JP2000214686A - Electrophotographic developing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a good image with high image density without fogging by setting developing bias having the intensity of electric field high enough to remove the fogging occurring in a 1st developing area in a 2nd developing area. SOLUTION: The potential of an exposure part in the developing area is SP11 on an upstream side and SP12 on a downstream side, and the potential of a non-exposure part is SP21 on the upstream side and SP22 on the downstream side. Then, SP11 and SP12 are about 50 V and SP21 and SP22 are about 700 V, and each potential is nearly determined according to the performance(electrification performance, dark attenuation and residual potential and the like) of a photoreceptor. When the developer is applied in the 2nd developing area, the potential of the 2nd developing bias Vb2 is near to the ground level of about 100 V with reference to the potential of SP12. Therefore, the direction of the electric field is a direction where positively electrified toner is restored toward a 2nd sleeve member at the exposure part on the downstream side of a photoreceptor drum, so that fogged toner at the exposure part on the downstream side of the photoreceptor drum is recovered to the 2nd sleeve member.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a copying machine, a laser printer, a facsimile, and the like, and more particularly to a developing device for reversal development of an image forming apparatus using an electrophotographic technique.

[0002]

2. Description of the Related Art A conventional technique will be described with reference to FIG.
An electrostatic latent image is formed on the peripheral surface of the photosensitive drum 1, and the electrostatic latent image is an exposed portion and a non-exposed portion. In the embodiment of the related art, the electrostatic latent image The potential is +
It is about 50 V, the non-exposed part is about +700 V,
The respective potentials correspond to the performance (charging performance,
Dark decay, residual potential, etc.). The toner on the peripheral surface of the first sleeve member 51 and the developer on the peripheral surface of the second sleeve member 61 are applied to the electrostatic latent image to form a toner image. This is the first sleeve member 5
The developer on the surface of No. 1 plus the charge of the charged toner and the first
Due to the repulsive force with the plus bias applied to the sleeve member 51, toner is blown to the exposed portion of the electrostatic latent image, the exposed portion is turned into a toner image, and the surface of the second sleeve member 61 Due to the repulsive force of the positively charged toner of the developer and the positive bias applied to the second sleeve member 61, the toner is skipped to the exposed portion of the toner image of the electrostatic latent image, and A clear toner image is formed. The reason that the toner image is not formed on the non-exposed portion of the electrostatic latent image is that the surface potential of the non-exposed portion is approximately +700 V and is applied to the first sleeve member 51 and the second sleeve member 61. The bias is approximately +600 V, and the positively charged toner in the developer of the first sleeve member 51 and the second sleeve member 61 moves from the non-exposed portion of the photosensitive drum 1 to the first sleeve member 51. And the electric field in the direction of the second sleeve member 61 causes the first sleeve member 51 and the second sleeve member 6
This is because a force acts in the direction of No. 1 and there is no force for adhering in the direction of the photosensitive drum 1.

[0003]

However, according to such a conventional method, the potential of the exposed portion of the electrostatic latent image and the potentials of the first sleeve member 51 and the second sleeve member 6 are changed.
The potential difference from the bias potential applied to 1 becomes small, which is an obstacle to increasing the image density.
Suppose that the bias is +700 which is the same as the surface potential of the non-exposed portion.
When V is applied, the image density of the exposed portion of the electrostatic latent image becomes
The potential difference between the potential of the exposed portion and the bias applied to the sleeve increases the potential difference of the bias, resulting in a dark image. However, the image density of the non-exposed portion depends on the potential of the non-exposed portion and the first sleeve member 51 and the second The bias potential difference applied to the sleeve 61 disappears, and the toner of the developer on the first sleeve member 51 and the second sleeve 61 loses the electric repulsive force from the photosensitive drum 1. The photosensitive drum 1 on which an image must not be formed
A small amount of toner adheres to the peripheral surface portion of the toner, and a fog image is formed.

[0004]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a developing housing; a developer stirring and conveying means; a developer regulating means; A first sleeve member provided and rotatably moved in a direction opposite to a rotational movement direction of the peripheral surface of the photosensitive drum in the developing region, and a first magnet provided in the first sleeve member. A first developing roller configured; first developing bias applying means for applying a first developing bias to the first sleeve member;
A second sleeve member that rotates in the forward direction with respect to the rotational movement direction of the peripheral surface of the photosensitive drum on the downstream side in the rotational movement direction of the photosensitive drum with respect to the developing roller, and the second sleeve member A second developing roller constituted by a second magnet disposed therein; second developing bias applying means for applying a first developing bias to the second sleeve member; and a developer return guide plate Wherein the developing housing comprises: a stirring tank having the developer stirring and conveying means therein; and a developing tank having the first developing roller and the second developing roller therein. Forming, the developer is circulating through the stirring tank and the developing tank,
The developer stirring / conveying means conveys the developer composed of carrier particles and toner to the second developing roller side while stirring the developer, and the developer regulating means conveys the developer pumped up by the second sleeve member. Regulating the layer thickness of the agent,
The developing roller of the first embodiment has a magnetic pole of the first magnet and the first magnetic pole.
By the rotational movement of the sleeve member, the developer conveyed from the developer stirring and conveying means is magnetically attracted and held on the peripheral surface of the second sleeve member, and the developer pumped up by the developer regulating means is The amount is regulated, said second
A part of the developer adsorbed and held on the peripheral surface of the sleeve member is transferred to the peripheral surface of the first sleeve member, and the remaining developer that is not transferred to the first sleeve member of the second sleeve member Is sent to a second developing area formed by the second sleeve member and the photosensitive drum, and a toner image is formed by applying the developer to an electrostatic latent image on a peripheral surface of the photosensitive drum, Thereafter, the developer is returned into the developing housing, and the first developing roller transfers the transferred developer to the first sleeve by the rotational movement of the magnetic pole of the first magnet and the first sleeve member. The developer and the photosensitive drum to form a toner image by applying the developer to the electrostatic latent image on the peripheral surface of the photosensitive drum, and thereafter, the developer return guide plate The developer to the developer The return guide plate returns the developer delivered from the first sleeve member to an upstream side of the developer stirring and conveying unit in the housing, and the toner supply unit determines a ratio of the toner and the carrier of the developer. In the electrophotographic reversal developing device, in which toner is supplied into the developing housing in order to maintain the toner at a predetermined value, the first bias voltage applied to the first sleeve member is the photoconductor. The second bias voltage, which is substantially the same as the potential of the non-exposed portion of the electrostatic latent image of the drum 1 and is applied to the second sleeve member, is higher than the first bias voltage by 50 V to 150 V ground. An electrophotographic reversal developing device characterized by being close to the level is provided.

[0005]

In the first sleeve member, a developing bias having an electric field intensity is set to such an extent that fog slightly occurs in the first developing region, and after sufficient image density is obtained, the second sleeve member is set. In the second developing area, by setting a developing bias having an electric field intensity enough to remove fog generated in the first developing area, a good image having a high image density and no fog can be obtained. Can be obtained.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A printing apparatus capable of double-sided printing to which an embodiment of the present invention is applied will be described with reference to FIG. In the drawing, first, each component will be described.

The photosensitive drum 1 has undergone a charging and exposing process before reaching the developing process, and a drum having an electrostatic latent image formed on the peripheral surface is rotating.

The developing housing 2 is a housing of the developing device main body, maintains components of the developing device in a predetermined positional relationship, and is a developer tank. In general, the material is made of a resin containing glass fiber or the like to achieve dimensional accuracy.

The developer stirring and conveying means 3 stirs and conveys a developer composed of carrier particles and toner using a stirring paddle or a spiral, thereby causing frictional charging to charge the toner.

The developer regulating means 4 has an end located at a predetermined gap from the second sleeve member 61, and regulates the layer thickness of the developer conveyed on the peripheral surface of the second sleeve member 61. This is the so-called ear-cutting board that has the role of As the material, metals such as stainless steel, brass, and aluminum alloy are used in consideration of abrasion resistance and prevention of toner adhesion. Since the setting of the layer thickness requires accuracy, in this embodiment, the auxiliary plate 4 is used.
Fine adjustment is possible by fixing to 1.

The first developing roller 5 is disposed in the developing housing 2 in parallel with the photosensitive drum 1 and rotates in the direction opposite to the rotational movement of the peripheral surface of the photosensitive drum 1. It is constituted by a first sleeve member 51 and a first magnet 52 disposed in the first sleeve member. The first sleeve member 51 adsorbs and conveys the developer to the peripheral surface, and sends the developer to a first developing area formed by the first sleeve member 51 and the photosensitive drum 1, and the peripheral surface of the photosensitive drum 1 The developer is applied to the electrostatic latent image to form a toner image. Here, an appropriate developing bias is applied to the first sleeve member 51, and an electrostatic latent image on the peripheral surface of the photosensitive drum 1 is formed by forming an electric field using the photosensitive drum 1 as a counter electrode. Is a toner image. The material of the first sleeve member 51 is generally an aluminum alloy, and the peripheral surface thereof is subjected to knurling, sandblasting, and wire brushing in consideration of improvement in developer transfer performance. The first magnet 52 has multiple magnetic poles in the radial direction, and the role of the magnetic poles will be described later in the flow of the developer. The material of the first magnet 52 is a ferrite-based permanent magnet (sintered or binder magnet).

The second developing roller 6 is disposed in the developing housing 2 in parallel with the photosensitive drum 1 and rotates in the forward direction with respect to the rotating direction of the peripheral surface of the photosensitive drum 1. It is constituted by a second sleeve member 61 and a second magnet 62 provided in the second sleeve member. The second sleeve member 61 adsorbs and transports the developer to the peripheral surface, and sends the developer to a second developing area formed by the second sleeve member 61 and the photosensitive drum 1, and the peripheral surface of the photosensitive drum 1 The developer is applied to the electrostatic latent image to form a toner image. Here, an appropriate developing bias is applied to the second sleeve member 51, and an electrostatic latent image on the peripheral surface of the photosensitive drum 1 is formed by forming an electric field using the photosensitive drum 1 as a counter electrode. Is a toner image. The material of the second sleeve member 61 is generally an aluminum alloy, and its peripheral surface is subjected to knurling, sandblasting, and wire brushing in consideration of improvement in developer transport performance. The second magnet 62 has multiple magnetic poles in the radial direction, and the role of the magnetic poles will be described later in the flow of the developer. The material of the second magnet 62 is a ferrite-based permanent magnet (sintered or binder magnet). It should be noted that in the present embodiment described later, the polarities of N and S of the respective magnetic poles of the first magnet 52 and the second magnet 62 related to the flow of the developer may be all reversed. Needless to say.

The developer return guide plate 7 has a role of returning the developer delivered from the first sleeve member 51 to the upstream side of the agitating / conveying means 3 of the developing housing 2, and has a function of returning the first developer. A plate that is inclined from the upper part of the sleeve member 51 to the upstream side of the stirring and conveying means 3 of the developing housing 2. The developer return guide plate 7 has a rib (not shown) on the surface through which the developer flows, and rectifies the flow of the developer. The material is resin, stainless steel, etc., and is not particularly problematic.

The toner density detecting means 8 uses a magnetic permeability sensor, and may be installed at any location as long as the toner and the carrier particles are sufficiently stirred and the mixed developer flows.

The toner supply means 9 comprises a hopper 91, a toner supply roller 92, and the like. The toner supply roller is rotated by rotating a toner supply motor, and the developer in the development housing 2 is opened through a lower opening. The toner is dropped on the upstream side of the stirring and conveying means 3.
By comparing the toner density of the developer measured by the toner density detecting means 8 with the set toner density, when the measured toner density is lower than the set toner density, the toner is replenished and measured. Control is performed such that toner supply is stopped when the toner density becomes higher than the set toner density.

Next, the flow of the developer will be described. First, the developer is conveyed to the second developing roller side while being stirred by the developer stirring and conveying means 3, and is conveyed by the developer stirring and conveying means 3. The developer is magnetically attracted and held on the peripheral surface of the second sleeve member 61 by the pumped magnetic pole S21 of the second magnet.
The amount of the developer pumped up by the second magnet 62 is regulated, and the distribution magnetic pole N22 of the second magnet 62 and the distribution magnetic pole N2
The distribution magnetic pole S of the first magnet 52 having a different polarity from the distribution magnetic pole S11 of the second magnet 51 located at a position facing the second magnet 51.
11, a part of the developer sucked and held on the peripheral surface of the second sleeve member 61 is removed from the first sleeve member 5.
1 is transferred to the peripheral surface. Subsequently, the remaining developer that is not transferred to the first sleeve member 51 of the second sleeve member 61 is rotated by the second sleeve member 61 and the main pole S22 of the second magnet 62 and The magnetic field created by the distribution pole N22 of the second magnet 62 causes the second sleeve member 61 and the second
In the second developing zone, the developer forms ears by the main pole S23 of the second magnet 62, and the developing agent forms an electrostatic latent image on the peripheral surface of the photosensitive drum 1 in the developing zone. A toner image is formed by applying the agent. After that, the developer is moved by the rotation of the second sleeve member 61 and the magnetic field generated by the main pole S23 of the second magnet 62 and the magnetic pole N24 on the upstream side of the peeling pole of the second magnet 62, thereby forming the second developer. Magnet 62
Is transported to a location where a repelling magnetic field is formed between the adjacent peeling magnetic poles N24 and N25 having the same polarity, and the repelling magnetic field loses the magnetic binding force attracted to the second sleeve member 61 and causes the developing housing Returned within 1. On the other hand, the distribution magnetic pole S11 of the first magnet 52 having a different polarity from the distribution magnetic pole N22 of the second magnet 62 and the distribution magnetic pole N22 of the second magnet 62 located at a position facing the distribution magnetic pole N22. The transferred developer is sent to the first developing area formed by the first sleeve member 51 and the photosensitive drum 1 by the rotational movement of the first sleeve member 51, and in the first developing area, The developer is the first magnet 5
One main pole N12 forms a spike, and the developer is applied to the electrostatic latent image on the peripheral surface of the photosensitive drum 1 to form a toner image. After that, the developer causes the rotational movement of the first sleeve member 51, the restraining force generated by the main pole N12 of the first magnet 52 and the transport magnetic pole S13 on the downstream side, and the transport magnetic pole S
13 and the magnetic poles of N14 on the further downstream side, are conveyed to the portion of the first sleeve member 51 which is not affected by the magnetic poles of the first magnet 52 on the peripheral surface of the first sleeve member 51, and When the magnetic binding force attracted to the sleeve 1 is lost, the magnetic force is transferred to the developer return guide plate 7 and further reaches the upstream side of the developer stirring and conveying means 3 in the developing housing 2 by gravity. .

Here, the features of the present invention will be described with reference to FIGS. 2 and 3. An electrostatic latent image is formed on the peripheral surface of the photosensitive drum 1, and the electrostatic latent image is And the non-exposed part, and the potential of the exposed part in the development area is SP11 on the upstream side.
The downstream side is SP12, and the potential of the non-exposed portion is SP21 on the upstream side, SP22 on the downstream side, and SP11 and S
P12 is about 50 V, SP21 and SP22 are about 700 V, and the respective potentials are almost determined by the performance (charging performance, dark decay, residual potential, etc.) of the photoconductor 1, and
It can be said that P11 and SP12 are lower, and that SP21 and SP22 are higher, the better the photosensitive drum. Strictly speaking, SP11> SP12 and S
Although P21> SP22, the difference is negligible. This electrostatic latent image becomes a toner image upon application of the developer on the peripheral surface of the first sleeve member 51.
The larger the difference between the developing biases Vb1 is, the more the toner is applied to the non-exposed area, and if SP21 <Vb1, the toner is applied to the exposed area to form a fog image. This is SP21 and Vb1
Have substantially the same potential, a small amount of toner is deposited on the non-exposed portion. Subsequently, the exposed portion and the non-exposed portion formed into a toner image in the second development area further have a second sleeve member 6.
By applying the developer on the peripheral surface of No. 1, a clearer toner image is formed. This is because the exposed portion is further subjected to the application of the developer, and the non-exposed portion is a fog image with a small amount of toner in the first development region.
The toner is originally a toner having a small binding force to the photosensitive drum 1, and when the developer is applied in the second developing area, the potential of Vb2 becomes about 100V ground level with respect to the potential of SP12. Near (in this embodiment, a low voltage), the direction of the electric field in the exposed portion on the downstream side of the photosensitive drum 1 is a direction of returning the positively charged toner to the direction of the second sleeve member 61. The fog toner in the exposed portion on the downstream side of 1 is collected by the second sleeve member 61. As a result, the electrostatic latent image on the photosensitive drum 1 becomes a toner image with a darker portion at the exposed portion and a less fog at the non-exposed portion.

In the present invention, the first bias voltage applied to the first sleeve member is substantially the same as the potential of the non-exposed portion of the electrostatic latent image on the photosensitive drum 1. And the second bias voltage applied to the second sleeve member is characterized by being closer to the ground level by 50 V to 150 V than the first bias voltage, that is, 50 V <| Vb1-Vb2 | <150V; In addition, SP11 ≒ Vb1 was characterized, and in the above-described embodiment, an experiment was performed by setting | Vb1−Vb2 | ≒ 100V, and the effect was obtained.
If the potential difference between the non-exposed portion and the developing bias in the developing device for reversal development is set to such a value, a fog image is not obtained.
The range is close to 0V ground level, and the range of the voltage has no critical meaning. Rather, it is preferable to appropriately set the optimal value of | Vb1−Vb2 | according to the performance of the photoconductor, the performance of the developer, and other related parameters.

[0019]

According to the present invention, an image having a higher image density and less fog can be formed even under the condition that the performance of the photosensitive drum and the performance of the developer are determined.

[Brief description of the drawings]

FIG. 1 is a schematic view of a developing device of the present invention.

FIG. 2 is a schematic view of a developing region according to the embodiment of the present invention.

FIG. 3 is a schematic view of a development area according to the embodiment of the present invention.

FIG. 4 is a schematic view of a conventional developing device.

[Explanation of symbols]

 31; Upstream stirring paddle 32; Downstream stirring paddle

Continued on the front page F-term (reference) 2H031 AA01 AA17 AB03 AB09 AC02 AC10 AC11 AC14 AC19 AC33 AC34 AD09 BA04 BB01 BC03 CA07 CA13 2H073 AA05 BA02 BA13 BA41 BA45 CA03 2H077 AA15 AB03 AB06 AB15 AC03 AD02 AD13 AD18 AD35 AE03 DA06 DA06 DA04 DB02 EA01 EA21 FA01 FA03 GA17

Claims (1)

[Claims] A developer housing; a developer stirring / conveying means; a developer regulating means; and a rotational movement of a peripheral surface of the photosensitive drum in the developing area, which is disposed parallel to the photosensitive drum in the developing housing. A first sleeve member that rotates and moves in a direction opposite to the first direction, and a first developing roller that includes a first magnet that is disposed in the first sleeve member; First developing bias applying means for applying a first developing bias; and in a rotational movement direction of a peripheral surface of the photosensitive drum at a downstream side of the rotational movement direction of the photosensitive drum with respect to the first developing roller. A second sleeve member that rotates in a forward direction with respect to the second sleeve member and a second developing roller that includes a second magnet disposed in the second sleeve member; Developing bar A developer supply guide plate; and a toner supply unit. The developing housing includes a stirring tank having the developer stirring and conveying unit therein, Forming a developing tank having the first developing roller and the second developing roller therein, wherein the developer circulates through the stirring tank and the developing tank; The developer comprising the developer is conveyed to the second developing roller side with stirring, and the developer regulating means regulates the layer thickness of the developer pumped up by the second sleeve member, and The roller magnetically attracts the developer conveyed from the developer stirring and conveying means to the peripheral surface of the second sleeve member by the rotational movement of the magnetic pole of the first magnet and the first sleeve member. Holding the current The amount of developer pumped up by the agent regulating means is regulated, and a part of the developer adsorbed and held on the peripheral surface of the second sleeve member is transferred to the peripheral surface of the first sleeve member, and The remaining developer that is not transferred to the first sleeve member of the sleeve member is sent to a second development area formed by the second sleeve member and the photoconductor drum, and the developer on the peripheral surface of the photoconductor drum is statically transferred. The developer is applied to the latent image to form a toner image, and then the developer is returned into the developing housing. The first developing roller includes a magnetic pole of the first magnet and the first sleeve member. The developer is transferred to the first developing area formed by the first sleeve member and the photosensitive drum by the rotational movement of the photosensitive drum, and the developer is transferred to the electrostatic latent image on the peripheral surface of the photosensitive drum. Apply the toner image And then passes the developer to the developer return guide plate, and the developer return guide plate transfers the developer delivered from the first sleeve member upstream of the developer stirring and conveying means in the housing. Turning back to the side, the toner supply means is a developing device for reversal development of an electrophotographic system that replenishes toner into the developing housing in order to maintain a ratio of toner and carrier of a developer to a predetermined value. The first bias voltage applied to the first sleeve member is substantially the same as the potential of the non-exposed portion of the electrostatic latent image on the photosensitive drum, and is applied to the second sleeve member. Wherein the second bias voltage is closer to the ground level by 50 V to 150 V than the first bias voltage.