JPH10198171A - Developing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a developing device capable of stably obtaining an excellent image over a long term by preventing the deterioration of developer as a developing device visualizing a latent image formed by the difference of electrostatic potential by using two-component developer obtained by mixing magnetic carrier and toner. SOLUTION: A developing roll 3 is arranged to be proximately opposed to a photoreceptor drum 2. The roll 3 has a magnetic roll 3a fixedly supported and a developing sleeve 3b driven to be rotated around the roll 3a, and the developer supplied from a stirring and carrying member 6 is magnetically attracted and carried. A developer circularly moving member 5 is provided to be opposed to the roll 3, and a layer regulating member 4 is supported so that its tip may be protruded from a downstream side into a gap in which the member 5a and the roll 3 are opposed. The layer thickness of the developer in a napping state on the roll 3 is regulated by the member 4. The regulated developer is magnetically attracted by the developer circularly moving member and moved by the rotation of a sleeve for circulation 5a and restored to developer storing chambers 8 and 9.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a developing device used in an electrophotographic printer or copier, and more particularly to a developing device using a two-component developer in which a magnetic carrier and a toner are mixed. is there.

[0002]

2. Description of the Related Art As a conventional two-component developing apparatus using an electrophotographic system, there is generally known a developing apparatus in which a developer carrying member is disposed so as to be closely opposed to an image carrying member whose peripheral surface is rotatably supported. ing. The developer carrier of the developing device includes a thin cylindrical sleeve that is driven to rotate, and a magnet roll having a plurality of magnetic poles disposed inside the sleeve. Adsorbs the developer to form a magnetic brush in which carriers are spike-shaped. Then, the magnetic brush is rubbed or brought close to the image carrier by the orbital movement of the sleeve, and the toner is transferred to a latent image on the image carrier by a bias voltage applied to the developer carrier to perform development. In such a developing device, the layer regulating member for adjusting the amount of the developer conveyed to the facing portion between the image carrier and the developer carrier has a predetermined gap with the developer carrier. Are located.

However, when the layer thickness regulating member is used as described above, the developer is excessively filled at the front portion of the layer thickness regulating member, that is, on the upstream side in the developer conveying direction, so that the developing is not performed. Strong compressive force acts on the agent. Further, when the developer passes through the gap between the layer thickness regulating member and the developer carrier, a strong frictional force acts on the developer. Such a force causes the deterioration of the developer.

[0004] The deterioration of the developer is roughly classified into the deterioration of the toner and the deterioration of the carrier. Both of them are caused by a compressive force, a frictional force, or the like. It is as follows. Generally, the deterioration of the toner is caused by the external additive added for improving the chargeability and the fluidity being peeled off from the surface of the toner or buried in the resin of the toner. As such deterioration proceeds, the triboelectric charging characteristics change, and the charge amount distribution of the toner becomes extremely wide and unstable. For this reason, a toner having a low charge amount and a toner charged to a polarity opposite to a predetermined polarity (hereinafter, referred to as a toner of opposite polarity) are generated, and fogging to a background portion is generated.

[0005] Further, when the above-mentioned deterioration of the toner occurs, the contact area between the toner and the carrier increases, so that
The adhesion between the toner and the carrier increases. For this reason, it is difficult for the toner to peel off from the surface of the carrier, and the amount of toner to be developed is reduced, and the image density is reduced.
In particular, in non-contact two-component development, since there is no adhesive force between the toner and the image carrier, the coulomb force acting on the toner by the electric field causes the toner to separate from the carrier surface due to the electric field. Occurs when it becomes larger than the adhesive force between the two. Therefore, a decrease in image density is conspicuously caused by an increase in the adhesive force between the toner and the carrier due to the toner deterioration. As described above, when an image defect occurs due to deterioration of the toner, it means that the life of the developer has expired, and the developer needs to be replaced.

On the other hand, the deterioration of the carrier is caused by the adhesion of the toner or the external additive of the toner to the surface of the carrier.
When such deterioration occurs, the difference in the triboelectric charging order between the toner and the carrier is smaller than before the deterioration because the same material as the toner exists on the carrier surface. Therefore,
As the carrier deteriorates, the charge amount of the toner decreases, and a toner having a low charge amount and a toner of opposite polarity are generated, so that fogging to the background portion occurs.

[0007] As a method of solving such a problem,
For example, JP-A-63-217386 or JP-A-61-217386
There is one disclosed in Japanese Patent Application Laid-Open No. 65278/65. The developing device disclosed in JP-A-63-217386 is
As shown in FIG. 5, a developing roll 2 having a built-in permanent magnet
The developing roller 22 carries a developer layer on the surface thereof to develop a latent image on the surface of the photosensitive drum 21. A layer for regulating the thickness of the developer layer is provided on the upstream side of the developing area in the circumferential direction of the developing roll 22. A thickness regulating member 23 and a developer recirculation roll 24 for magnetically attracting and transferring the developer cut off by the layer thickness regulating member 23 are provided. Then, the developer cut off by the layer thickness regulating member 23 and accumulated on the upstream side thereof is transferred to the developer storage chamber 25 by the developer recirculation roll 24 to prevent friction and aggregation of the toner. .

In the developing device disclosed in Japanese Patent Application Laid-Open No. 61-65278, a developing magnet roller is provided at a position facing the photoreceptor, and a stirring roller is provided behind the developing magnet roller. At a position facing the developing magnet roller, a layer regulating member for regulating the layer thickness by scraping off the developer on the roller is provided, and the toner in the developer regulated by the layer regulating member is provided. A toner density detection sensor for detecting density is provided. The toner density in the developer is controlled based on the density detected by the toner density detection sensor. Also,
A surplus developer conveying magnet roller having a weaker magnetic force than the developing magnet roller is provided on the upstream side of the layer regulating member, and an interval between the surplus developer conveying magnet roller and the developing magnet roller is regulated by a layer regulation. It is set wider than the distance between the member and the developing magnet roller. With such a configuration, the developer scraped off by the layer regulating member and accumulated on the upstream side of the layer regulating member,
The toner is carried by the excess developer conveying magnet roller and flows through the stirring roller.

[0009]

However, the conventional developing device as described above cannot sufficiently obtain the effect of preventing the deterioration of the developer as described below. In the above-described conventional developing device, the developer carried on the developing roll (developing magnet roller) and transported to the layer forming portion is:
The sheet is transported to the developing area while being attracted to the developing roll, and is separated into ears cut by the layer thickness regulating member and stays upstream of the layer forming section. Then, the retained developer receives a compressive force by the developer conveyed later, and the amount of the retained developer increases, and when the amount exceeds a certain amount, the developer is pushed out by the developer conveyed later. The developer is attracted to the developer recirculation roll or the excess developer conveying magnet roller, and is carried out of the stagnation area. That is, even if the developer recirculation roll or the surplus developer conveyance magnet roll is provided, the developer staying upstream of the layer forming unit receives a strong compressive force by the developer conveyed later, There is no change in the fact that a strong frictional force acts between the developer and the developer to be conveyed to cause deterioration of the developer.

The magnet roller for transferring excess developer described in Japanese Patent Application Laid-Open No. 61-65278 is not intended to stably detect the concentration of developer, which is the original object of the invention described in this publication. Although it is effective, the developer is conveyed while being compressed by the developing magnet roller to the layer thickness regulating member, and is not sufficient from the viewpoint of improving the flow of the developer and preventing deterioration of the developer.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a developing apparatus in which deterioration of a developer is prevented for a long period of time and good image quality is stably maintained. To provide.

[0012]

According to a first aspect of the present invention, there is provided an image forming apparatus, comprising: an image carrier having a latent image formed by a difference in electrostatic potential; Developer carrier that magnetically adsorbs the two-component developer containing the toner and the magnetic carrier on the peripheral surface and conveys it around; and the layer thickness of the spike-shaped two-component developer that is adsorbed on the developer carrier. In the developing device having a layer regulating member that regulates the developer carrier, the developer carrier is disposed so as to face the developer carrier with a gap, and the peripheral surface moves in the same direction at a position facing the developer carrier. Having a driven developer circulation transfer member,
The layer regulating member is supported so as to protrude from the downstream side in the circumferential direction of the developer carrying member into a gap between the opposed developer carrying member and the developer circulating / transporting member. Is characterized in that the developer regulated by the layer regulating member is carried and transported.

In such a developing device, the developer magnetically adsorbed on the developer carrier is conveyed to a position opposite to the developer circulating / transporting member in a state where the magnetic carriers are erected in a spike shape. You. Then, the layer of the developer is cut off by a layer regulating member having a leading end protruding into the gap between the developer carrying member and the developer circulating / transporting member from the downstream side in the developer conveying direction, and the developer carrier is cut off. The layer thickness of the developer is regulated. The cut portion of the developer is carried by the opposed developer circulating / transferring member, and is conveyed by orbital movement of the peripheral surface. Therefore, the developer regulated by the layer regulating member and not conveyed to the developing area does not stay on the upstream side of the layer regulating member, and the application of a large compressive force or frictional force is avoided. For this reason, deterioration of the developer is significantly reduced, and poor charging of the toner, occurrence of fog, poor transfer, and the like due to the deterioration of the developer are prevented.

In the developing device according to the present invention, the developer circulating / transferring member magnetically attracts and transfers the two-component developer to the peripheral surface. In such a developing device, the developer at the tip portion cut by the layer regulating member is adsorbed on the peripheral surface of the developer circulating / transferring member and is reliably transported, so that the stagnation of the developer is prevented.

Further, in the developing device according to the present invention, the peripheral surface of the developer circulating / transporting member is driven to move in the same direction at substantially the same speed as the peripheral surface of the developer carrying member facing the developer carrying member. . Accordingly, the developer spike is transported between the developer carrier and the developer circulating / transferring member while maintaining the state thereof unchanged, and is substantially uniformly regulated to a predetermined layer thickness by the layer regulating member. . Further, the regulated developer carried by the developer circulation / transport member is conveyed without stagnation, and returned to the developer accommodating chamber.

According to a fourth aspect of the present invention, in the developing device according to the second or third aspect, the developer circulating / transferring member includes a fixedly supported magnet body, and a sleeve that moves around the outside thereof. Wherein the developer carrier comprises a fixedly supported magnet roll, and a cylindrical sleeve rotatably driven around the magnet roll. Then, a magnetic pole provided at a position facing the developer circulating / transporting member of the magnet roll of the developer carrying member, and a magnet pole of the developer circulating / transporting member facing the developer carrying member. The magnetic poles provided at the positions have different polarities from each other. With such a configuration, a spike of the developer is formed so as to bridge between the magnetic poles of the polarities of the developer carrier and the developer circulation / transfer member that are different from each other. For this reason, the cutting by the layer regulating member is evenly performed, and a uniform layer of the developer can be formed on the peripheral surface of the developing roll.

According to a fifth aspect of the present invention, in the developing device according to the fourth aspect, the magnet body of the developer circulating / transferring member has the same polarity at a portion other than the position facing the developer carrier. Are magnetized so that these two magnetic poles are adjacent to each other. With such a configuration, the developer adsorbed and transferred by the developer circulating transfer member is magnetically separated and is transferred to the developer accommodating portion in which the developer before being supplied to the developer carrier is stored. Will be returned. Accordingly, a strong compressive force or frictional force does not act on the developer particles as in the case of mechanical peeling, and the deterioration of the developer is prevented.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a developing device according to an embodiment of the present invention will be described. FIG. 1 is a schematic configuration diagram of a developing device according to an embodiment of the present invention. The developing device 1 includes a housing for accommodating a developer. An opening is provided in a portion of the housing facing the photosensitive drum 2, and a developing roll 3 is provided in the opening. Behind the developing roll 3, two stirring and conveying members 6, 7 for conveying the two-component developer while stirring are provided, and the developer is supplied to the developing roll 3 from the stirring and conveying member. ing. Further, a developer circulating / transporting member 5 is disposed downstream of the developer supply section in the rotation direction of the developing roll 3 so as to face the developing roll 3. The layer regulating member 4 is supported so as to protrude from the downstream side into the gap between the layer regulating member 4 and the layer regulating member 4.

The developing roll 3 comprises a rotatably supported developing sleeve 3a and a magnet roll 3b housed inside the developing sleeve 3a and having a plurality of magnetic poles. It is arranged so that the distance from the regulating member 4 is 0.7 mm. The developing sleeve 3a is made of a conductive non-magnetic material, for example, aluminum, and has a surface having fine irregularities of several microns with a ten-point average roughness Rz by blasting.
A power supply (not shown) supplies Vp-p to the developing sleeve 3a.
= 1.5KV, AC component of frequency f = 6KHz, and Vd
A voltage in which a DC component of c = −500 V is superimposed is applied, and the surface is rotated counterclockwise at a speed of 300 mm / sec.

The magnet roll 3b is a fixedly supported and substantially cylindrical magnet, and a developing magnetic pole S1 for forming a spike of the developer in a developing area facing the photosensitive drum 2, and after passing through the developing area. The separation magnetic poles N3 and N4, in which magnetic poles of the same polarity are arranged adjacently to separate the developer from the surface of the developing sleeve 3a, the layer-forming magnetic pole S2 forming a spike of the developer near the layer regulating member 4, the developing sleeve Transport magnetic poles N1, N2 and S for transporting the developer on the surface of 3a
3 is magnetized.

The developer circulating / transferring member 5 is composed of a magnet body 5b fixed and supported and a circulating sleeve 5a circulating outside the magnet body 5b. The circulating sleeve 5a is arranged to face the developing roll 3. The peripheral surface is driven in the same direction at the same speed as the opposing developing sleeve 3a. The magnet body 5b is magnetized with an N5 pole having a polarity opposite to that of the layer-forming magnetic pole S2 at a position facing the layer-forming magnetic pole S2 of the developing roll 3, and an S4 pole forming a repulsive pole behind the pole. S5
The poles are magnetized. The circulating sleeve 5a is made of a conductive nonmagnetic material, for example, aluminum, and has fine irregularities of several microns with a ten-point average roughness Rz formed by blasting.

The layer regulating member 4 is made of an aluminum plate 4a having a thickness of 1 mm and a magnetic body 4b adhered to the tip of the aluminum plate 4a. It is located on the line, and has a gap of 0.7 mm from the peripheral surfaces of the developing roll 3 and the developer circulating / transporting member 5, respectively, and is disposed substantially perpendicular to the rotation center line.

The photosensitive drum 2 is arranged to face the developing sleeve 3a with a gap of 0.5 mm, and rotates clockwise at a surface speed of 150 mm / sec. Further, on the photosensitive drum 2, the exposed portion potential -200 V and the non-exposed portion potential-
A 650 V latent image is formed. The toner and carrier used in this developing device are, for example, the following. This toner is A-Colo manufactured by Fuji Xerox Co., Ltd.
r635 toner and carrier, and the carrier is a ferrite carrier having a particle size of 50 μm. The toner is a non-magnetic toner having a particle diameter of 7 μm and using polyester as a binder, and TiO ₂ and SiO ₂ are added as external additives.

Next, the operation of the developing device having the above configuration will be described. The developer is rotated by the rotation of the stirring and conveying members 6 and 7,
The developer is stirred in the developer accommodating chambers 8 and 9, and is transported in the axial direction of the stirring transport member. The developer accommodating chambers 8 and 9 are separated from each other by partition walls 10 but communicate with each other at both ends. The developer transfer sections at the back and front sides in FIG. The developer is delivered to the other, and the developer is transported so as to circulate in the two developer storage chambers 8 and 9. Then, the developer is supplied to the developing roll 3 from the stirring and conveying member 6, and is attracted to the surface of the developing sleeve 3a by the magnetic force of the magnetic pole N3 of the magnet roll 3b. The developer is conveyed by the rotation of the developing sleeve 3a, and the developer conveyed to the position where the layer regulating member 4 is provided acts on the layer forming magnetic pole S2 of the developing roll 3 and the N5 pole of the developer circulating / transporting member 5. As a result, a chain of carriers is formed. The developer having the ears thus formed is cut by the tip of the layer regulating member 4 and is magnetically held on the surface of the developing sleeve 3a and conveyed to the developing area. It is divided into what is adsorbed and transferred.

FIG. 2 is an enlarged view showing a state in which the developer on the developing roll 3 is divided by the layer regulating member 4. As shown in FIG. 2A, the developer conveyed to the vicinity of the layer regulating member 4 by the rotation of the developing sleeve 3 a is formed by magnetic field lines formed by the layer forming magnetic pole S 2 of the developing roll 3 and the N 5 pole of the developer circulating / transporting member 5. To form ears. Since the developing sleeve 3a and the circulating sleeve 5a rotate in substantially the same speed and in the same direction at the opposing portions thereof, the developing sleeve 3a
2 are conveyed while being maintained in a continuous state so as to bridge between the two sleeves.
As shown in (b), it contacts the tip of the layer regulating member 4.
The spike contacting the tip of the layer regulating member 4 is further transported by the rotation of the developing sleeve 3a and the circulation sleeve 5a, and the spike is cut off by the layer regulating member 4 as shown in FIG. It is divided into two parts: one held on the surface of the circulation sleeve 5a and one held on the surface of the circulation sleeve 5a. As shown in FIG. 2D, the developer on the side of the circulation sleeve 5a from the cut portion is held on the surface of the circulation sleeve 5a, is further conveyed, and does not stay on the upstream side of the layer regulating member. Unloaded from area.

The developer carried and transported by the circulation sleeve 5a is separated from the circulation sleeve 5a by the action of the repulsion magnetic poles S4 and S5 of the magnet body and is returned to the developer accommodating chamber. On the other hand, the developer held on the developing sleeve 3a is transported to the developing area and is used for development. Thereafter, the toner is further transported, separated from the developing sleeve 3a by the action of the magnetic pole N3 and the magnetic pole N4, and returned to the developer accommodating chamber. In this manner, the developer cut off by the layer regulating member 4 is transported without stagnation on the upstream side of the layer regulating member 4, and no large compressive force or frictional force acts on the developer. Hardly occurs.

Next, an experiment performed to confirm the performance of the developing device shown in FIG. 1 will be described. (Experiment 1) In this experiment, the developing device shown in FIG.
Evaluation is made on the charge retention of the toner, the adhesion of the toner to the non-printing area (so-called "fog") and the transferability when a large number of images are continuously developed. This is to investigate the degree to which the chargeability of the toner fluctuates due to the deterioration of the developer, and to investigate the occurrence of “fogging” or the deterioration of the transferability due to the decrease in the chargeability of the toner. For comparison with the above-described developing device, a similar experiment was performed with a conventionally known developing device as shown in FIG.

Conventional developing device 11 used for comparison
Similar to the developing device shown in FIG. 1, a developing roll 13 is disposed at a position facing the photosensitive drum 12, and behind the developing roll 13, stirring and conveying members 16, 17 for conveying the two-component developer while stirring. Is provided. Further, a layer regulating member 14 whose tip is protruded so as to face the developing roll 13 with a small gap is provided, and a developer circulating / transporting member 15 is provided upstream of the layer regulating member 14.

The developing roll 13 is composed of a developing sleeve 13a rotatably supported and a magnet roll 13b fixed and supported inside the developing sleeve 13a, and a position of the magnet roll 13b facing the layer regulating member 14. Pole, a pair of N1 pole and S1 pole between the layer regulating portion and the developing area, and N3 pole and N of the same polarity downstream of the developing area.
Four poles and N2 pole and S3 pole are magnetized on the upstream side of the layer regulating portion. The developer circulating / transporting member 15 includes a fixedly supported magnet body 15b and a circulating sleeve 15a that is driven to rotate around the outside thereof. The magnet body 15b faces the S2 pole of the magnet roll 3b. The N pole is magnetized at a position where the N pole is located, and the S pole is magnetized downstream of the N pole.

In such a developing device, the developing roll 13
Of the developer adsorbed on the surface of the layer and conveyed to a position opposed to the layer regulating member 14, the layer thickness is regulated by the layer regulating member 14, and the surplus developer that has been cut off stays upstream of the layer regulating member 14. I do. Then, the amount of staying developer increases while receiving a compressive force due to the surplus developer that is subsequently cut off, and when the amount of developer increases to a range where the magnetic force of the developer circulation transfer member 15 reaches, the developer becomes Developer circulation transfer member 15
Is transported. That is, a developer stagnation portion is generated upstream of the layer regulating member 14, and the developer extruded by the succeeding developer is adsorbed by the developer circulating / transporting member 15, and is returned to the developer accommodating chamber. .

In the experiment using the developing device shown in FIG. 1 and the developing device shown in FIG. 3, the toner concentration in the developer was set to 8% by weight and the toner consumption rate was set to 15%. The above items were evaluated every 2,000 sheets up to 20,000 sheets. FIG. 4 shows the results of the charge retention of the toner, and Table 1 shows the results of the toner adhesion (fogging) to the non-printing area and the transferability. In addition,
In Table 1, 〇 indicates that toner fogging or transfer failure did not occur, △ indicates that slight occurrence occurred but was considered to be within the allowable range, and X indicated occurrence of a problem in image quality. (Below)

[0032]

[Table 1]

As is clear from FIG. 4, the toner charge retention is dramatically improved as compared with the conventional example. Further, as shown in Table 1, transfer failure and fogging occurred in 12,000 and 16,000 sheets of development in the conventional example, respectively. No development occurred at 000 sheets of development.

(Experiment 2) In this experiment, the developing device shown in FIG.
In this figure, the amount of developer stagnation on the upstream side of the layer regulating member 4 was investigated by changing the rotation speed of a. In the results of this experiment,
When the peripheral speed of the circulation sleeve 5a is lower than the peripheral speed of the developing sleeve 3a, the amount of the developer transported by the developer circulating transfer member 5 is reduced, causing the developer to stay, and the peripheral speed of the circulation sleeve 5a is reduced. When the peripheral speed was equal to or higher than the peripheral speed of the sleeve 3a, no stagnation of the developer occurred. From this result, in order to prevent the deterioration due to the stagnation of the developer, the peripheral speed of the circulation sleeve 5a is reduced by the developing sleeve 3a.
It can be understood that the peripheral speed should be the same as or larger than the peripheral speed of. However, if the peripheral speed of the circulating sleeve 5a is increased, slippage occurs between the sleeve and the developer, which may cause deterioration of the developer. Therefore, in order to prevent the developer from deteriorating, the circulation sleeve 5a of the developer
It is desirable to rotate at substantially the same peripheral speed as a.

(Experiment 3) In this experiment, instead of the developer circulation / transport member 5 of the developing device shown in FIG. This is a survey of the state of retention of the agent. According to the results of this experiment, the developer that was cut off and adsorbed on the circulating sleeve of the developer circulating / transferring member remains adsorbed even after the circulation sleeve has rotated once, and the newly cut off developer has been removed. The developer could not be adsorbed, and the developer stagnated upstream of the layer regulating section. The developer can be mechanically peeled from the circulating sleeve by a scraper or the like against such stagnation of the developer, but it causes deterioration of the developer. Therefore, in order to prevent the deterioration of the developer, it is desirable to provide a portion of the magnet body of the developer circulating / transporting member where no magnetic attraction force acts, such as a repulsive magnetic pole, and peel off the developer.

[0036]

As described above, in the developing device according to the present invention, the layer regulating member is provided between the developer carrying member and the developer circulating / transporting member so that the tip protrudes from the downstream side in the developer conveying direction. Are supported, the spikes of the developer on the developer carrying member are separated into a certain layer thickness by the layer regulating member, and the developer at the spike portion is carried and transported by the developer circulating / transporting member. For this reason, the surplus developer that has been split
It is possible to prevent the developer from deteriorating due to the action of strong compressive force or frictional force without staying upstream of the layer regulating member. Therefore, even when the toner is used for a long period of time, the chargeability of the toner is maintained, and the occurrence of fog and the occurrence of transfer failure are prevented.

The developer circulating / transferring member is composed of a circulating sleeve that is driven in rotation and a magnet body fixedly supported, and is mounted so that magnetic poles of different polarities face each other at a position facing the developer carrier. By magnetizing, a uniform developer layer can be formed on the developer carrying member, and the regulated developer can be transported more reliably to prevent the developer from staying. Further, by providing a repulsive magnetic pole on the magnet body of the developer circulating / transporting member, the developer carried on the developer circulating / transporting member can be separated and returned to the developer accommodating portion without deterioration.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a developing device according to an embodiment of the present invention.

FIG. 2 is an enlarged view showing a state in which a developer on a developing roll of the developing device shown in FIG. 1 is divided by a layer regulating member.

FIG. 3 is a schematic configuration diagram of a conventional developing device used in an experiment as a comparative example to confirm the effect of the developing device shown in FIG.

FIG. 4 is a diagram illustrating the results of an experiment performed on the charge retention of a toner.

FIG. 5 is a schematic configuration diagram illustrating an example of a conventional developing device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1,11 Developing device 2,12 Photoreceptor drum 3,13 Developing roll 3a, 13a Developing sleeve 3b, 13b Magnet roll 4,14 Layer regulating member 5,15 Developer circulation transfer member 5a, 15a Circulation sleeve 5b, 15b Magnet Body 6, 7, 16, 17 Stirring / conveying member 8, 9 Developer storage chamber 10 Partition wall

Claims (5)

[Claims] 1. A two-component developer including a toner and a magnetic carrier, which is disposed so as to face an image carrier on which a latent image is formed due to a difference in electrostatic potential, and magnetically adsorbs on a peripheral surface of the developer. A developing device having a developer carrier to be conveyed, and a layer regulating member that regulates a layer thickness of the two-component developer adsorbed on the developer carrier and forming a spike shape, wherein a gap between the developer carrier and the developer carrier is formed. A developer circulating / transporting member that is arranged so as to face the developer carrier and is driven so that a peripheral surface moves in the same direction at a position facing the developer carrier. From the downstream side in the circumferential direction of the carrier, the developer circulating / transporting member is supported so as to protrude into the gap between the developer carrier opposing the developer and the developer circulating / transporting member, and the developer circulating / transporting member is regulated by the layer regulating member. Transports the developer A developing device according to claim. 2. The developing device according to claim 1, wherein the developer circulating / transferring member transports the two-component developer by magnetically attracting and transferring the two-component developer to a peripheral surface. 3. The developing device according to claim 2, wherein the developer circulation / transport member is driven at a peripheral speed substantially equal to a peripheral speed of the developer carrier. 4. The developing device according to claim 2, wherein the developer circulating / transferring member includes a fixedly supported magnet body,
The developer carrier has a magnet roll fixedly supported and a cylindrical sleeve rotatably driven around the magnet roll, the developer carrier having Magnet roll, a magnetic pole provided at a position facing the developer circulating and transferring member, and a magnetic body of the developer circulating and transferring member, a magnetic pole provided at a position facing the developer carrying member, A developing device having different polarities. 5. The developing device according to claim 4, wherein two magnet poles of the same polarity are adjacent to a portion of the magnet body of the developer circulation / transfer member other than a position facing the developer carrier. A developing device which is magnetized as described above.