JP2004361530A - Developing device and image forming apparatus using it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a developing device with stable developing characteristic without any unevenness in image or an image fogging in a constitution using a recovery roll of a hybrid developing method, and a small sized image forming apparatus. <P>SOLUTION: The developing device is provided with a toner carrier 2 facing an image carrier 1 and carrying toner on its surface, a developer carrier for feeding 3 installed in a position facing the toner carrier 2 with a specified space in between and carrying and transporting two-component developer containing the toner and magnetic carrier, a developer carrier for recovery 4 recovering the toner from the toner carrier 2 and a transporting member 5 installed to face the two developer carriers 3 and 4 and the toner carrier 2 and handing over the two-component developer between the two developer carriers 3 and 4. Furthermore, the image forming apparatus using the developing device is provided. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a developing device used in an image forming apparatus such as a copying machine or a printer, and more particularly to developing a latent electrostatic image on an image carrier using a two-component developer having a toner and a magnetic carrier. And an improvement in an image forming apparatus using the same.
[0002]
[Prior art]
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 employing a so-called hybrid developing method is known.
It comprises a donor roll facing an image carrier such as a photoreceptor and carrying toner, and a toner transport roll facing the donor roll and carrying a two-component developer containing toner and magnetic carrier. Further, a large amount of developer is supplied from a toner transport roll by a magnetic brush to form a toner layer on a donor roll (for example, see Patent Document 1).
In this hybrid developing system, the toner is normally charged by stirring the two-component developer, so that it is easy to secure a sufficient charge amount, and the supply of the toner from the toner transport roll to the donor roll is performed by electrostatic force. Therefore, the toner charged to the opposite polarity is not supplied to the donor roll. Therefore, toner does not adhere 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 the adhesion of the magnetic carrier to the image carrier is prevented.
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 9-21970 (column of the embodiment of the invention, FIG. 1)
[Patent Document 2]
JP-A-9-251237 (column of the embodiment of the invention, FIG. 1)
[Patent Document 3]
JP-A-10-319708 (column of the embodiment of the invention, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, in this type of hybrid developing method, a method of replenishing toner in a toner supply area with respect to a portion where toner is consumed on a donor roll is adopted. The toner is also supplied to the non-consumed portion where the remaining toner remains, so that there is a problem in the development history that the previous toner consumption pattern appears on the developed image.
[0005]
Further, when the toner is repeatedly supplied and scraped on the donor roll, the difference in physical adhesion between the toner having a large particle diameter and the toner having a small particle diameter (the toner having a large particle diameter is physically attached to the donor roll). Because the adhesive force is small, it is easily scraped off by the scraping force received in the nip area, but toner with a small particle diameter is hardly scraped off.) It is getting bigger.
The change in the particle size on the donor roll causes a change in development characteristics and transfer characteristics, and a region where newer toner is supplied on the toner remaining on the donor roll without being developed, and a region where new toner is developed. , A difference in toner density occurs between the area and the area to which an image defect (development history) may occur.
[0006]
Therefore, a method is known in which all the toner is temporarily removed from the donor roll that has passed through the developing 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 method using a scraper as a toner removing unit. In this case, however, there is a problem that the toner is fused to each other at a contact portion between the scraper and the donor roll.
Therefore, a method has been disclosed in which a toner collecting roll is newly added in addition to the toner supply roll, and the toner on the donor roll is scraped by the toner collecting roll (for example, see Patent Document 2).
[0007]
However, in the method of adding a new toner collecting roll, if the amount of developer supplied to the toner supplying roll and the toner collecting roll is unstable, the amount of toner on the donor roll becomes unstable. In addition, uneven density occurs in the image.
In particular, when the developer is easily stressed between the toner supply roll and the toner collection roll and the fluidity of the developer is reduced, the problem becomes more remarkable.
[0008]
For this reason, a method has been proposed in which a toner supply roll and a toner collection roll are rotated in the same direction, and are further brought close to each other to stabilize the amount of developer transported (for example, see Patent Document 3).
However, in this case, a problem of bias leak between the two rolls is likely to occur, particularly when the toner concentration is low and the operating environment is in a high humidity state.
Further, there is a problem that the developer that has entered between the two rolls is stressed, the developer is liable to be deteriorated, image fogging occurs, and stable developing characteristics cannot be obtained over a long period of time. .
[0009]
The present invention has been made in order to solve the above technical problem, and a developing device in which a supply amount of a developer is stable, density unevenness can be prevented, and a developing characteristic which is stable for a long time, and An image forming apparatus is provided.
[0010]
[Means for Solving the Problems]
That is, according to the present invention, as shown in FIG. 1, a toner carrier 2 which carries toner on the surface thereof is opposed to an image carrier 1 which carries an electrostatic latent image, and a predetermined interval is provided between the toner carrier 2. And a supply developer carrier 3 that carries and transports a two-component developer containing a toner and a magnetic carrier and supplies the toner to the toner carrier 2. A collecting developer carrier 4 for carrying and transporting the two-component developer and collecting the toner from the toner carrier 2; A transport member 5 is provided so as to face the toner carrier 2 and transfers the two-component developer between the two developer carriers 3 and 4.
[0011]
In such technical means, since the developing device according to the present application is of a type using a two-component developer, a toner having various color components can be used as the toner. Of course, the present invention can be applied to a full-color image forming apparatus having a plurality of developing devices.
[0012]
The supply developer carrier 3 and the collection developer carrier 4 in the present invention may be appropriately selected as long as they carry and transport the two-component developer. For example, a rotatable non-magnetic sleeve, And a magnet member fixedly disposed in the non-magnetic sleeve and provided with a magnetic field generating means.
Further, the magnetic field generating means may have a plurality of magnetic poles. For example, examples of the magnetic pole configuration include a toner supply magnetic pole for contributing to development and a function of capturing a developer. Examples include a magnetic pole having a pickup magnetic pole, a transport magnetic pole for transporting the developer, and the like. However, the present invention is not limited thereto, and may be appropriately selected.
[0013]
The transporting member 5 in the present invention preferably has a magnetic field generating means inside as in the case of the developer carrying members 3 and 4. For example, a paddle mixer may be used.
In the present invention, it is preferable that the direction of rotation of the transport member 5 be the same in the portion facing the supply developer carrier 3 and the collection developer carrier 4 from the viewpoint of reducing the stress of the developer. The developer stress can be reduced even in different directions.
Further, from the viewpoint of preventing developer stress and preventing leakage between the two developer carriers 3 and 4, the line connecting the centers of the two developer carriers 3 and 4 It is preferable to dispose the transport member 5 in the opposite area.
Further, it is preferable that the two developer carrying members 3 and 4 are disposed at a predetermined interval between the two developer carrying members 3 and 4 so that the developer carried on the two developer carrying members 3 and 4 do not come into contact with each other.
The transport member 5 may be in contact with the toner carrier 2 as long as the carrier member 5 is separated from the supply developer carrier 3 and the recovery developer carrier 4 by a predetermined distance. (In this case, the conveying member 5 rotates so as not to hinder the rotation of the toner carrier 2).
[0014]
Furthermore, in the present invention, there are two flows of the developer, the direction in which the developer flows from the supply developer carrier 3 to the recovery developer carrier 4 via the transport member 5 and the direction in which the developer is transported from the recovery developer carrier 4. There is a direction in which the developer flows into the supply developer carrier 3 via the member 5.
The transfer member 5 transfers the two-component developer between the two developer carriers 3 and 4 means that the developer is transferred between the two developer carriers 3 and 4 on the upstream side. A mode in which the developer is passed directly from the carrier to the downstream side of the developer carrier, but not through the transport member 5 is shown.
Since the flow of the developer is bidirectional, there is a mode in which both of the two developer carriers 3 and 4 are on the upstream side of the flow of the developer.
[0015]
From the viewpoint of forming an appropriate developing electric field and reliably visualizing the electrostatic latent image on the image carrier 1, the toner carrier 2 of the present invention has at least a surface resistivity of 10%. ⁵ -10 ⁸ It is preferably an elastic member of Ω · cm, but may be metal. In the case of an elastic member, it is preferable to dispose the elastic member in contact with the image carrier 1.
Further, the toner in the present invention may be magnetic or non-magnetic as long as it adheres to a magnetic carrier.
[0016]
According to the present invention, the supply developer carrier 3 and the collection developer carrier 4 are provided between the toner carrier 2 and a predetermined amount for supplying or collecting toner to the toner carrier 2. It is desirable that an electric field is formed. Therefore, the developing bias (VB) 6 for developing the electrostatic latent image on the image carrier 1 is supplied to the toner carrier 2, and the supply developer carrier 3 supplies the toner to the toner carrier 2. A bias (VS) 7 is applied to the collection developer carrier 4, and a collection bias (VR) 8 for collecting toner from the toner carrier 2 is applied to the collection developer carrier 4. The supply bias (VS) 7 and the recovery bias (VR) 8 are usually DC voltages, but may be AC superimposed DC voltages.
[0017]
Further, in the present invention, the two-component developer is agitated behind the two developer carriers 3 and 4 and the conveying member 5 and the agitated developer is moved to one of the two developer carriers 3 and 4. In many cases, a partition member 9 for preventing the developer from the stirring member 10 from directly reaching the conveying member 5 is preferably provided.
The shape of the partition member 9 may be any shape as long as it partitions the flow of the developer.
Further, the stirring member 10 is preferably in the form of, for example, two augers or bucket rollers, but is not limited to two, and may be in any other form as long as it stirs the developer. Absent.
[0018]
Still further, a first guide member 11 that surrounds a part of the periphery of the transport member 5 and regulates the separation of the developer from the transport member 5 is provided to further improve the transportability of the transport member 5. Is preferred. The part around the conveying member 5 is preferably provided in a part of a concentric circle. However, from the viewpoint of member production and assembly, a similar shape such as a bent shape may be used. No problem.
Further, there are two types of developer carrying members on the downstream side of the flow of the developer (specifically, there are two modes of a developer carrying member for supply 3 and a developer carrying member for recovery 4, The second guide member is provided near the downstream developer carrier in order to prevent the developer detached from the toner carrier from directly adhering to the conveying member 5 and to effectively supply the developer to the stirring member 10 side. It is preferable to dispose 12.
Note that the number, shape, and arrangement position of the first guide member 11 and the second guide member 12 may be appropriately selected.
[0019]
Further, in the present invention, from the viewpoint of miniaturizing the apparatus, an angle θ formed by a straight line connecting the center of the toner carrier 2 and the centers of the supply developer carrier 3 and the collection developer carrier 4, respectively. However, the supply developer carrier 3 and the collection developer carrier 4 are arranged so as to be within 90 degrees, and the center of the collection developer carrier 4 is vertically lowermost. It is preferable to arrange them. In this case, the flow path of the developer becomes shorter, which is effective in reducing the size of the apparatus.
The present invention is not limited to the above-described developing devices, but also covers an image forming apparatus using these developing devices.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
◎ Embodiment 1
FIG. 2 shows Embodiment 1 of the image forming apparatus including the developing device to which the present invention is applied.
In the figure, reference numeral 21 denotes a photosensitive member that carries an electrostatic latent image made of an organic photosensitive member that rotates in the direction of the arrow. The photosensitive member 21 is charged by a charging device 22 such as a scorotron, and has a laser writing device and an LED. An electrostatic latent image is written by an exposure device 23 having an array. This electrostatic latent image is formed as a potential image due to a decrease in the surface potential of the photoreceptor 21 in a portion irradiated with light and a contrast with a high potential portion not exposed to light.
[0021]
The developing device 30 contains a two-component developer including a toner and a carrier in a developing housing 31 and carries a donor roll 32 for carrying a toner, a toner supply roll 33 for supplying a toner, and a toner collection roller for collecting a toner. A 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 a developing device 30 and then transferred onto a recording material 28 by a transfer roll 26, and the transferred recording material 28 is fixed. The fixing device 50 conveys the toner image onto the recording material 28 so that the toner image is fixed. The fixing device 50 has a heating roll 51 and a pressure roll 52 by, for example, a heat roll method, and the recording material 28 is passed between the heating roll 51 and the pressure roll 52 to form a toner image. Is fixed to the recording material 28.
The toner remaining on the photoconductor 21 is removed by, for example, a doctor blade type cleaning device 29.
[0022]
Here, the developing device 30 which is a feature of the present invention will be described in detail with reference to FIG.
In the figure, a developing device 30 has a developing housing 31 opening toward the photoconductor 21, and a donor roll 32 is provided at a position facing the opening of the developing housing 31 and facing the photoconductor 21 and in contact therewith. It is housed so as to be rotatable in the A direction. 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 has a volume resistivity of 10 ⁷ Although a configuration covered with a polyurethane resin-based elastic member of Ω · cm is employed, a metal roll made of, for example, aluminum or stainless steel may be used.
Further, the configuration is such that the donor roll 32 and the photoconductor 21 are in contact with each other, but may be non-contact.
[0023]
A toner supply roll 33 and a toner collection roll 34 are arranged at a rear portion of the donor roll 32 (the side opposite to the photoreceptor 21) at a predetermined interval from the donor roll 32.
Further, bias power supplies 38 and 39 are connected to the toner supply roll 33 and the toner recovery roll 34, respectively, so that a supply bias VS and a recovery bias VR are applied.
Further, at the rear of the toner supply roll 33 and the toner recovery roll 34, a transport roll 35 that carries and transports the developer G is arranged so as to transfer the developer G on the outer peripheral portion of the toner supply roll 33 to the toner recovery roll 34. Is established. At this time, it is preferable that the toner supply roll 33 and the toner collection roll 34 are separated from the transport roll 35 by about 3 to 5 mm. Further, the transport roll 35 may have the same size as the toner supply roll 33 and the toner collection roll 34.
The angle θ formed by a straight line connecting the center of the donor roll 32 and the centers of the toner supply roll 33 and the toner recovery roll 34 is 90 degrees or less. , And the center of the toner collection roll 34 is disposed so as to be the lowest in the vertical direction among the toner supply roll 33, the toner collection roll 34, and the transport roll 35.
[0024]
In the present embodiment, the toner supply roll 33, the toner collection roll 34, and the transport roll 35 are rotatably mounted on rotatable rotating sleeves 33a to 35a and a plurality of magnetic poles. And the magnet bodies 33b to 35b having the following.
The magnet body 33b of the toner supply roll 33 has 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. Almost the middle of N3 is disposed so as to face the transport roll 35, and the magnetic poles N2 and N3 of the same polarity act as repulsive magnetic poles.
Further, the magnet body 34b of the toner collecting roll 34 has 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. Are arranged so as to face the transport roll 35, and S5 and S6 of the same polarity act as repulsion magnetic poles.
Further, the magnet body 35b of the transport roll 35 is arranged such that the magnetic pole S5 of the plurality of magnetic poles (S5, N7, S6) faces the toner supply roll 33.
In the present embodiment, the arrangement and number of the magnetic poles are not limited to the present embodiment, but may be appropriately selected.
Further, the transport roll 35 is a roll-shaped mode provided with a magnetic field generating means. This mode is preferable also from the viewpoint of the stability of variation in the roll axis direction. As long as it carries and conveys, for example, it may be in a paddle mixer shape.
Further, in the present embodiment, the rotation direction of the toner supply roll 33 and the toner collection roll 34 is the same as that of the donor roll 32 (the direction of arrow A in FIG. 3), and the rotation direction of the transport roll 35 is opposite to these directions. ing.
[0025]
Further, a stirring member 41 is disposed at the rear of the transport roll 35 via a partition plate 40. The stirring member 41 is formed of, for example, a spiral auger, and is configured to supply the developer G to the toner supply roll 33 after stirring and charging the two-component developer (developer) G.
In the present embodiment, two stirrers 41 are provided. However, the number of stirrers 41 is not limited to two, but may be one, or three or more. In addition to the auger, a magnetic or non-magnetic roll may be used.
[0026]
Further, a first guide piece 43 for guiding the developer transport is provided at the rear of the transport roll 35 in a semicircular shape substantially concentric with the transport roll 35 in front of the partition plate 40, and the developer G Is efficiently transported on the outer circumference 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 collection roll 34, and at a position facing the toner supply roll 33 at a predetermined interval, A trimmer 42 for controlling the layer thickness of the developer on the toner supply roll 33 is provided.
[0027]
Here, the developing bias VB, the supply bias VS, and the recovery bias VR will be described.
In the present embodiment, a two-component developer composed of a toner and a magnetic carrier is used. The two components are frictionally contacted with each other, so that the toner is negatively charged and the carrier is positively charged.
Further, the outer peripheral surface of the photoconductor 21 is negatively charged (for example, −600 V), and toner is adhered to a portion (for example, −100 V) where the potential is attenuated by exposure, and development is performed. In this case, the developing bias VB is set at -400V, the supply bias VS is set at -420 to -750V, and the collection bias VR is set at -350 to 0V.
A DC voltage is used as the bias power supplies 37 to 39 for supplying the developing bias VB, the supply bias VS, and the recovery bias VR. However, for example, an AC superimposed DC voltage may be used as the power supply.
[0028]
Next, the operation of the image forming apparatus according to the present embodiment will be described focusing on the developing device 30.
In FIG. 3, the two-component developer (developer) G is stirred by the stirring member 41 to charge the toner to the negative polarity and the magnetic carrier to the positive polarity, and thereafter, the magnetic pole of the magnet 33 b of the toner supply roll 33. The developer is supplied to the toner supply roll 33 in the developer supply area on the upstream side of the developer flow in S2.
Then, when the developer G reaches the vicinity of the trimmer 42, the developer G forms ears by the magnetic pole S2. Further, the spike of the developer G is controlled by the trimmer 42 so as to be held on the outer periphery of the toner supply roll 33 as a developer layer, and is conveyed in the direction A with the rotation of the rotary sleeve 33a. At this time, the developer G forms a magnetic brush along the lines of magnetic force formed by the magnet 33b.
[0029]
Next, when the developer G enters a region (toner supply region) where the toner supply roll 33 and the donor roll 32 are opposed to each other, a magnetic brush is formed by the magnetic attraction of the magnetic pole S1, and the development using the magnetic brush is performed. Of the agent G, only the toner is electrostatically attracted from the toner supply roll 33 to the donor roll 32 and adheres to the donor roll 32 under the influence of the electric field formed between the toner supply roll 33 and 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 area are attracted by the magnet body 33b of the toner supply roll 33 and the magnet body 35b of the transport roll 35 so that the toner supply roll 33 and the transport roll 35 are attracted. Are transferred to the transport roll 35 in an area where
[0030]
The developer G transferred to the transport roll 35 is held on the transport roll 35 by the attracting magnetic field of the magnet 35b, and is transported on the outer circumference thereof. Then, the magnet G of the transport roll 35 and the magnet of the toner collection roll 34 are moved. The toner is transferred to the toner collecting roll 34 in a region where the conveying roll 35 and the toner collecting roll 34 face each other by the attraction magnetic field with the body 34b.
The developer G transported on the outer circumference of the toner collecting roll 34 recovers the toner on the donor roll 32 in the toner collecting area near the magnetic pole S3, and is then transported on the outer circumference of the toner collecting roll 34 to form the magnetic pole N5 and the magnetic pole N6. Is supplied to the agitating member 41 side along the second guide piece 44 by separating from the toner collecting roll 34.
[0031]
On the other hand, the toner supplied to the donor roll 32 is transported on the donor roll 32 in the direction A 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 developing area. You. Further, the 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 collecting area is affected by an electric field formed between the donor roll 32 and the toner collecting roll 34, and in the toner collecting area, the negatively charged toner is discharged from the donor roll 32. The toner is collected by the high-potential toner collecting roll 34 and is scraped off by the magnetic brush formed on the toner collecting roll 34 to be collected on the toner collecting roll 34 side.
[0032]
In the developing device 30 configured as described above, the toner not used for development in the developing area is collected by the toner collecting roll 34 in the toner collecting area. Further, the toner is uniformly supplied from the toner supply roll 33 to the donor roll 32 from which the toner has been collected.
Therefore, the donor roll 32 that has passed the toner collection area has no toner consumption pattern, and this toner consumption pattern does not appear in a subsequently developed toner image.
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 collection roll 34, the moving directions of the opposing roll surfaces are the same (specifically, the toner supply (The moving direction of the surfaces of the rolls 33 and the toner collecting roll 34 is the same at the part where the roll 33 and the conveying roll 35 are opposed to each other). Since the toner is stabilized in the respective roll axis directions and the toner collecting performance and the developer supply amount in the toner collecting area are also stabilized, it is possible to suppress the occurrence of development history and density unevenness.
[0033]
FIG. 4 is an explanatory diagram showing the positional relationship between the toner supply roll 33, the toner collection roll 34, and the transport roll 35. The gap between the toner supply roll 33 and the toner recovery roll 34 is d1, the toner supply roll 33 is transported. Assuming that the gap with the roll 35 is d2 and the gap between the toner collecting roll 34 and the transporting roll 35 is d3, in this embodiment, d1 is larger than d2 and d3, and the toner supply roll 33 and the toner collecting roll 34 in the d1 region. Since the carried developers G do not collide with each other and the flow of the developer G is always in one direction, the effect of suppressing the bias leak is large, and the stress applied to the developer G is large. Can be greatly reduced, and the occurrence of image fogging and the like can be suppressed. In this embodiment, the gap d2 and the gap d3 have the same dimensions.
That is, d2 and d3 are gaps that allow the developer G to be sucked by the magnetic force between the rolls (3 to 5 mm in the present embodiment). On the other hand, d1 does not involve suction between the rolls. It is possible to take a wider gap. Therefore, the collision (contact) of the developer in the d1 region can be prevented.
Further, d2 and d3 indicate that the electric field between the toner supply roll 33 and the toner collection roll 34 is small in terms of the bias leak between the toner supply roll 33 and the toner collection roll 34 even if the transport roll 35 is a conductor. Since the voltage is applied to the sum distance (d2 + d3), the bias leak can be suppressed.
[0034]
Furthermore, the angle θ formed by a straight line connecting the center of the donor roll 32 and the centers of the toner supply roll 33 and the toner collection roll 34 can be arranged within 90 degrees, and the toner collection roll 34 is arranged at the lowest position. In addition, the circulation of the developer G can be made compact, and the size of the developing device including the stirring member 41 can be reduced.
[0035]
◎ Embodiment 2
FIG. 5 shows a second embodiment of the developing device used in the image forming apparatus to which the present invention is applied.
In this figure, the present embodiment is configured in substantially the same manner as the developing device 30 in the first embodiment, but the flow of the developer G is different from that in the first embodiment, It is configured to flow to the roll 33.
The same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0036]
In the present embodiment, the magnet 33b of the toner supply roll 33 has magnetic poles (N2, S1, N1, S2, S3) on the outer periphery thereof, and the magnetic pole S1 is provided at a position facing the donor roll 32. It is arranged so as to face the transport roll 35 near the magnetic pole N2.
Further, the magnet body 34b of the toner collecting roll 34 has a plurality of magnetic poles (S5, N3, S4, N4, N5) on the outer periphery thereof, and a magnetic pole S4 is provided at a position facing the donor roll 32. And the magnetic pole N <b> 5 are disposed so as to be located substantially in the middle thereof at a position facing the transport roll 35.
Further, the magnet body 35b of the transport roll 35 is arranged such that the magnetic pole S7 of the plurality of magnetic poles (S7, N6, S6) faces the toner collecting roll 34.
[0037]
Further, a stirring member 41 is disposed at the rear of the transport roll 35 via a partition plate 40. The stirring member 41 stirs and charges the two-component developer (developer) G, and then charges the toner collection roll 34. Is configured to supply the developer G to the printer.
Further, a first guide piece 43 for guiding the developer transport is provided in front of the partition plate 40 at a rear portion of the transport roll 35 in a semicircular shape substantially concentric with the transport roll 35, and the developer G is provided. The paper is efficiently transported on the outer circumference 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 supply roll 33, and at a position facing the toner collection roll 34 at a predetermined interval, A trimmer 42 for controlling the layer thickness of the developer on the toner collecting roll 34 is provided.
[0038]
Next, the operation of the developing device according to the present embodiment will be described.
In FIG. 5, the two-component developer (developer) G is agitated by the agitating member 41 so that the toner is charged to the negative polarity and the magnetic carrier is charged to the positive polarity. The developer is supplied to the toner collecting roll 34 in the developer supply area on the upstream side of the magnetic pole S5.
Then, when the developer G reaches the vicinity of the trimmer 42, the developer G forms ears by the magnetic pole N3. Further, the spikes of the developer G are held on the outer periphery of the toner collection roll 34 as a developer layer by being controlled by the trimmer 42, and are conveyed in the B direction with the rotation of the rotary sleeve 34a. At this time, the developer G forms a magnetic brush along the lines of magnetic force formed by the magnet body 34b.
[0039]
Next, when the developer G enters the toner collection area where the toner collection roll 34 and the donor roll 32 face each other, the developer G forms a magnetic brush by the magnetic attraction of the magnetic pole S4 and scrapes the toner on the donor roll 32. take. At this time, an electrostatic force acts to attract toner from the donor roll 32 to the toner collection roll 34 due to an electric field between the donor roll 32 and the toner collection roll 34, thereby ensuring toner collection from the donor roll 32 to the toner collection roll 34. I have.
[0040]
The developer G from which the toner has been collected is transferred to the transport roll 35 near the area where the toner recovery roll 34 and the transport roll 35 face each other by the attracting magnetic field of the magnet 34b of the toner recovery roll 34 and the magnet 35b of the transport roll 35. Handed over.
The developer G delivered to the transport roll 35 is held on the transport roll 35 by the attractive magnetic field of the magnet 35b, transported on the outer circumference thereof, and the magnet 35b of the transport roll 35 and the magnet 33b of the toner supply roll 33. Is transferred to the toner supply roll 33 in a region where the transport roll 35 and the toner supply roll 33 face each other.
[0041]
The developer G conveyed on the outer periphery of the toner supply roll 33 forms a magnetic brush by the magnetic attraction of the magnetic pole S1 in the toner supply area near the magnetic pole S1, and only the toner in the developer G that has formed the magnetic brush is removed. Under the influence of the electric field formed between the toner supply roll 33 and the donor roll 32, the toner is electrostatically attracted to the donor roll 32 from the toner supply roll 33 and adheres to the donor roll 32.
Thereafter, the developer G conveyed on the outer periphery of the toner supply roll 33 is separated from the toner supply roll 33 by the repulsive magnetic field of the magnetic poles S2 and S3, and is moved to the stirring member 41 along the second guide piece 44. Supplied.
[0042]
Also in the present embodiment, the developing device in which the toner collecting performance and the developer supply amount in the toner collecting area are stable, the stress of the developer G is not generated, and the bias leak does not occur.
Therefore, also in the present embodiment, a small-sized developing device free from development history, density unevenness and image fogging can be realized.
[0043]
◎ Embodiment 3
FIG. 6 shows Embodiment 3 of the developing device used in the image forming apparatus to which the present invention is applied.
In this embodiment, in the present embodiment, the transport roll 35 is configured in the same manner as the developing device of the first embodiment, except that the transport roll 35 is disposed substantially at the center between the toner supply roll 33 and the toner recovery roll 34. Therefore, the detailed description is omitted here.
Although the arrangement of the magnetic poles in the present embodiment is not shown, it is appropriately selected so that the developer is conveyed in substantially the same manner as the arrangement of the magnetic poles in the first embodiment.
[0044]
Further, in the present embodiment, the transport roll 35 is shown as being separated from the donor roll 32. However, for example, even in a mode in which the transport roll 35 is brought into contact with the donor roll 32, the transport roll 35 may be in contact with the donor roll 32. The moving directions may be the same (the respective rotating directions are opposite directions), and may be the rotating directions shown in FIG.
Therefore, also in the present embodiment, a developing device in which the toner collecting performance and the developer supply amount in the toner collecting region are stable, and further, there is no stress on the developer G and there is no bias leak can be achieved.
Therefore, also in the present embodiment, a small-sized developing device free from development history, density unevenness and image fogging can be realized.
[0045]
In this embodiment, the flow of the developer G is configured to flow from the toner supply roll 33 to the transport roll 35 and the toner collection roll 34. However, similarly to the second embodiment, the developer G is A mode in which the developer flows from 34 to the transport roll 35 and the toner supply roll 33 may be used. However, in this case, the aspect in which the donor roll 32 and the transport roll 35 are in contact with each other is excluded.
[0046]
【The invention's effect】
As described above, according to the present invention, a toner carrier and two developer carriers that supply and collect toner to and from the toner carrier are provided. By arranging a transport member that transfers the developer between the developer carrier and the developer, the transportability of the developer is stabilized, and it is possible to further reduce the stress caused by the collision between the developers, thereby improving the development history, A developing device free from uneven density and image fogging can be provided.
In addition, since these arrangements are specified, a small-sized developing device can be realized. Further, by using this developing device, a small-sized image forming apparatus having stable developing characteristics for a long period of time can be provided.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating an outline of a developing device of an image forming apparatus according to the present invention.
FIG. 2 is an explanatory diagram illustrating Embodiment 1 of the image forming apparatus to which the present invention has been applied.
FIG. 3 is an explanatory diagram illustrating details of a developing device according to the first embodiment;
FIG. 4 is an enlarged view of a main part of the first embodiment.
FIG. 5 is an explanatory diagram showing a developing device according to a second embodiment of the present invention;
FIG. 6 is an explanatory diagram showing a developing device according to a third embodiment of the present invention;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image carrier, 2 ... Toner carrier, 3 ... Supply developer carrier, 4 ... Recovery developer carrier, 5 ... Conveying member, 6 ... Development bias (VB), 7 ... Supply bias (VS) , 8 ... Recovery bias (VR), 9 ... Partition member, 10 ... Stirring member, 11 ... First guide member, 12 ... Second guide member

Claims (12)

A toner carrier that bears toner on the surface opposite to the image carrier that carries the electrostatic latent image;
A supply developer carrier, which is disposed at a position facing the toner carrier at a predetermined distance, carries and transports a two-component developer including a toner and a magnetic carrier, and supplies toner to the toner carrier; ,
A collection developer carrier that is disposed at a position facing the toner carrier at a predetermined interval, carries and transports the two-component developer, and collects toner from the toner carrier;
A developing device comprising: a conveying member disposed to face the two developer carriers and the toner carrier, and delivering a two-component developer between the two developer carriers. . The developing device according to claim 1,
A predetermined electric field is formed between the supply developer carrier and the toner carrier and between the recovery developer carrier and the toner carrier to supply or collect toner to and from the toner carrier. A developing device. The developing device according to claim 1,
A developing device, wherein the transport member has a magnetic field generating means inside and transports a two-component developer containing toner and a magnetic carrier. The developing device according to claim 1,
The developing device is characterized in that the conveying member rotates in the same direction at a portion facing the two developer carriers. The developing device according to claim 1,
A developing device, wherein a conveying member is disposed in a region opposite to a toner carrier with respect to a linear position connecting the centers of two developer carriers. The developing device according to claim 1,
A developing device, wherein the developer carried on the two developer carrying members is not in contact with each other. The developing device according to claim 1,
On the opposite side of the conveying member from the toner carrier side, a stirring member is provided for stirring the two-component developer and supplying the developer to one of the supply developer carrier and the recovery developer carrier. And a partition member between the conveying member and the stirring member, the partition member preventing flow of the developer from the stirring member to the conveying member. The developing device according to claim 1,
A developing device, comprising: a first guide member that surrounds a part of a periphery of a conveyance member and regulates a developer from being separated from the conveyance member. The developing device according to claim 1,
A developing device, wherein a second guide member is provided on a developer carrier downstream of the flow of the developer, the second guide member restricting transfer of the detached developer toward the conveying member. The developing device according to claim 1,
The angle between straight lines connecting the center of the toner carrier and the centers of the supply developer carrier and the collection developer carrier is 90 degrees or less, so that the supply developer carrier and the collection developer A developing device comprising a developer carrier. The developing device according to claim 1,
Developing characterized in that the center of the collecting developer carrier is vertically lowermost in the centers of the supply developer carrier, the collecting developer carrier and the transport member. apparatus. An image forming apparatus comprising the developing device according to claim 1.

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