JPH10240015A - Developing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a developing device which recovers toner having a large amount of charges hard to recover from a toner carrier, to a developer carrier from the toner carrier easily. SOLUTION: This developing device 3 has the toner carrier 9 which holds toner on its periphery and is freely turnably supported in contact with a photoreceptor 1, and the developer carrier 15 which holds two-component developer, consisting of toner and carrier, on its periphery and is disposed opposite the toner carrier 9 with a specific amount of gap left between the toner carrier 9 and itself. The toner carrier 9 is made of a material which decreases by the contact of the toner carrier 9 and the photoreceptor 1 an amount of the charges of toner held on the toner carrier 9 which has passed through a developing area 41.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a developing device for visualizing an electrostatic latent image on a photoreceptor as a toner image in an electrophotographic image forming apparatus.

[0002]

2. Description of the Related Art Japanese Unexamined Patent Publication No. 7-128983 discloses a toner carrier (toner roller) which is arranged opposite to a photosensitive member and holds toner on an outer peripheral portion thereof at a predetermined distance from the toner carrier. A developing device having a developer carrier (developer roller) which is disposed and has a two-component developer composed of a toner and a carrier on an outer peripheral portion is disclosed. In this developing device, the toner is supplied from the developer carrier to the toner carrier in a region where the toner carrier and the developer carrier are opposed to each other. The toner on the toner carrier is used for developing an electrostatic latent image formed on the photoconductor in an area (developing area) where the toner carrier and the photoconductor oppose each other.

In this type of developing device, in order to visualize an electrostatic latent image with a constant toner density, the toner must be held at a constant density on the surface of a toner carrier that advances to a developing area. . As a method for this, as shown in FIG. 6, (a) all the toner is temporarily removed from the toner carrier that has passed through the development area, and then the facing portion between the toner carrier and the developer carrier (toner supply area) And (b) replenishing the toner in the toner supply area with respect to the portion where the toner has been consumed.

[0004]

However, in the former method, there is a problem how to uniformly mix the toner removed from the toner carrier with the carrier again. Further, if a scraper is used as the toner removing means, there is a problem that the toner is fused to each of the contact portions between the scraper and the toner carrier. On the other hand, in the latter method, as shown in FIG. 6B, the toner is supplied not only to the portion where the toner is consumed but also to the non-consumed portion where the toner remains, so that the previous toner consumption pattern is developed. There is a problem that it appears on the image that is displayed.

[0005]

Therefore, the present invention basically replaces the toner on the toner carrier by the former method, and holds the toner on the outer peripheral portion and contacts the photosensitive member. A two-component developer composed of a toner and a carrier, which is rotatably supported by the toner carrier, and a developer carrier which is opposed to the toner carrier at a predetermined interval. A material that reduces the charge amount of the toner held by the toner carrier that has passed through the development area by contacting the toner carrier with the photoconductor. It is characterized by being formed by.

[0006]

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. In FIG.
The developing device 3 for visualizing the electrostatic latent image formed on the outer peripheral surface of the photoconductor 1 includes a developing container 5. The electrostatic latent image is formed by being charged to −600 V by a charging device (not shown) and then exposed to a laser exposure device (not shown) and attenuated to −100 V. The developing container 5 has an opening 7 at a portion facing the photoreceptor 1, and a toner carrier 9 in contact with the photoreceptor 1 near the opening 7.
Are rotatably accommodated in the direction of arrow 11. Further, a power supply 13 (−400 V) is connected to the toner carrier 9.

The toner carrier 9 is formed by coating the surface of a rubber roller with fluorine-based Teflon. The above-described coating with Teflon is performed in such a manner that when the charge of the toner is negative, the photoconductor 1 and the toner carrier 9 come into contact with each other, so that the toner Has the function of reducing the amount of charge. Similarly, even when the photosensitive member 1 and the toner carrier 9 are in contact with each other even when coated with polyethylene or polypropylene, the charge amount of the toner held on the toner carrier 9 that has passed through the developing area 41 is reduced. The effect which makes it do can be obtained. When the charge of the toner is positive, the charge amount of the toner can be reduced by coating the toner carrier with nylon or nickel.

The developer container 5 is provided at a rear portion of the toner carrier 9 with a predetermined distance from the toner carrier 9.
Is housed. The developer carrier 15 includes a magnet body 17 fixed in a non-rotating state, and a roller 21 that is mounted on the magnet body 17 and that is driven to rotate in the direction of an arrow 19 (the same rotation direction as the toner carrier 9). Have been. here,
The magnet body 17 has a plurality of magnetic poles (N ₁ , S ₁ ,
N ₂ , N ₃ , S ₂ , N ₄ , S ₃ ), one of which (N ₁ ) faces the toner supply / recovery area 23 where the toner carrier 9 and the developer carrier 15 face each other. It is located at the site. The roller 21 has a power supply 25 (−600 V).
Are connected, and an electric field is formed in the toner supply / recovery area 23 between the roller 21 and the toner carrier 9.

At the rear of the developer carrier 15, a developer supply member 27 composed of, for example, a well-known bucket roller, screw conveyor, or the like is arranged. By the developer supply member 27, the toner and the carrier are separated. A two-component developer 31 which is mixed and charged to a predetermined polarity, respectively,
The developer is supplied to the developer carrier 15. Above the developer supply area 29 between the developer carrier 15 and the developer supply member 27, a regulating member 30 that faces the developer carrier 15 at a predetermined interval is provided.

The developing operation of the developing device 3 having the above configuration will be described. In the following description, it is assumed that the toner is negatively charged and the carrier is positively charged. First, the developer 31 is supplied from the developer supply member 27 to the developer carrier 15. The supplied developer 31 is held on the outer peripheral portion of the developer carrier 15 by the magnetic force of the magnet 17, and is conveyed in the direction of arrow 19 with the rotation of the roller 21.
It is adjusted to a predetermined amount by the regulating member 30. At this time, the developer 31 forms a magnetic brush 33 (see FIG. 2) along the lines of magnetic force formed by the magnet 17.

Next, when the developer 31 enters the toner supply / recovery area 23, the developer 31 is affected by an electric field formed between the toner carrier 9 and the developer carrier 15.
As a result, as shown in FIG. 2, the toner supply area 35 on the upstream side of the closest position between the toner carrier 9 and the developer carrier 15 in the rotation direction of the developer carrier 15 (the direction of arrow 19). Then, the negatively charged toner 37 is attracted to and adheres to the toner carrier 9 having a higher potential than the developer carrier 15. On the other hand, the carrier 39 is the magnet body 1
7 and is not moved to the toner carrier 9. However, the carrier 39 that has lost the toner 37 has a positive charge as a counter charge.

The toner 37 supplied to the toner carrier 9 as described above is rotated by the arrow 1 according to the rotation of the toner carrier 9.
It is transported in one direction and is used for developing an electrostatic latent image formed on the photoconductor 1 in the developing area 41. However, the toner 37 that has passed through the development area 41 without being used for development
Is sent to the toner supply / collection area 23 again.

The toner carrier 9 and the developer carrier 1
In the toner recovery area 43 on the downstream side of the closest position to the toner 5, the carrier 39 having a positive charge after losing the toner as described above scrapes the negatively charged toner returning to the toner supply / recovery area 23, This is adsorbed and collected.

The toner 37 collected on the developer carrier 15
The magnetic poles N ₂ and N ₂ are conveyed in the direction of arrow 19 with the rotation of the developer carrier 15, mixed again with the carrier in the course of the conveyance, and arranged adjacent to the portion facing the developer supply member 27. _The developer is dropped from the developer carrier 15 by the repulsive magnetic field of ₃ , and is mixed with the developer mixed by the developer supply member 27.

As described above, in the toner supply / recovery area 23, by bringing the developer held by the developer carrier 15 into contact with the toner carrier 9, the developer carrier 15
The transfer of toner is performed between the toner carrier 9 and the toner carrier 9. On the other hand, if the charge amount of the toner increases, the toner holding force of the toner carrier 9 increases, which leads to prevention of fogging.
On the other hand, the toner collection efficiency in the toner supply / collection area 23 is reduced. Therefore, in order to increase the toner collection efficiency, the developer filling density (defined by the following equation 1) in the toner supply / collection area 23 may be increased. There is a risk of clogging.

[0016]

(1) D = [M / (Ds · ρ)] · 100 D: developer packing density (%) M: amount of developer transported per unit area by developer carrier (mg / cm ² ) Ds: distance between toner carrier and developer carrier (cm) ρ: developer Unit volume weight of (g / cm ³ )

For these reasons, the toner carrier 9 is
The surface thereof is processed with Teflon, and when the toner carrier 9 and the photoconductor 1 come into contact with each other, the charge amount of the toner held on the toner carrier 9 that has passed through the development area 41 is reduced. As a result, the toner supply / collection area 2
The toner held in the toner carrier 9 returning to 3 can be scraped and collected by the developer carrier 15, and the problem of defective coverage can be solved.

Further, since the toner is a toner having a high charge amount, a good image can be formed. Further, since there is no need to forcibly increase the developer filling density in the toner supply / collection area 23, the developer does not clog in the toner supply / collection area 23.

As described above, in the developing device 3, the developing area 4
The toner 37 not used in the development in 1 is collected by the developer carrier 15 in the toner supply / collection area 23. Further, the toner 37 is uniformly supplied again from the developer carrier 15 to the toner carrier 9 from which the toner 37 has been removed. Therefore, the toner carrier 9 that has passed through the toner supply / recovery area 23 has no toner consumption pattern, and this toner consumption pattern does not appear in a subsequently developed toner image.

It is preferable that the moving speed of the developer carrier 15 is equal to or higher than the moving speed of the toner carrier 9. In particular, if the former is about 1.4 times the latter, the supply of toner can be reduced. Recovery is performed efficiently.

Next, a second embodiment according to the present invention will be described. 3, in the developing device 45, the toner carrier 9 used in the developing device 3 is
The surface is coated with fluorine-based Teflon, and is arranged in contact with the photoreceptor 1. As a result, when the toner carrier 9 and the photoconductor 1 come into contact with each other, the charge amount of the toner held by the toner carrier 9 that has passed through the developing area 41 is reduced. Further, a predetermined developing bias V _B Yes connected DC power source 48 is adapted to be applied to the toner supporting member 9.

A first developer carrier 46 is disposed above the rear portion of the toner carrier 9 with a predetermined distance D1 therebetween, and is disposed below the rear portion of the toner carrier 9 with a predetermined space D2. Thus, a second developer carrier 47 is disposed. The interval D1 is smaller than the interval D2, and the first developer carrier 46
Is disposed closer to the toner carrier 9 than to the second developer carrier 47.

Above the developer supply region 34 between the first developer carrier 46 and the developer supply member 27, a regulating member opposing the first developer carrier 46 at a predetermined interval. 36 are provided.

The first developer carrying member 46 is fixed to a non-rotating state by a magnet 49, and is externally mounted on the magnet 49, in the direction of arrow 50 (the same direction as the rotating direction of the toner carrying member 9). And a sleeve 51 that is driven to rotate.
The magnet body 49 has a plurality of magnetic poles (S ₁ ,
N ₁ , S ₂ , N ₂ ). More specifically, the magnetic pole S ₁ is at a portion facing the toner carrier 9, the magnetic pole N ₁ is at a portion facing the second developer carrier 47, and the magnetic pole S ₂ is a developer supply member 27.
Are arranged at the facing portions of the above. The predetermined supply bias V _S is connected to a DC power source 53 is adapted to be applied to the sleeve 51.

Further, the second developing carrier 47 is, similarly to the first developer carrier 46, a magnet body 5 fixed in a non-rotating state.
4 and a sleeve 56 which is mounted on the magnet body 54 and is driven to rotate in the direction of arrow 55 (the same direction as the rotation direction of the toner carrier 9). The magnet body 54 has a plurality of magnetic poles on its outer peripheral portion. (N ₃ , S ₃ , N ₄ , N ₅ , S ₄ ). Specifically, the magnetic pole N ₃ is provided at a portion facing the toner carrier 9, the magnetic pole S ₄ is provided at a portion facing the first developer carrier 46,
The magnetic pole N ₄ and the magnetic pole N ₅ are close to each other and
Are arranged at the facing portions of the above. The recovery bias V _R of predetermined is connected to a DC power source 59 is adapted to be applied to the sleeve 56.

Here, the developing bias V _B , supply bias V _S and recovery bias V _R will be described. In addition,
In the developing device 3 of the present embodiment, a two-component developer composed of a toner and a carrier is used. The two components are brought into frictional contact with each other, so that the toner has a negative polarity and the carrier has a positive polarity. I do. Further, the outer peripheral surface of the photoconductor 1 is negatively charged (for example, −600 V), and a portion (for example, −100 V) of which the potential is attenuated by exposure.
It is assumed that toner is attached to V) and development is performed.
In this case, the developing bias bias V _B is -400 V, supply bias V _S is -450~-750V, retrieving bias V _R is set to -350~-50V.

As described above, the toner carrier 9, the sleeve 5
By applying a voltage to 1 and 56, in the toner supply area 52 between the first developer carrier 46 and the toner carrier 9, the negatively charged toner is transferred to the first developer carrier. An electric field is drawn from 46 toward the toner carrier 9. In the toner collecting area 57 between the second developer carrier 47 and the toner carrier 9, an electric field for attracting toner from the toner carrier 9 to the second developer carrier 47 is formed. .

The supply bias V _S applied to the sleeve 51 of the first developer carrier 46 is greater than the development bias V _B applied to the toner carrier 9 when the polarity of the toner is positive. The recovery bias V _R applied to the sleeve 56 of the second developer carrier 47 is negatively biased with respect to the development bias V _B applied to the toner carrier 9. It should just be. Further, the DC power supplies 48, 53, 59
In this case, an AC superimposed DC voltage may be used as a power supply.
The other components are the same as those of the developing device 3 and the same reference numerals are given, and the description is omitted.

The basic developing operation of the developing device 3 having the above configuration will be described. The two-component developer 31 composed of the toner and the carrier is stirred by the developer supply member 27 to charge the toner to the negative polarity and the carrier to the positive polarity. Carrier 4
6. The supplied developer 31 is held on the outer peripheral portion of the first developer carrier 46 by the magnetic force of the magnet body 49, is conveyed in the direction of arrow 50 with the rotation of the sleeve 51, and is adjusted to a predetermined amount by the regulating member 36. . At this time, the developer 31 forms a magnetic brush along the lines of magnetic force formed by the magnet body 49.

Next, the developer 31 is transferred to the toner supply area 52.
Is affected by the electric field formed between the toner carrier 9 and the first developer carrier 46 here.
As a result, in the toner supply region 52, the toner charged to the negative polarity is attracted to and adheres to the toner carrier 9 having a higher potential than the first developer carrier 46.

On the other hand, the carrier having lost the toner and the developer having passed through the toner supply area 52 are subjected to the first developer carrier 46 and the second developer carrier by the attraction magnetic field of the magnet 49 and the magnet 54. 47 is transferred to the second developer carrying member 47 over a region 58 facing the second developer carrying member 47.

The toner supplied to the toner carrier 9 as described above is moved by an arrow 11 according to the rotation of the toner carrier 9.
And is used for developing the electrostatic latent image formed on the photoconductor 1 in the developing area 41. The toner carrier 9 that has passed through the development area 41 without being used for development
Is transferred to the toner collection area 57 in a state where the charge amount is reduced by the contact between the toner carrier 9 and the photoconductor 1.

The toner that has entered the toner collecting area 57 is
It is affected by the electric field formed between the toner carrier 9 and the second developer carrier 47. As a result, in the toner collecting area 57, the toner charged to the negative polarity is attracted to the second developer carrier 47 having a higher potential than the toner carrier 9, and is also transferred to the second developer carrier 47. The magnetic brush being conveyed is scraped off and collected by the second developer carrier 47. Note that the toner held on the toner carrier 9 that has passed through the development area 41 is, as described above,
Since the charge amount is reduced, the toner can be easily collected from the toner carrier 9 to the second developer carrier 47. Therefore, no fogging failure occurs, and even if the toner has a high charge amount, the toner collection area 5
It is not necessary to forcibly increase the developer filling density of No. 7, and the developer is not clogged in the toner collecting area 57.

The toner collected by the second developer carrier 47 is transported in the direction of arrow 55 along with the rotation of the sleeve 56 of the second developer carrier 47, and is mixed again with the carrier in the course of the transport to develop the toner. In the developer recovery area 38, the magnetic field N ₄ and the magnetic pole N ₅ of the magnet body 54 are separated from the sleeve 56 by the repulsive magnetic field and supplied to the developer supply member 27.

As described above, in the developing device 45, the toner not used for the development in the developing area 41 is collected by the second developer carrier 47 in the toner collecting area 57. Also,
The toner is uniformly supplied from the first developer carrier 46 to the toner carrier 9 from which the toner has been removed. Therefore,
There is no toner consumption pattern on the toner carrier 9 that has passed through the toner recovery area 57, and this toner consumption pattern does not appear in a subsequently developed toner image.

As described above, the developing device 45
In the example, an electric field is formed in the toner collecting area 57 to move the toner from the toner carrier 9 to the second developer carrier 47. However, since the charge amount of the toner passing through the developing area 41 is reduced, Even when no electric field is formed in the toner collecting area 57, the toner is scraped off by the carrier of the second developer holding member 47 and collected from the toner holding member 9.

In this embodiment, the distance D2 between the toner carrier 9 and the second developer carrier 47 is smaller than the distance D1 between the toner carrier 9 and the first developer carrier 46. Although the developer filling density in the toner collecting area 57 is smaller than the developer filling density in the toner supply area 52, the charge amount of the toner passing through the developing area 41 is reduced as described above. The collection of the toner in the second developer carrier 47 is favorably performed. Further, since the developer filling density of the toner collecting area 57 is low, the second
The problem that the carrier is transported from the developer carrier 47 to the toner carrier 9 does not occur.

Next, a third embodiment according to the present invention will be described. In the developing device 60 shown in FIG. 4, the toner carrier 62 includes a first support roller 63 disposed at a predetermined interval on the photoconductor 1, and a first support roller 63 disposed below the first support roller 63. And a toner carrying belt 91 wound around the first support roller 63 and the second support roller 69. The first support roller 63 is driven by a motor (not shown). By rotating in the direction of arrow 65, the toner carrying belt 91 and the second support roller 69 rotate in the directions of arrow 95 and arrow 67, respectively. Further, the toner carrying belt 91 is
It rotates so as to be in contact with the photoconductor 1.

The developer carrier 61 is provided with a magnet 71 fixed in a non-rotating state, and a sheath mounted on the magnet 71,
And a sleeve 75 driven in three directions (the same direction as the direction 95 in which the toner carrying belt 91 rotates).
The toner carrying belt 91 is arranged to face the portion of the toner carrying belt 91 from the second support roller 69 to the first roller 63.

The magnet body 71 has a plurality of magnetic poles (N ₁ , S ₁ , N ₂ , N ₃ , S ₂ ) on the outer periphery. More specifically, the magnetic pole N ₁ is at a portion facing the first support roller 63, the magnetic pole S ₁ is at a portion facing the second support roller, and the magnetic poles N ₂ and N ₃
The magnetic poles S ₂ are arranged on the lower side of the portion facing the developer supply member 77, respectively, in the vicinity of each other. A regulating member 64 that faces the developer carrying member 61 at a predetermined interval is provided above the facing portion between the developer carrying member 61 and the developer supply member 77.

A DC power supply 85 is connected to the sleeve 75 so that a reference bias V _C is applied. Similarly, DC power supplies 87 and 89 are connected to the first support roller 63 and the second support roller 69, respectively, so that the supply bias V _S and the recovery bias V _R are respectively applied. ing. In the third embodiment, as in the first and second embodiments, a two-component developer including a toner and a carrier is used for development, and the two components are in contact with each other. By doing
It is assumed that the toner has a negative polarity and the carrier has a positive polarity.

Further, it is assumed that the outer peripheral surface of the photosensitive member 1 is negatively charged (for example, -600 V), and toner is attached to a portion (for example, -100 V) of which the potential has been attenuated by exposure, so that development is performed. In this case, the reference bias V _C
Is -450 to -700 V, and the supply bias V _S is -400.
V, retrieving bias V _R is set to -750~-1000V.

Note that an electric field for supplying toner from the developer carrier 61 to the toner carrying belt 91 is formed in the toner supply area 81 between the developer carrier 61 and the first support roller 63. And the developer carrier 6
Toner collection area 83 between first and second support rollers 69
In order to form an electric field for collecting toner from the toner carrying belt 91 to the developer carrying member 61, the first support roller 63 and the second support roller 69 must be in a non-conductive state. For this reason, the toner carrying belt 91
Is used which has a resistance value of 10 ⁶ Ωcm or more from the viewpoint of preventing current leakage. Further, the toner carrying belt 9
1 is coated with a fluorine-based Teflon so that the toner carrying belt 91 and the photoconductor 1 come into contact with each other so that the charge amount of the toner held by the toner carrying belt 91 passing through the developing area 41 is reduced. It has become.

The developing operation of the developing device 60 having the above configuration will be described. First, the two-component developer 93 is supplied from the developer supply member 77 to the developer carrier 61. The supplied developer 93 is conveyed in the direction of arrow 73 with the rotation of the sleeve 79, adjusted to a predetermined amount by the regulating member 64, and then, in the toner supply area 81, by the electric field formed in the toner supply area 81. The toner moves from the developer carrying member 61 to the toner carrying belt 91. On the other hand, the carrier that has lost the toner and the developer that has passed through the toner supply area 81 are held by the magnetic force of the magnet 71, pass through a predetermined distance between the sleeve 75 and the toner carrying belt 95, and have a toner collection area 8.
3 is carried.

The toner supplied to the toner carrying belt 91 is conveyed in the direction of arrow 95 according to the rotation of the toner carrying belt 91, and is used for developing the electrostatic latent image formed on the photosensitive member 1 in the developing area 41. You. Further, as described above, the amount of charge of the toner that has passed through the development area 41 without being used for development is reduced by the contact between the toner carrying belt 91 and the photoconductor 1, and in this state, the toner is recovered. The data is sent to the area 83.

The toner that has entered the toner collecting area 83 is
Due to the electric field formed in the toner collecting area 83, the toner is moved from the toner carrying belt 91 to the developer carrying member 61, and is conveyed in the direction of the arrow 73 with the rotation of the sleeve 75. In the supply / recovery area 79, the developer is supplied to the developer supply member 77 away from the sleeve 75 by the repulsive magnetic field of the magnetic poles N ₂ and N ₃ of the magnet 71. Further, as described above, the toner retained on the toner carrying belt 91 that has passed through the developing area 41 is easily collected by the developer carrying member 61 because the charge amount is reduced. Therefore, no fogging failure occurs,
Further, even if the toner has a high charge amount, the developer filling density in the toner collecting area 83 does not need to be forcibly increased.
There is no clogging of the developer in the toner collecting area 83.

As described above, the toner not used for the development in the developing area 41 is collected by the developer carrier 61 in the toner collecting area 83. Further, the toner is uniformly supplied again from the developer carrying member 61 to the toner carrying belt 91 from which the toner has been removed. Therefore, the toner carrying belt 91 that has passed the toner collecting area 83 has no toner consumption pattern, and this toner consumption pattern does not appear in a subsequently developed toner image.

Further, the developing device 100 according to the fourth embodiment shown in FIG.
01 are arranged opposite to each other at a predetermined interval. Since the developer carrier 61 has the same configuration as the developer carrier 61 of the developing device 60 described above, the description of the configuration is omitted. The toner carrier 101 is provided in contact with the photoconductor 1 and is rotatably provided in the direction of arrow 103 (the same rotation direction as the rotation direction of the sleeve 75 (arrow 73)). In the vicinity of the surface, a plurality of electrodes 107 extending in the axial direction of the toner carrier 101 are embedded at equal intervals in the circumferential direction of the toner carrier 101. The surface of the elastic insulating material 105 is coated with a fluorine-based Teflon, and when the toner carrier 101 and the photoconductor 1 come into contact with each other, the developing region 4 is formed.
The amount of charge of the toner held on the toner carrier 101 that has passed through 1 is reduced.

A pair of electrodes 111 are provided in the toner supply region 109 above the closest portion between the developer carrier 61 and the toner carrier 101 to contact both ends of the electrode 107 passing through the toner supply region 109. is there. Similarly, a pair of electrodes 115 contacting both ends of an electrode 107 passing through the toner collecting area 113 is provided in a toner collecting area 113 below the closest part between the developer holding member 61 and the toner holding member 101. As for the electrodes 111 and 115, the electrodes 107 that come into contact with the rotation of the toner carrier 101 are sequentially changed.
3 contacts the electrodes 107 respectively.

A DC power supply 117 is connected to the sleeve 75 of the developer carrier 61 so that a reference bias V _C is applied. Similarly, the electrodes 111, 1
15 are connected to DC power supplies 119 and 121, respectively.
A supply bias V _S and a recovery bias V _R are applied, respectively. Note that, also in the fourth embodiment, the outer peripheral surface of the photoconductor 1 is negatively charged (for example, −6).
00V), and the toner is attached to a portion (for example, -100 V) where the potential is attenuated by the exposure, and the development is performed.

In this case, the reference bias V _C is −15.
0～400V, supply bias V _S is -100 V, the recovery bias V _R is set to -450~-700V. Further, since the toner is charged with a negative polarity and the carrier is charged with a positive polarity, an electric field for moving the toner from the developer carrier 61 to the toner carrier 101 is formed in the toner supply region 109 and the toner collection region 11 is formed.
An electric field for moving the toner from the toner carrier 101 to the developer carrier 61 is formed at 3.

The developing operation of the developing device 100 having the above configuration will be described. First, the two-component developer 93 is supplied from the developer supply member 77 to the developer carrier 61. The supplied developer 93 is conveyed in the direction of arrow 73 with the rotation of the sleeve 75, and after the conveyance amount is adjusted by the regulating member 64, the developer 93 is affected by the electric field formed in the toner supply area 109.
Only the toner moves to the toner carrier 101.

On the other hand, the carrier that has lost the toner and the developer that has passed through the toner supply area 109 are transported to the toner recovery area 113 as the sleeve 75 rotates.

The toner supplied to the toner carrier 101 as described above is conveyed in the direction of the arrow 103 and used for developing the electrostatic latent image formed on the photosensitive member 1 in the developing area 41. Further, as described above, the charge amount of the toner that has passed through the development area 41 without being used for development is reduced by the contact between the toner carrier 101 and the photoconductor 1, and in this state, the toner is recovered. The data is sent to the area 113.

The toner that has entered the toner collecting area 113 moves to the developer carrier 61 under the influence of the electric field formed in the toner collecting area 113, and is conveyed in the direction of arrow 73 with the rotation of the sleeve 75, and the carrier Again in the developer supply / recovery area 79 in the magnet body 7 of the magnet body 71.
Apart from the sleeve 75 is supplied to the developer supply member 77 by the repulsive magnetic field of the first magnetic pole N ₂ and N _3.

As described above, the toner not used in the development in the development area 41 is collected by the developer carrier 61 in the toner collection area 113. At this time, the toner held on the toner carrier 101 is easily collected by the developer carrier 61 because the charge amount is reduced by the contact between the toner carrier 101 and the photoconductor 1. Therefore, no fogging failure occurs, and even if the toner has a high charge amount, it is not necessary to forcibly increase the developer filling density in the toner collecting area 113, and the developer is clogged in the toner collecting area 113. Not even. Further, the toner is uniformly supplied from the developer carrier 61 to the toner carrier 101 from which the toner has been removed. Therefore, there is no toner consumption pattern on the toner carrier 101 that has passed through the toner collection area 113, and this toner consumption pattern does not appear in a subsequently developed toner image.

As described above, the developing device 10
At 0, an electric field is formed in the toner recovery area by the electrode 115, and the toner is efficiently moved from the toner carrier 9 to the developer carrier 61, but the toner that has passed through the development area 41 is Since the amount of charge is reduced, when an electric field is not formed in the toner collecting area 113, that is, even when the electrode 115 is not provided, the toner is scraped off by the carrier of the developer carrier 61 and the toner carrier 6 is removed from the toner carrier 101.
Moved to 1 and collected.

[0058]

As is apparent from the above description, in the developing device according to the present invention, the contact between the toner carrier and the photosensitive member causes the charging of the toner held by the toner carrier passing through the developing area. The amount can be reduced. Therefore, even when a toner having a high charge amount is used to form a good image, the amount of charge of the toner that has passed through the developing area decreases, so that the toner carrier and the developer carrier It is not necessary to forcibly increase the developer filling density during the period to move the toner from the toner carrier to the developer carrier. For this reason, it is possible to prevent the clogging of the developer between the toner carrying members caused by increasing the filling density of the developer, the problem that the carrier adheres to the toner carrying member, and the occurrence of the fogging defect. Can be.

[Brief description of the drawings]

FIG. 1 is a partial sectional view of a developing device according to the present invention.

FIG. 2 is a diagram illustrating the transfer of toner between a toner carrier and a developer carrier in a toner supply / recovery area.

FIG. 3 is a partial sectional view of a developing device according to a second embodiment of the present invention.

FIG. 4 is a partial sectional view of a developing device according to a third embodiment of the present invention.

FIG. 5 is a partial sectional view of a developing device according to a fourth embodiment of the present invention.

6A and 6B are diagrams illustrating a method of supplying the toner to the toner carrier, wherein FIG. 6A is a method of once removing all the toner from the toner carrier and then supplying the toner again, and FIG. FIG. 6 is a diagram illustrating a method of replenishing toner to a toner consuming portion of FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Photoreceptor, 3 ... Developing device, 9 ... Toner carrier, 15 ...
Developer carrier 23, toner supply / collection area 31 ... 2
Component developer.

Claims (1)

[Claims] An outer peripheral portion which holds a toner and which is rotatably supported in contact with a photoreceptor; and a two-component developer which comprises a toner and a carrier at an outer peripheral portion.
A developing device having a developer carrier that is opposed to the toner carrier at a predetermined interval, wherein the toner carrier is brought into contact with a photoconductor to form a developing area. A developing device formed of a material that reduces the amount of charge of the toner held on the toner carrier that has passed through the developing device.