at the facing portion. Even if the transport member 5 and the developer carriers 3 and 4 are rotated in different directions, any mode that does not give stress to the developer flow may be used.
The toner used in the present invention may be magnetic or nonmagnetic as long as it adheres to the magnetic carrier.

In such an embodiment, when the developer is transported from the supply developer carrier 3 to the recovery developer carrier 4 via the transport member 5, the toner carrier 2 and the recovery developer carrier 4 are opposed to each other. There is a concern that a so-called “stagnation” phenomenon occurs in which the developer accumulates on the upstream side of the part (upstream side in the developer transport direction).
It is as follows when examining this "reservoir". FIG. 2A shows the state of the developer G at a portion where the toner carrier 2 and the recovery developer carrier 4 are opposed to each other. Now, when the developer G is flowing in the direction of arrow A, if the amount of developer per unit time flowing through the upstream portion B is greater than the amount of developer per unit time flowing through the downstream portion C, The flow of the developer G at the opposite portion is hindered, and the “gathering” of the developer G gradually occurs upstream from the B portion.
When this “retention” occurs, the entire flow of the developer G itself is impaired, and as a result, image defects such as density unevenness are generated.

In other words, this “retention” refers to a phenomenon in which the developer flow rate on the conveying member 5 is larger than the developer flow rate on the collecting developer carrier 4 as shown in FIG.
For example, as shown in FIG. 2B, when the developer G flows from the supply developer carrier 3 to the recovery developer carrier 4 side via the conveyance member 5, the developer on the conveyance member 5 When the amount of developer G in the β region is smaller than the amount of developer G in the α region between the amount of G (α region) and the amount of developer G on the recovery developer carrier 4 (β region), the developer A “pool” of G is generated on the upstream side (γ region) from the facing portion between the toner carrier 2 and the recovery developer carrier 4.

In this respect, the applicant of the present invention widens the gap between the facing portions because the toner collecting effect is impaired when the flow of the developer G at the facing portions of the toner carrier 2 and the collecting developer carrier 4 is deteriorated. Thus, in order to allow a large amount of developer to flow, or to prevent the “gathering” of the developer G at the opposite portion, the arrangement of the toner carrier 2 and the recovery developer carrier 4 is considered. Then, a proposal for avoiding the “gathering” of the developer G was made (for example, see Japanese Patent Application Nos. 2003-165479 and 2003-364790).
These proposals pay attention to the transport behavior of the developer G when the developing device is in the steady mode. The present inventors have further investigated the cause of “stagnation” and found that the development at the start of the steady mode is performed. It has been found that the transport behavior of the agent G is related to the occurrence of “retention”.

The first factor that leads to the “reservoir” found by the present inventors is a case where the use of the developing device has been stopped for a long time. At this time, the toner carrier 2 and the recovery developer carrier 4 are collected. The developer G stays in a soft-blocking state (light packing state) at a site opposite to. When development is newly started in this state, the developer G at the facing portion is lightly packed, and thus is not easily removed by the start of driving of the apparatus. The lightly packed developer G at the facing portion is not easily removed. Subsequent developer G is successively conveyed before the toner is removed . For this reason , the “gathering” of the developer G occurs upstream from this facing portion (γ region in FIG. 2B) (specifically, it will be described in detail in an embodiment described later). To do).

  The second factor that leads to “retention” is when the developer G of the developing device is replaced, for example, when the device is shipped, when the developer is replenished, when the cartridge is replaced, etc. The developer G is held in a state where there is almost no developer G at a portion facing the recovery developer carrier 4. Then, when development is newly started in this state, the developer G is likely to adhere to the toner carrier 2, and the developer G “from the opposite portion to the upstream side (γ region in FIG. 2B)“ “Puddle” occurs (specifically, it will be described in detail in an embodiment described later).

In the present invention, as means for solving such a technical problem, as shown in FIG. 1, drive control means 8 for driving and controlling the developing device is improved, and a toner carrier 2 and two developer carriers 3 are improved. , 4 and the conveying member 5 are driven in the steady mode 6 which is a normal development driving condition, the developer flow at the facing portion between the toner carrier 2 and the recovery developer carrier 4 is prioritized. The development preparation mode 7 is provided.
Here, in the development preparation mode 7 referred to in the present application, the two-component developer at the opposite portion of the toner carrier 2 and the recovery developer carrier 4 is more developer than the stationary mode 6. At least one of the potential difference between the toner carrier 2 and the recovery developer carrier 4 and the speed of the recovery developer carrier 4 under driving conditions different from those in the steady mode 6 so as to facilitate flow in the transport direction. One is set, and a flow of the developer is created at a portion where the toner carrier 2 and the recovery developer carrier 4 are opposed to each other so that the developer does not accumulate in the steady mode 6. It is what. Then, once the developer starts to flow stably in the development preparation mode 7, the occurrence of “stagnation” is suppressed even if the driving in the steady mode 6 is performed.

That is, in the present invention, as shown in FIG. 1, in order to suppress the above-described “pumping” of the developer, the development preparation mode 7 is performed in the opposite portion between the toner carrier 2 and the recovery developer carrier 4. Is carried out under the condition that the two-component developer stays so as to fill the opposite portion , and this implementation is preferable from the viewpoint of preventing the developer from “stagnation” when the developing device is left for a long period of time , for example, the developing preparation mode 7, under the conditions the two-component developer so as to fill the facing region on opposite sites of the toner carrying member 2 and the recovery-developer carrying member 4 is not retained, the toner carrier 2 It is possible to supply the developer to the facing portion while suppressing the adhesion of the two-component developer as compared with the steady mode , for example, from the viewpoint of preventing the developer from “retaining” when the developer is replaced. preferable.

Further, as a typical means for realizing the development preparation mode 7 in the present invention, at least one of the potential difference between the toner carrier 2 and the recovery developer carrier 4 and the speed of the recovery developer carrier 4 is used. Examples include driving control. This means that at least one of the potential difference between the toner carrier 2 and the recovery developer carrier 4 and the speed of the recovery developer carrier 4 is driven under conditions different from those in the steady mode 6. Means.
Furthermore, both may be driven and controlled in the development preparation mode 7. Further, it is preferable that the development preparation mode 7 is also carried out at “when the apparatus is turned on”, “when printing is started”, and the like.
Furthermore, in the development preparation mode 7, at least one of the potential difference between the toner carrier 2 and the recovery developer carrier 4 and the speed of the recovery developer carrier 4 is changed stepwise. However, the occurrence of “pumping” is similarly suppressed. Here, “change in stages” means that the number of stages is not particularly limited, and after the development preparation mode 7 is completed, the process finally shifts to the steady mode 6.

In the development preparation mode 7, setting the potential difference between the toner carrier 2 and the recovery developer carrier 4 to be smaller than the value in the steady mode 6 does not attract the developer to the toner carrier 2 side. It is preferable from a viewpoint of making it into, and it is still more preferable to contain at least 0V. Here, “ includes 0V” means that any progress may be followed as long as the developer can flow from 0V to the value in the steady mode 6 during the development preparation mode 7. For example, 0V may be maintained, or for example, the transition to the steady mode 6 may be made after passing through a value smaller than the potential difference in the steady mode 6 from 0V.

On the other hand, as the development preparation mode 7, the speed of the recovery developer carrier 4 can be made smaller than the value in the steady mode 6, or the developer at the opposite portion between the toner carrier 2 and the recovery developer carrier 4 can be used. It is preferable from the viewpoint of suppressing the occurrence of “pumping”, and it is more preferable that at least zero is included with respect to the speed of the collecting developer carrier 4. Here, “ including zero” means that any flow may be followed as long as the developer can flow from zero to the value in the steady mode 6 during the development preparation mode. For example, zero is maintained. Alternatively, for example, the transition to the steady mode 6 may be made via an intermediate value from zero.

Further, in consideration of the state immediately before the development preparation mode 7 is performed in order to suppress the occurrence of the developer “pumping” at the opposite portion, the switching means that makes the length (time) of the development preparation mode 7 variable. The aspect provided with is preferable. In this case, for example, by making the time of the development preparation mode 7 after being left for a long time longer than the time of the development preparation mode 7 under other conditions, the developer staying at the facing portion is further removed. And the flow of the developer in the steady mode 6 becomes smooth.
At this time, the time for the development preparation mode 7 is preferably longer after, for example, changing the developer or when the developing device is left for a long period of time. It is preferable to lengthen the time of the preparation mode 7.
This case is also intended for the image forming apparatus.

According to the present invention, the toner carrier, the two developer carriers for supplying and recovering toner to the toner carrier, and the supply developer carrier to the recovery developer carrier at a position opposite to the toner carrier. Since the developer transporting device is provided, the developer transportability is stable, and it is possible to reduce the stress caused by the collision between the developers, and there is no development history, density unevenness and fogging. There is an effect that a developing device can be realized.
In particular, in the present invention, before performing the steady mode, which is a normal development driving condition, the developer located at the opposite portion between the toner carrier and the recovery developer carrier is removed from the recovery developer carrier. is provided with the drive control means for performing different development preparation mode and the normal mode flow more easily than the regular mode to the developer conveying direction, the recovery with respect to the opposite site of the toner carrying member and a recovery-developer carrying member It is possible to prevent the developer from being accumulated on the upstream side of the developer carrying member in the developer transport direction .
Further, by using this developing device, it is possible to provide an image forming apparatus having stable development characteristics over a long period of time.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
Embodiment 1
FIG. 3 shows Embodiment 1 of an image forming apparatus to which the present invention is applied.
In the figure, reference numeral 21 denotes a photoconductor that carries an electrostatic latent image made of an organic photoconductor that rotates in the direction of an arrow. The photoconductor 21 is charged by a charging device 22 such as a scorotron, and a laser writing device or LED. An electrostatic latent image is written by the exposure device 23 having an array.
The electrostatic latent image is formed as a potential image based on contrast with a high potential portion not exposed to light because the surface potential of the photoreceptor 21 in the portion exposed to light is lowered.

Further, the developing device 30 contains a two-component developer composed of toner and a magnetic carrier in a developing housing 31, a donor roll 32 that carries the toner, a toner supply roll 33 for supplying toner, and a toner for collecting toner. A collection roll 34 and a transport roll 35 for transporting the developer are provided.
In the present embodiment, the toner image on the photoreceptor 21 is visualized by the developing device 30 and then transferred onto the recording material 28 by the transfer roll 26, and the transferred recording material 28 is fixed. The toner image on the recording material 28 is fixed by the fixing device 50. The fixing device 50 has, for example, a heat roll method, and includes a heating roll 51 and a pressure roll 52. By passing the recording material 28 between the heating roll 51 and the pressure roll 52, a toner image is obtained. Is fixed to the recording material 28.
The toner remaining on the photoreceptor 21 is removed by, for example, a doctor blade type cleaning device 29.

Here, the basic configuration of the developing device 30 of the present invention will be described in detail with reference to FIG.
In the drawing, the developing device 30 has a developing housing 31 (see FIG. 3) that opens toward the photosensitive member 21, and faces the opening of the developing housing 31 and faces the photosensitive member 21. The donor roll 32 is rotatably accommodated. A bias power source 37 is connected to the donor roll 32 so that a predetermined developing bias VB is applied.
In the present embodiment, the outer peripheral portion of the donor roll 32 is configured to be covered with an elastic member. However, for example, a metal roll made of aluminum or stainless steel may be used. Further, the donor roll 32 and the photoconductor 21 are in contact with each other, but they may be non-contact.

A toner supply roll 33 and a toner recovery roll 34 are disposed at a predetermined distance from the donor roll 32 at the rear part (on the side opposite to the photoreceptor 21) of the donor roll 32.
The toner supply roll 33 and the toner collection roll 34 are connected to bias power supplies 38 and 39, respectively, and supply bias VS for supplying toner from the toner supply roll 33 to the donor roll 32. A collection bias VR for collecting the toner is applied to the collection roll 34.
Further, the developer G is carried and conveyed behind the toner supply roll 33 and the toner collection roll 34 so that the two-component developer (developer) G on the outer periphery of the toner supply roll 33 is transferred to the toner collection roll 34. A conveying roll 35 is disposed.

In the present embodiment, the toner supply roll 33, the toner collection roll 34, and the transport roll 35 are fixedly disposed inside the rotatable sleeves 33a to 35a and the rotatable sleeves 33a to 35a. And magnet bodies 33b to 35b having magnetic poles.
The magnet body 33b of the toner supply roll 33 is provided with a plurality of magnetic poles (S2, N1, S1, N2, N3) on the outer periphery thereof, the magnetic pole S1 is provided at a position facing the donor roll 32, and the magnetic pole N2 and the magnetic pole Arranged so that approximately the middle of N3 is opposed to the transport roll 35, the magnetic poles N2 and N3 having the same polarity act as repelling magnetic poles.
Further, the magnet body 34b of the toner recovery roll 34 includes a plurality of magnetic poles (S4, N4, S3, N5, N6) on the outer periphery thereof, and a magnetic pole S3 is provided at a position facing the donor roll 32, and the magnetic pole S4. Are arranged so as to face the transport roll 35, and the magnetic poles N5 and N6 having the same polarity act as repulsive magnetic poles.
Further, the magnet body 35 b of the transport roll 35 is disposed so that the magnetic pole S 5 is positioned opposite to the toner supply roll 33 among the plurality of magnetic poles (S 5, N 7, S 6).
In the present embodiment, the arrangement and number of magnetic poles are not limited to this embodiment, and may be appropriately selected.
In this embodiment, the rotation direction of the toner supply roll 33 and the toner recovery roll 34 is the same as that of the donor roll 32 (counterclockwise), and the rotation direction of the transport roll 35 is the opposite direction (clockwise). The developer G flows from the toner supply roll 33 to the toner collection roll 34 via the transport roll 35.

  In addition, a stirring member 41 is disposed at the rear portion of the transport roll 35 via a partition plate 40. The agitating member 41 is composed of, for example, a spiral auger, and is configured to supply the developer G to the toner supply roll 33 after the two-component developer (developer) G is agitated and charged. In addition, in this Embodiment, although it is set as the aspect provided with two stirring members 41, it is not limited to two, One may be sufficient and there may be three or more. In addition to the auger, a magnetic or non-magnetic roll may be used.

Furthermore, a first guide piece 43 that is substantially concentric with the transport roll 35 and guides the developer transport is provided at the rear of the transport roll 35 in front of the partition plate 40. Is efficiently transported on the outer periphery of the transport roll 35. A second guide piece 44 for suppressing the flow of the developer G is provided at a position facing the toner recovery roll 34, and at a position facing the toner supply roll 33 with a predetermined interval, A trimmer 42 for controlling the layer thickness of the developer G on the toner supply roll 33 is provided.
Note that the two-component developer G used in the present embodiment is a developer composed of toner and a magnetic carrier. For example, a non-magnetic toner is used as the toner. Toner can be used.

In particular, in the present embodiment, as the drive control means (not shown) that is a feature of the present case, when the developing device 30 is started to be driven, the developing bias VB from the bias power source 37 is supplied to the donor roll 32. At the same time, as a development preparation mode (hereinafter referred to as “preparation mode” in the present embodiment), the bias power source 39 connected to the toner collection roll 34 has a development bias VB different from the collection bias VR in the steady mode. The same bias is applied. For this reason, the potential difference between the donor roll 32 and the toner collection roll 34 in the preparation mode is set to 0V.
When the preparation mode is completed, the bias power supply 39 is switched so that the recovery bias VR in the steady mode is applied.

Next, the operation of the image forming apparatus according to the present embodiment will be described focusing on the developing device 30. In FIG. 4, the two-component developer (developer) G is stirred by the stirring member 41 so that the toner is negatively charged and the magnetic carrier is charged positively, and then the magnetic poles of the magnet body 33 b of the toner supply roll 33. The toner is supplied to the toner supply roll 33 in the developer supply area upstream of the developer flow in S2.
When the developer G reaches the vicinity of the trimmer 42, it forms a spike by the magnetic pole S2.
Further, the rising of the developer G is controlled by the trimmer 42 so that the developer layer is held on the outer periphery of the toner supply roll 33 and conveyed counterclockwise with the rotation of the rotating sleeve 33a. At this time, the developer G constitutes a magnetic brush along the lines of magnetic force formed by the magnet body 33b.

Next, when the developer G enters an area (toner supply area) where the toner supply roll 33 and the donor roll 32 face each other, a magnetic brush is formed by the magnetic attraction force of the magnetic pole S1, and the development in which the magnetic brush is formed. Only the toner in the agent G is electrostatically attracted from the toner supply roll 33 to the donor roll 32 by the influence of the electric field formed between the toner supply roll 33 and the donor roll 32, and adheres to the donor roll 32.
On the other hand, the magnetic carrier that has lost the toner and the developer G that has passed through the toner supply region are attracted by the magnetic field 33b of the toner supply roll 33 and the magnet body 35b of the transfer roll 35, and are supplied to the toner supply roll 33 and the transfer roll 35. Are transferred from the toner supply roll 33 to the transport roll 35 in a region facing each other.
The developer G delivered to the transport roll 35 is held on the transport roll 35 by the magnetic field attracted by the magnet body 35b, transported on the outer periphery thereof, and then the magnet body 35b of the transport roll 35 and the magnet of the toner recovery roll 34. The toner is transferred from the transport roll 35 to the toner recovery roll 34 in a region where the transport roll 35 and the toner recovery roll 34 face each other by the magnetic field attracted to the body 34b.
The developer G transported on the outer periphery of the toner recovery roll 34 recovers the toner on the donor roll 32 in the toner recovery region near the magnetic pole S3, and is then transported on the outer periphery of the toner recovery roll 34, so that the magnetic pole N5 Due to the repulsive magnetic field with the magnetic pole N 6, the toner is separated from the toner collecting roll 34 and is supplied to the stirring member 41 along the second guide piece 44.

On the other hand, the toner supplied to the donor roll 32 is conveyed according to the rotation of the donor roll 32 and is used for developing the electrostatic latent image formed on the photoconductor 21 in the development region. Further, toner that has passed through the development area without being used for development is sent to the toner collection area.
The toner conveyed to the toner collection area is affected by the electric field formed between the donor roll 32 and the toner collection roll 34, and in the toner collection area, the negatively charged toner is transferred from the donor roll 32. While being attracted by the high potential toner collecting roll 34, it is scraped off by a magnetic brush formed on the toner collecting roll 34 and collected to the toner collecting roll 34 side.

In the developing device 30 configured as described above, the toner that has not been used for development in the development area is collected by the toner collection roll 34 in the toner collection area. Further, new toner is uniformly supplied from the toner supply roll 33 to the donor roll 32 from which the toner has been collected.
Accordingly, the donor roll 32 that has passed through the toner collection area has no toner consumption pattern, and this toner consumption pattern does not appear in a toner image developed thereafter.
Further, when the developer G is transferred from the toner supply roll 33 to the transport roll 35 and from the transport roll 35 to the toner recovery roll 34, the moving direction of the opposite roll surface is the same (specifically, the toner supply roll). Since the movement direction of the surface is the same in the part where the roll 33 and the conveyance roll 35 face each other and the part where the conveyance roll 35 and the toner collection roll 34 face each other, the amount of movement of the developer G is different. Since the developer is stabilized in the roll axis direction and the developer supply amount is also stabilized, the toner collecting performance in the toner collecting region is stabilized, and development history, density unevenness, and the like can be suppressed.

  In addition, by disposing the transport roll 35 between the toner supply roll 33 and the toner collection roll 34, the distance between the toner supply roll 33 and the toner collection roll 34 in which a potential difference occurs can be equivalently increased. In addition to ensuring the stability of the conveyance of the developer G, the direction of the flow of the developer G between the rolls can be unidirectional, so that the stress received by the developer G can be further reduced. Occurrence of fog, cloud, and the like due to G degradation is suppressed. Furthermore, it is possible to suppress the occurrence of bias leak between the toner supply roll 33 and the toner recovery roll 34.

Here, the operation of the preparation mode, which is a feature point of the present case, will be described in particular.
In particular, the present inventors have examined in detail the cause of “stagnation” occurring on the upstream side in the conveyance direction of the developer G from the portion where the donor roll 32 and the toner collection roll 34 are opposed to each other. It was confirmed that depending on the state of the developer G, the behavior of the developer G at the facing portion at the start of driving of the developing device is different.
That is, as shown in FIG. 5, in the present embodiment, once the flow of the developer G is once formed at the facing portion between the donor roll 32 and the toner recovery roll 34, "Is suppressed and the flow of the developer G is not impaired, and image defects can be prevented.

On the other hand, when the developer G remains in a portion facing the donor roll 32 and the toner recovery roll 34 for a long period of time, the developer G in this portion is lightly packed as shown in FIG. It is in a state. Therefore, when the developing device 30 is driven in the steady mode as it is, the lightly packed developer G does not flow smoothly and the subsequent developer G is transported, so that the upstream side (specifically, γ There is a possibility that it will lead to “retention” of the developer G in the region (see FIG. 6B).
In addition, for example, after the developer G is newly introduced or after the developer G is replaced, the developing device 30 is installed in a state where the developer G does not exist at the facing portion between the donor roll 32 and the toner recovery roll 34. When driven, as shown in FIG. 7A, the developer G picked off from the transport roll 35 is difficult to form a magnetic chain between the developers G, and is easily scattered to the side of the donor roll 32. At this time, the potential difference between the donor roll 32 and the toner collecting roll 34 is strongly influenced, and a part of the donor roll 32 adheres to the donor roll 32. As shown in FIG. 7B, the adhered developer G moves on the donor roll 32 in a direction in which the magnetic force of the toner collection roll 34 is weakened, and therefore cannot move to the toner collection roll 34 side. In combination with the subsequent developer G, there is a possibility that the “gathering” of the developer G in the γ region may result.

Therefore, in this embodiment, the potential difference between the donor roll 32 and the toner collection roll 34 is set to 0 V in the preparation mode. Therefore, when the developing device 30 is left for a long time, the developer G is used as the donor roll. The electrostatic attractive force attracted to the side 32 is lost, and the lightly packed developer G is likely to flow downstream. As a result, the initial flow of the developer G can be ensured at the facing portion of the donor roll 32 and the toner recovery roll 34, and the flow of the developer G in the steady mode is stabilized.
Further, even when the developer G is newly introduced into the developing device 30, since there is no electrostatic attractive force that attracts the developer G to the donor roll 32, a part of the developer G picked off adheres to the donor roll 32. Less to do. As a result, the developer G transported from the transport roll 35 can easily form a magnetic chain with the toner recovery roll 34, the transport path of the developer G is stabilized, and the facing portion between the donor roll 32 and the toner recovery roll 34 is stabilized. Thus, the initial developer G flow can be secured. Then, the flow of the developer G in the steady mode is stabilized.
Accordingly, in any of the cases described above, it is possible to further suppress the occurrence of uneven density due to the stable transportability of the developer G.

  Further, in the present embodiment, as the preparation mode, a mode in which the potential difference between the donor roll 32 and the toner recovery roll 34 is set to 0 V (specifically, corresponding to FIG. 8B) is shown. As shown in FIG. 8A, the same effect can be obtained even if the potential difference between the donor roll 32 and the toner collecting roll 34 is made smaller than that in the steady mode as the preparation mode. Furthermore, the same effect can be obtained by changing the potential difference stepwise as shown in FIG.

Further, as shown in FIGS. 9A, 9B, and 9C, as the preparation mode, the potential difference is changed even when the speed of the toner collecting roll 34 is reduced, zeroed, or changed stepwise. The same effect as that obtained can be obtained.
If the developing device 30 is left unattended for a long period of time, as a preparation mode, the speed of the toner collecting roll 34 is slowed to give a shearing force to the lightly packed developer G, thereby making it easy to loosen and An increase in frictional force to the developer G (force to return the developer G to the upstream side) is suppressed at a portion where the roll 32 and the toner recovery roll 34 are opposed to each other, and the developer G can easily flow downstream. As a result, the flow of the developer G at the facing portion becomes smooth. This also shows the same effect even when the speed of the toner collection roll 34 is set to zero in the preparation mode or is changed stepwise.
On the other hand, when the developer G is newly introduced, as a preparation mode, the flow rate of the developer per unit time at the facing portion of the donor roll 32 and the toner collection roll 34 is reduced by slowing the speed of the toner collection roll 34. And the increase in the frictional force to the developer G between the donor roll 32 and the toner collecting roll 34 (force to return the developer G to the upstream side) is suppressed, and The flow of the developer G becomes smooth. Furthermore, a certain amount of developer G can be accumulated on the toner collecting roll 34, and a magnetic chain between the developers G is easily formed. Once the magnetic chain is formed, the subsequent developer G is easily attracted to the toner collecting roll 34 due to the influence of the magnetic chain, and as a result, the flow of the developer G at the opposite portion is smooth. Become.
Further, even if the speed of the toner collecting roll 34 is set to zero or is changed stepwise as a preparation mode, the same effect can be obtained by the same operation.

Further, as the preparation mode, the potential difference between the donor roll 32 and the toner collection roll 34 and the speed of the toner collection roll 34 may be combined and changed together.
Further, the developing device 30 is provided with a changeover switch (not shown), and by switching this changeover switch, the time of the preparation mode can be changed, and the occurrence of accumulation is more effectively suppressed. For example, the preparation mode time may be switched between the developer exchange time and the other preparation mode time, and the preparation mode time may be lengthened when the developer is exchanged.

In this example, the speed of the toner collection roll in the preparation mode and the effect of the potential difference between the donor roll and the toner collection roll were evaluated and confirmed.
In this example, the same configuration as that of the first embodiment is used, and after the developer is replaced, a recovery bias to be applied to the toner recovery roll is set as a development preparation mode (hereinafter referred to as “preparation mode” in this example). The toner recovery roll speed was changed at two levels of 240 mm / s and 480 mm / s at three levels of -300 V, -400 V, and -500 V. In addition, as the time of the preparation mode, confirmation was performed at 1 second and 5 seconds.
The other conditions were as follows.
Development bias applied to donor roll: -500V
Supply bias applied to the toner supply roll: -550V
Donor roll speed: 240 mm / s,
Trimmer gap (gap between trimmer and toner collecting roll): 1 mm,
Distance between donor roll and toner supply roll: 0.6 mm,
Distance between donor roll and toner recovery roll: 0.6 mm.
The speeds of the toner recovery roll, toner supply roll, and transport roll were all changed to be the same.
In the evaluation, the state of occurrence of developer stagnation at the facing portion between the donor roll and the toner collecting roll was visually determined.
As shown in FIG. 10, the following points were confirmed for the evaluation results.
(1) When the preparation mode was not performed and the steady mode was started, a stagnation occurred.
(2) When the potential difference between the donor roll and the toner collection roll is set to 200 V (-300 V is applied to the toner collection roll as in the steady mode), and the speed of the toner collection roll is changed variously as the preparation mode, in any case There was no outbreak.
(3) In the preparation mode, when the potential difference between the donor roll and the toner collection roll is 100 V (−400 V is applied to the toner collection roll) and the speed of the toner collection roll is 480 mm / s, which is the same as in the steady mode, the potential difference When time was 100V, accumulation occurred at 1 second, but did not occur at 5 seconds.
(4) Under other conditions, no developer accumulation was observed.
Therefore, from this evaluation result, as a preparation mode, the potential difference between the donor roll and the toner collection roll can be made smaller than that in the steady mode, or the toner collection roll speed can be reduced, thereby preventing the developer from being accumulated, and the image performance. It was confirmed that can provide a stable developing device.
Further, in order to confirm the effect of this case in detail, the same evaluation as in this example was performed for the developer after being left for a long period of time (specifically, left for one week), but the same effect as in this example was obtained. confirmed.

It is explanatory drawing which shows the outline | summary of the image development apparatus concerning this invention. It is explanatory drawing which shows the condition of accumulation. 1 is an explanatory diagram showing Embodiment 1 of an image forming apparatus to which the present invention is applied. FIG. 2 is an explanatory diagram illustrating a developing device according to the first embodiment. FIG. 6 is an explanatory diagram showing a developer flow in a steady state. (A) is explanatory drawing which shows the mode of the developer at the time of being left for a long period of time, (b) is explanatory drawing which shows the accumulation of the developer in the principal part of (a). (A) is explanatory drawing which shows a mode when a developer is supplied by replacement | exchange of a developer etc., (b) is explanatory drawing which shows the accumulation of the developer in the principal part of (a). (A), (b), and (c) are diagrams showing a potential difference between the donor roll and the toner recovery roll in the preparation mode. (A), (b) and (c) are diagrams showing the toner collection roll speed in the preparation mode. It is explanatory drawing which shows the result of an Example.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Image carrier, 2 ... Toner carrier, 3 ... Supply developer carrier, 4 ... Collecting developer carrier, 5 ... Conveyance member, 6 ... Steady mode, 7 ... Development preparation mode, 8 ... Drive control means

Claims (10)

A toner carrying member facing the image carrying member carrying the electrostatic latent image and carrying toner on the surface;
A developer carrying body for supply, which is disposed at a position facing the toner carrying body, carries and conveys a two-component developer containing toner and a magnetic carrier, and supplies the toner to the toner carrying body;
A development for collection that is disposed at a position facing the toner carrier, carries the two-component developer in a direction opposite to the toner conveyance direction, and collects the toner from the toner carrier at a portion facing the toner carrier. An agent carrier;
The two developer carrying members and the toner carrying member are arranged opposite to each other , and rotate around the rotation shaft to convey the two-component developer in the circumferential direction of the rotation shaft and to supply the developer carrying member. A transport member that delivers the two-component developer received from the recovery developer carrier;
A drive control means for driving and controlling each drive target of the toner carrier, the two developer carriers, and the conveying member;
The drive control means includes a steady mode in which development drive conditions necessary for a normal development operation for each drive target are preset, and
Before each drive target is driven in the steady mode, the two-component developer at the opposite portion between the toner carrier and the recovery developer carrier is transported by the developer on the recovery developer carrier compared to the steady mode. At least one of the potential difference between the toner carrying member and the collecting developer carrying member and the speed of the collecting developer carrying member under a driving condition different from that in the steady mode so as to facilitate flow in the direction. A developing device that executes a development preparation mode . The developing device according to claim 1,
The development preparation mode is executed under a condition in which the two-component developer is retained so as to fill the facing portion between the toner carrying member and the collecting developer carrying member. Development device. The developing device according to claim 1,
In the development preparation mode , the two-component developer is applied to the toner carrier under the condition that the two-component developer does not stay so as to fill the opposite portion between the toner carrier and the recovery developer carrier . A developing device that supplies a developer to the facing portion while suppressing adhesion as compared with a steady mode . The developing device according to claim 1,
The development preparation mode is a developing device in which at least the recovery developer carrier rotates at a lower speed than the steady mode in a state where the toner carrier rotates . The developing device according to claim 1 ,
In the developing preparation mode, the potential difference between the toner carrier and the recovery developer carrier is smaller than that in the steady mode . The developing device according to claim 4 .
In the developing preparation mode, the speed of the collecting developer carrying member includes at least zero . The developing device according to claim 5 , wherein
In the developing preparation mode, the potential difference between the toner carrier and the recovery developer carrier includes at least 0 V. The developing device according to claim 1 ,
A developing device comprising switching means for making the length of the development preparation mode variable. The developing device according to claim 8 , wherein
The developing device is characterized in that when the developer is replaced, the developing unit extends the time of the development preparation mode more than when the developer is not replaced. An image forming apparatus comprising the developing device according to any one of claims 1 to 9.

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