KR20070024330A - Developing unit and image forming apparatus with the same - Google Patents

Abstract

A developing device and an image forming apparatus with the same are provided to maintain small interval between a developer transfer and a developer carrying unit and solve density difference of developer carried within the developer carrying unit, thereby forming a high quality of image. A developing device comprises the followings: a cylindrical developer carrying unit(1) which carries developer and can rotate around an axial line; a magnetic field generator(4) which is included within the developer carrying unit(1) and has plural magnetic poles fixed around its circumference; a developer transfer(6) which is placed around the developer carrying unit(1) and supplies the developer toward an outer circumference of the developer carrying unit(1); and a regulating member(7) for regulating a quantity of the developer carried within the developer carrying unit(1).

Description

A developing apparatus and an image forming apparatus having the same {Developing unit and image forming apparatus with the same}

1 is a developing apparatus shown as an embodiment of the present invention and an image forming apparatus having the same,

FIG. 2 is a diagram showing a magnetic field distribution of the developing apparatus shown in FIG. 1.

<Description of the symbols for the main parts of the drawings>

1 photosensitive drum (latent image bearing la) outer peripheral surface

2 developing container 2a opening

2b bulkhead 3 developing sleeve (developer carrier)

3a outer surface 4 magnetic field generating means

5 First developer transfer means 6 Second developer transfer means

7 Regulating blade (regulating member) A image forming apparatus

B developing device T developer

N2 third stimulus N3 second stimulus

S2 First magnetic pole a Rotation direction of the developing sleeve

01 Axis of photosensitive drum Axis of developing O2 sleeve

Axis of O3 magnetic field generating means O4 Axis of first developer conveying means

O5 axis of the second developer transport means

The present invention relates to a developing apparatus for supplying a developer to develop an electrostatic latent image formed on a latent image bearing member corresponding to a recorded image and developing the same, and an image forming apparatus having the same.

For example, in the conventional electrophotographic image forming apparatus such as a copying machine or a color printer, a two-component image forming apparatus using a two-component developer in which a toner and a carrier of a magnetic body are mixed is used. In this image forming apparatus, for example, the outer circumferential surface of the photosensitive drum (lattice image bearing member) is uniformly charged, and then exposed with a laser scanning unit or the like to form an electrostatic latent image corresponding to the image signal of the image to be recorded. The latent electrostatic image is developed by supplying the toner magnetically supported on the outer circumferential surface of the sleeve (developing carrier) toward the photosensitive drum by the rotation of the developing sleeve, and developing the latent electrostatic image, for example, a sheet. Images can be recorded by transferring them to a recording medium such as a melt and fixing them.

A developing device for supplying a developer to a photosensitive drum includes: a developing container having an opening that faces an outer circumferential surface of the photosensitive drum and having a developer therein; The developing sleeve while stirring the developer generating means, the magnetic field generating means including a plurality of magnets embedded in the developing sleeve and generating a magnetic field on an outer circumferential surface of the rotating developing sleeve, and a developer installed in the developing container. Developer feeding means such as, for example, an auger screw, and a regulating blade (regulating member) for regulating the amount of the developer magnetically supported on the outer circumferential surface of the developing sleeve. have.

In this kind of developing apparatus, a plurality of magnets constituting the magnetic field generating means are provided in the circumferential direction of the developing sleeve with predetermined intervals so as to emit magnetic lines of force in the normal direction of the developing sleeve, and one of the magnetic poles (second Magnetic poles) are provided on the developer transfer means side. The developer supplied from the developer conveying means is held up by the magnetic force of the one magnetic pole and held in the developing sleeve.

On the other hand, in order for the developer to be reliably supplied to the outer circumferential surface of the developing sleeve, the developer conveying means is generally provided in close proximity to the developing sleeve so that its axis is parallel to the axis of the developing sleeve. For example, the space | interval of the outer edge of the radial direction of the stirring blade (auger screw) formed spirally along an axial direction (length direction), and the outer peripheral surface of the developing sleeve is small about 3 mm. As a result, the developer supplied to the developing sleeve from the outer edge side of the stirring blade is supplied like a push into the developing sleeve. When the developer is supplied in this way, a developer high density portion is generated on the outer circumferential surface of the developing sleeve on which the developer is supported, substantially coinciding with the interval of the pitch (screw pitch) in the axial direction of the stirring blade. As described above, there is a problem that spots (screw spots) occur in the developed image as the toner is supplied to the photosensitive drum in a state where the concentration of the developer is heterogeneous, that is, the density difference of the developer occurs.

To solve this problem, if the developer conveying means is installed away from the developing sleeve or the screw pitch is increased, the magnetic force of the second magnetic pole of the magnetic field generating means must be increased to increase the developer pulling force (developing force). do. However, in recent years, as the demand for miniaturization of the image forming apparatus is further increased, the development apparatus, in particular, the magnetic field generating means is required to be miniaturized, thereby miniaturizing the second stimulus, and inevitably lacking magnetic force, making it difficult to raise the developer. Is generated.

On the other hand, there is a developing apparatus in which the magnetic poles of the same pole adjacent to the downstream side in the rotational direction of the developing sleeve than the regulating blade are disposed so as to eliminate the difference in density of the developer supported on the developing sleeve (for example, Japanese Patent Laid-Open Publication). 2004-191768). In this developing apparatus, the magnetic poles of the same pole are disposed adjacent to each other, and a portion where the vertical magnetic force (the magnetic force in the normal direction of the outer circumferential surface of the developing sleeve) weakens due to the repulsion of the magnetic field is formed between the two magnetic poles, After a thin layer of developer is formed with a regulating blade, the developer holding force can be released once by passing the portion where the vertical magnetic force is weakened to release the developer on the outer peripheral surface of the developing sleeve. The developer thus released reaches the magnetic pole on the downstream side in the rotational direction by the rotation of the developing sleeve and is fully held again, thereby eliminating the difference in density of the developer supported on the developing sleeve. This makes it possible to prevent the occurrence of spots while keeping the distance between the developing sleeve and the developer conveying means even when spots tend to be generated using a large amount of toner, for example, when forming a black image.

However, in the above-described developing apparatus in which the same pole is provided downstream of the rotational direction of the developing sleeve than the regulating blade, the high speed rotation of the developing sleeve is carried out in a state where the holding force of the developer supported on the developing sleeve that rotates at high speed is weakened. Some developer is separated from the outer peripheral surface of the developing sleeve by the generated centrifugal force or wind pressure. Since the retaining force of the developer is weaker on the downstream side of the developing sleeve in the direction of rotation than the regulating blade, the developer detached here is scattered to the outside of the developing apparatus at the opening of the developing container, and the scattered developer contaminates the photosensitive drum or its surroundings. Problem occurs.

In addition, since the developer whose height is adjusted by forming a thin layer with the regulating blade is released by the same pole, a large deviation may occur in the height of the developer when it is supported on the developing sleeve again. In this state, when toner is supplied to the electrostatic latent image formed on the photosensitive drum, there is a problem that spots are generated due to a difference in toner concentration even on the developed toner image, and consequently, spots are easily generated on the printed image.

The present invention is to solve the above problems, while maintaining a small distance between the developer transporting means and the developer carrier, can solve the difference in density of the developer carried on the developer carrier to form a high quality image It is an object to provide a developing apparatus and an image forming apparatus having the same.

In order to achieve the above object, the present invention provides a substantially cylindrical developer carrier which is rotatable around an axis carrying a developer, and a plurality of magnetic poles contained in the developer carrier and fixed in the circumferential direction. Regulating the amount of the magnetic field generating means, the developer conveying means disposed in the vicinity of the developer carrier and supplying the developer toward the outer circumferential surface of the developer carrier, and the amount of the developer on which the developer carrier is supported. And a magnetic field generating means, comprising: a first magnetic pole provided at a position substantially facing said restriction member; On the outer circumferential surface of the developer carrying member, the developer supplied from the developer carrying means has a polarity opposite to that of the first magnetic pole provided on an upstream side of the developer carrying member rather than the first magnetic pole. A second stimulus for holding in; And a third magnetic pole having the same polarity as any one of the first magnetic pole and the second magnetic pole between the first magnetic pole and the second magnetic pole. Provide the device.

Preferably, in the developing apparatus, the third magnetic pole may have the same polarity as the second magnetic pole.

Preferably, in the developing apparatus, a horizontal magnetic field is zero Gaussian on the outer circumferential surface of the developer carrying member between the third magnetic pole and any one of the first magnetic pole and the second magnetic pole having the same polarity as the third magnetic pole. There may be no part.

Hereinafter, a developing apparatus and an image forming apparatus including the same according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. The present embodiment relates to an electrophotographic image forming apparatus and a developing apparatus such as, for example, a copying machine and a color printer, and a two-component developing apparatus and an image forming apparatus in which a nonmagnetic toner and a carrier of a magnetic body are mixed. .

The image forming apparatus A of the present embodiment is formed in a substantially cylindrical shape as shown in Fig. 1, and is provided with a photosensitive drum (latent image bearing member) 1 provided so as to be rotatable about an axis O1. For example, a developer (T) containing a toner having an average particle diameter of 7 μm and a carrier having an average particle diameter of 55 μm is mixed so that the weight ratio of the toner is 6%, and for supplying the developer (T) to the photosensitive drum (1). The developing apparatus B is provided as a main component.

The developing apparatus B includes a developing container 2 containing a developer T while having an open opening 2a extending in one direction and an axis line O2 parallel to a direction in which the opening 2a extends. Is a cylindrical developing sleeve (developing carrier) provided on the opening 2a side in the developing container 2 so that the outer peripheral surface 3a which is rotatable and moves toward the opening 2a is sequentially rotated. (3) and the inside of the developing sleeve 3 while the axis O3 coincides with the axis O2 of the developing sleeve 3 with both ends in the direction of the axis O3 fixed to the developing container 2. Magnetic field generating means (4) having a plurality of magnets for generating a magnetic field on the outer circumferential surface (3a) of the developing sleeve (3) which rotates, and below the developing sleeve (3) in the developing container (2). A pair of developer, such as, for example, an auger screw, installed and conveyed with stirring of the contained developer T. The rear end side is fixedly supported by the means 5 and 6 and the developing container 2, and the front end side extends inwardly of the developing container 2 so as to face the outer peripheral surface 3a of the developing sleeve 3 at a predetermined interval. A protruding regulating blade (regulating member) 7 is provided. In the developing device B, the outer circumferential surface of the developing sleeve 3 that rotates and sequentially faces the opening 2a in the outer circumferential surface 1a of the photosensitive drum 1 provided to be rotatable outside the developing container 2 is provided. (3a) is provided in close proximity.

The developing container 2 has an arc shape in cross section such that the portion from the regulating blade 7 to the opening 2a is along the outer circumferential surface 3a while maintaining a predetermined interval on the outer circumferential surface 3a of the developing sleeve 3. It is formed to have. Moreover, the part located below the opening part 2a from the opening part 2a to the vicinity of the magnetic pole N4 of the magnetic field generating means 4 mentioned later also has the outer peripheral surface 3a of the adjacent developing sleeve 3, and predetermined | prescribed. The cross section is formed to have an arc shape so as to follow the outer circumferential surface 3a while maintaining a gap. On the other hand, inside the developing container 2, a partition 2b for dividing the contained developer T into approximately two is provided. The pair of developer transfer means 5, 6 are respectively disposed in respective spaces separated by the partition wall 2b. The partition wall 2b is formed to communicate each divided space at one end and the other end side in the longitudinal direction of the partition wall 2b, so that the developer T divided into two can move into the space of each other. have.

The developing sleeve 3 is made of, for example, a nonmagnetic material such as aluminum, has a diameter of about 20 mm, and has a surface roughness (Rz: ten point average roughness) of about 20 µm. On the other hand, the regulating blade 7 is formed of a magnetic material such as iron, for example, a tip extending to the inside of the developing container 2 of the regulating blade 7, and a developing sleeve 3 facing the tip. It is provided so that the space | interval of the outer peripheral surface 3a may be about 0.6 mm.

The pair of developer conveying means 5, 6 both comprise an auger screw with stirring blades extending spirally in the respective directions O4, O5, the radial direction of the stirring blades. The outer diameter (outermost diameter of the developer conveying means) at the outer leading edge (outer edge) of is about 15 mm. The pair of developer transfer means 5, 6 are rotatably provided while matching the directions of the axis O2 of the developing sleeve 3 with the directions of the respective axes O4, O5, respectively. The conveying means 5 is provided in the one space of the side in which the opening 2a is formed and the developing sleeve 3 is arrange | positioned among each space divided by the partition 2b, and the 2nd developer conveying means 6 is carried out. The silver is provided in the other space located at the rear end side of the developing container 2. As for the 1st developer conveying means 5, the outer edge which the front-end | tip of a stirring blade forms under the developing sleeve 3 is about 3 mm with respect to the outer peripheral surface 3a of the lower side of the developing sleeve 3, for example. It is installed close to the distance of. Moreover, the 2nd developer conveyance means 6 is provided so that the axis line O5 may be arrange | positioned parallel to the axis line O4 of the said 1st developer conveyance means 5, and obliquely below this axis line O4.

The pair of developer transfer means 5 and 6 configured as described above transfers the developer T in the extending direction of the axes O4 and O5 in opposite directions, and each of the spaces separated by the partition wall 2b. The developer T can be sent to the first and second developer transfer means 5 and 6 at the portion communicating from both ends, thereby circulating the developer T stored in the developing container 2 in one direction. It is supposed to be. In addition, a developer storage container (not shown) is connected to the second developer transfer means 6 side, and the developer T can be supplied to the space side where the second developer transfer means 6 is provided. .

The magnetic field generating means 4 is composed of a multipole magnet having a plurality of magnets (in this embodiment, six magnets) provided in the circumferential direction at predetermined intervals, each magnet being a magnetic force line in the normal direction of the developing sleeve 3. It is installed to generate. Among the plurality of magnets, the magnetic pole S1 (S pole) of the developing main electrode is the outer peripheral surface 1a close to the developing sleeve 3 of the photosensitive drum 1 through the developing sleeve 3 and the opening 2a. ) To face each other. A magnetic pole N1 (N pole) of opposite polarity to the magnetic pole S1 is provided on the upstream side of the rotation direction (arrow (a) direction) of the developing sleeve 3 of the magnetic pole S1 adjacent to the magnetic pole S1. have. Further, a magnetic pole N4 (N pole) having a polarity opposite to that of the magnetic pole S1 is provided on the downstream side of the rotation direction (the arrow (a) direction) of the magnetic pole S1, and the rotation of the magnetic pole N4 is performed. On the downstream side of the direction (arrow (a) direction), magnetic poles N3 (N poles, second magnetic poles) of the same pole as the magnetic poles N4 are provided. The magnetic pole S2 (S pole, the first magnetic pole) of opposite polarity is provided on the upstream side of the rotation direction (arrow (a) direction) of the magnetic pole N1 adjacent to the magnetic pole N1. S2) is provided slightly upstream in the direction of rotation (the arrow (a) direction) than the tip of the regulating blade 7, and is provided so as to substantially face the regulating blade 7. Further, magnetic poles N2 (N poles, third magnetic poles) having the same polarity as magnetic poles N3 are provided at substantially central portions of the magnetic poles S2 and N3 in the circumferential direction.

As described above, the magnetic field generating means 4 of the present embodiment in which a plurality of magnetic poles is provided forms a magnetic field distribution as shown in FIG. 2 on the outer peripheral surface 3a side of the developing sleeve 3. In FIG. 2, the solid line indicates a vertical magnetic field having a direction of magnetic lines directed in the radial direction (normal direction) of the developing sleeve 3, and the broken line indicates a horizontal magnetic field having a direction of magnetic lines directed in the circumferential direction of the developing sleeve 3. . In the magnetic field distribution of this embodiment, the magnetic pole N3 is the upstream magnetic pole N4 in the rotational direction (arrow (a) direction) that is the same polarity magnetic pole and the downstream magnetic pole N2 in the rotational direction (arrow (a) direction). ) Is interposed between the magnetic poles N4 and N3 and between the magnetic poles N3 and the magnetic poles N2 at a substantially central position in each circumferential direction so that the vertical magnetic force and the horizontal magnetic force become smaller together. have. Further, the magnetic poles N4 and N3 have a relatively large angle centered on the axis O3 so as to be sufficiently far from each other in the circumferential direction. For this reason, the vertical and horizontal magnetic forces on the outer circumferential surface 3a of the developing sleeve 3 are lost together at approximately the center position in the circumferential direction between the magnetic poles N4 and N3, so that an O (zero) gaussian region is formed in this portion. Is formed.

On the other hand, in the present embodiment, the magnetic poles N2 and N3 of each other are relatively on the outer circumferential surface 3a of the developing sleeve 3 at the approximately center position in the circumferential direction between the magnetic poles N3 and the magnetic poles N2 of the same polarity. Since it is provided in close proximity, the O-Gaussian region does not occur in this portion. In addition, the magnetic pole N3 and the magnetic pole N2 are provided relatively close in the horizontal magnetic force at the approximately center position in the circumferential direction between the magnetic pole N3 and the magnetic pole N2, and the rotation direction of the magnetic pole N2 is further provided. O-Gaussian region does not occur under the influence of the magnetic field (especially the horizontal magnetic field) emitted by the magnetic pole S2 provided upstream of the magnetic field.

In the present preferred embodiment, the diameter of the developing sleeve 3 is about 14 to 20 mm, the magnetic line density of the magnetic poles N2 and N3 is 600 gauss, the average particle diameter is 55 μm, and the saturation magnetization 50 Am ² / kg. In the case of using a carrier of a degree, zero gauss between the magnetic pole N2 and the magnetic pole N3 by providing the magnetic pole N2 at a position less than 60 ° with respect to the magnetic pole N3 about the axis O3. The magnetic field distribution can be formed so as not to generate an area.

Next, operations and effects of the developing apparatus B and the image forming apparatus A having the above-described configuration will be described.

First, while the developer T in the developing container 2 is agitated by the rotational driving of the pair of developer transfer means 5 and 6, it is transported approximately evenly in the direction of the axis O4 (length direction), The two-component developer T in which the toner and the carrier are mixed is supplied toward the outer circumferential surface 3a of the developing sleeve 3 located above. The developer T supplied by the first developer transfer means 5 is developed by the force caused by the stirring of the first developer transfer means 5 and the force pulled up by the magnetic force of the magnetic pole N3. It is conveyed to the outer peripheral surface 3a side of (3), and is magnetically adsorbed and carried by the said outer peripheral surface 3a.

Here, the front-end | tip of the stirring blade which forms the outer edge of the 1st developer conveying means 5 is arrange | positioned close to the outer peripheral surface 3a of the developing sleeve 3, for example at intervals of about 3 mm. Thus, in the developer T supplied to the developing sleeve 3 from the stirring blades adjacent to each other along the axis O4 direction (screw pitch), the tip end portion of the outer edge of the stirring blades. The developer T supplied from the developer sleeve 3 to the developing sleeve 3 is supplied to the outer peripheral surface 3a of the developing sleeve 3 to be pushed. For this reason, the developer high density part generate | occur | produces on the outer peripheral surface 3a of the developing sleeve 3 on which the developer T was supported at the interval which matches the screw pitch of the stirring blade. As described above, when the developer T having a density difference and supported on the developing sleeve 3 is transferred to the photosensitive drum l side and toner is supplied to the electrostatic latent image, staining occurs in the image developed on the photosensitive drum 1. do. In particular, when a black image is formed, this stain (screw stain) can be remarkably expressed.

In the developing device B of the present embodiment, the developer T having a density difference and held on the outer circumferential surface 3a near the magnetic pole N3 of the developing sleeve 3 is stimulated by the rotation of the developing sleeve 3. The developer holding force (supporting force) is weakened once as the central portion in the circumferential direction between N3 and the magnetic pole N2 is reached, and the vertical magnetic force and the horizontal magnetic force of the central portion decrease together, thereby causing the developer T Will be released. At this time, a part of the loosened developer T may be separated from the outer circumferential surface 3a of the developing sleeve 3. However, since the horizontal magnetic force along the circumferential direction is generated between the magnetic poles N3 and the magnetic poles N2, that is, the horizontal magnetic force of this portion is not zero gauss, the development sleeve 3 of the developer T The state supported on the outer peripheral surface 3a is maintained. On the other hand, by decreasing both the vertical magnetic force and the horizontal magnetic force of this portion, some of the developer T can be completely separated from the developing sleeve 3. In this embodiment, the magnetic pole N3 and the magnetic pole N2 are disposed inside the developing container 2 than the regulating blade 7. Therefore, despite the wind pressure, centrifugal force, etc. caused by the developing sleeve 3 rotating at a high speed with the regulating blade 7, the separated developer T is not scattered from the opening 2a to the outside of the developing apparatus B. It is recovered into the developing container 2.

The released developer T is transferred to the magnetic pole S2 side by the continuous rotation of the developing sleeve 3, and at the same time, a large magnetic force acts on the outer peripheral surface 3a of the developing sleeve 3 again. Since the developer T, which has been once unwound, is supported on the developing sleeve 3 again, the reloaded developer T has an outer circumferential surface of the developing sleeve 3 in a state where the density difference is eliminated and has a substantially uniform toner concentration ( Held in 3a).

Subsequently, with the rotation of the developing sleeve 3, the developer T passes between the tip of the regulating blade 7 spaced at a predetermined interval and the developing sleeve 3, and the developing sleeve 7 is formed by the regulating blade 7. The height in the radial direction of the developer T supported in (3) is adjusted to form a thin layer with a constant layer thickness. Then, when the developer T is exposed at the opening 2a to reach the magnetic pole S1, a magnetic brush is formed in which the carrier with the toner adhered therein is chained in the direction of the magnetic lines of the vertical magnetic force. From this magnetic brush, for example, the toner adhered to the tip portion is drawn to the charged photosensitive drum 1 and separated from the carrier, and is supported on the electrostatic latent image of the outer peripheral surface 1a of the photosensitive drum 1 to form a toner image. . In the present embodiment, since the developer T thinly formed on the regulating blade 7 does not have a density difference, the toner image developed by supplying toner from the developer T without this density difference is uniform without density difference. Toner is formed in a supported state.

The toner image on which the toner is uniformly supported is transferred to a recording material such as a sheet, for example, a sheet conveyed by a recording material conveying means (not shown) of the image forming apparatus A (not shown). The toner image is heated and pressurized while being melted and fixed on the recording medium. As a result, an image fixed to the recording body is formed. The image formed on the recording body is formed on the basis of the toner image on which the toner is uniformly supported, and thus an image of high quality is obtained without spots.

In addition, the developer T having finished supplying toner to the photosensitive drum 1 is transferred between the magnetic poles N4 and the magnetic poles N3 to which the magnetic poles of the same pole are adjacent by the rotation of the continuous developing sleeve 3. do. On the outer circumferential surface 3a of the developing sleeve 3 in the substantially center portion in the circumferential direction between the magnetic poles N4 and N3, the vertical and horizontal magnetic forces are combined with zero Gaussian by the repulsion of the same poles. O Gaussian region is formed. For this reason, the developer T which has reached this zero gauss region loses the holding force supported on the outer circumferential surface 3a of the developing sleeve 3 and is completely removed from the developing sleeve 3 and recovered to the developing container 2. The developer T thus recovered is lowered in toner concentration by the amount of toner supplied to the photosensitive drum 1, but the other developer stored in the developing container 2 by the pair of developer transfer means 5,6. It is dispersed while stirring and mixing with (T). Therefore, the toner concentration of the developer T continuously supplied to the magnetic pole N3 can be adjusted to be kept at a constant concentration.

In the developing apparatus B and the image forming apparatus A having the above-described configuration, as the magnetic pole N3 and the magnetic pole N2 having the same polarity are provided between the magnetic pole N3 and the magnetic pole S2, the magnetic pole ( In the substantially center portion of the circumferential direction between N3) and the magnetic pole N2, the vertical magnetic force and the horizontal magnetic force can be reduced together. The developer T, which is pressed by the first developer transfer means 5 and carried in a state where a difference in density is caused in the developing sleeve 3, can be passed through this portion to be released and the difference in density of the developer T Can be solved. Therefore, even when the first developer conveying means 5 is provided close to the developing sleeve 3, unevenness of the image due to the difference in density of the developer T can be removed, and a high quality image can be formed. .

In addition, even when the vertical magnetic force and the horizontal magnetic force are reduced to solve the developer T caused by the difference in density, the horizontal magnetic force in this portion does not become O Gaussian. The density difference of the developer can be eliminated while the quantity is reliably supported on the developing sleeve 3.

Further, the magnetic pole N2 and the magnetic pole N3 for solving the difference in density of the developer T are provided in the developing container 2 on the upstream side of the developing sleeve 3 rather than the regulating blade 7. In addition, even when the developer T is detached and scattered from the developing sleeve 3 as the developer holding force is reduced, the control blade 7 passes through the opening 2a to the outside of the developing apparatus B. The developer T can be prevented from scattering, and the surroundings of the photosensitive drum 1 and the developing device B can be prevented from being contaminated with the developer T.

As described above, even if the first developer conveying means 5 is provided close to the developing sleeve 3, a high quality image can be formed. Thus, a developing apparatus such as the developing sleeve 3 or the developer conveying means 5 or the like. (B) can be miniaturized. This makes it possible to sufficiently cope with the image forming apparatus A, which has recently been required to be further downsized.

As mentioned above, although embodiment of the developing apparatus B which concerns on this invention and the image forming apparatus A using this was demonstrated, this invention is not limited to said one embodiment, In the range which does not deviate from the meaning. Appropriate changes are possible. For example, in the above-described embodiment, among the plurality of magnets provided in the magnetic field generating means 4, the magnetic pole S1 of the main electrode and the magnetic pole S2 provided in the vicinity of the regulating blade 7 become the S pole, and the development Stimulus N4 for releasing the developer T, the stimulus N2 or stimulus N3 for releasing the supported developer T, and the stimulus N4 for releasing the developer T from the developing sleeve 3. ) Is the N pole, but all of these magnetic poles can be formed with the opposite polarity, and in this case, magnetic field distribution as shown in FIG. 2 can be formed, and the developer density difference of the present embodiment is eliminated. Thus, the effect of forming a high quality image can be obtained.

In the present embodiment, the first magnetic pole is the magnetic pole S2, the second magnetic pole is the magnetic pole N3, and the third magnetic pole disposed between the two magnetic poles is the same as the second magnetic pole N2. However, the third magnetic pole may be an S pole having the same polarity as the first magnetic pole. In this case, a vertical magnetic force and a horizontal magnetic force are both reduced together at a substantially central portion in the circumferential direction between the first magnetic pole and the third magnetic pole, and a portion where the horizontal magnetic force does not become O gauss is formed, in which the developing sleeve The developer supported on it can be released. Also in this case, as described above, all of these magnetic poles may be formed with opposite polarities.

In this embodiment, the developer conveying means 5 and 6 are provided as a pair, and also as an auger screw provided with the stirring blade which extended spirally along the axis O4, O5. Although the present invention has been described, the present invention can be applied to all cases where the difference in density of the developer T supported on the developing sleeve 3 is to be solved, and can be applied to a developing apparatus provided with one developer conveying means or, for example, an axis. It may be applied to a developing apparatus equipped with another form of developer conveying means in place of an auger screw, such as a developer conveying means provided with a plurality of stirring vanes in a substantially orthogonal direction.

In addition, in this embodiment, it is demonstrated that it is applied to the developing device B and the image forming apparatus A of the two-component image development system which used the developer T which mixed the nonmagnetic toner and the carrier of a magnetic body. The present invention can be applied to a one-component developing apparatus and an image forming apparatus using toner as a developer, and can be applied as long as the toner is supported on a developing sleeve by using magnetic force.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

According to the developing apparatus and the image forming apparatus including the same according to the present invention, a developer located between the third magnetic pole of the magnetic field generating means and the first magnetic pole and the second magnetic pole having the same polarity as the third magnetic pole. By forming a magnetic field distribution in which the vertical magnetic force becomes smaller on the outer circumferential surface of the carrier, the developer supported on the outer circumferential surface of the developer carrier in the state of being pressed by the developer conveying means and causing a density difference causes the rotation of the developer carrier. By passing through the region where the perpendicular magnetic force is reduced by, the holding force (supporting force) of the developer is temporarily weakened, and the developer can be released. The developer is released by the rotation of the continuous developer carrier. The developer may be transferred to the magnetic field of the magnetic pole to fully support the released developer by the magnetic force of the first magnetic pole. As a result, the density difference of the developer generated in the process of supplying from the developer conveying means can be eliminated, and the difference in the concentration of the toner on the toner developed on the latent image bearing member can be prevented, so that there is no spot High quality images can be formed.

The third magnetic pole for releasing the developer supported on the developer carrying member and the portion in which the vertical magnetic force formed by the first magnetic pole or the second magnetic pole having the same polarity as the third magnetic pole become smaller than the regulating member. By being provided on the upstream side of the rotation direction of the member, the developer separated from the developer carrier can be blocked by the regulating member so that the developer can stay in the developing container, thereby preventing the developer from scattering outside of the developing container. . Therefore, even when the density of the developer is reduced by weakening the retaining force of the developer, it is possible to prevent the developer from being scattered and contaminated around the latent image bearing member or the developing apparatus.

Claims (4)

A developing apparatus for developing an electrostatic latent image by transferring a developer containing toner and supplying it to a latent image bearing member, A substantially cylindrical developer carrying member carrying the developer to be rotatable around an axis line, magnetic field generating means having a plurality of magnetic poles contained in the developer carrying member and fixed in the circumferential direction; A developer transfer means for supplying the developer toward the outer circumferential surface of the developer carrier, and a regulating member for regulating the amount of the developer on which the developer carrier is supported, the magnetic field being generated The means includes: a first stimulus provided at a position substantially opposite to the regulating member; On the outer circumferential surface of the developer carrying member, the developer supplied from the developer carrying means has a polarity opposite to that of the first magnetic pole provided on an upstream side of the developer carrying member rather than the first magnetic pole. A second stimulus for holding in; And a third magnetic pole having the same polarity as any one of the first magnetic pole and the second magnetic pole between the first magnetic pole and the second magnetic pole. The method of claim 1, And the third magnetic pole is the same polarity as the second magnetic pole. The method of claim 1, Characterized in that there is no portion where the horizontal magnetic field becomes zero gauss on the outer circumferential surface of the developer carrying member between the third magnetic pole and any one of the first magnetic pole and the second magnetic pole having the same polarity as the third magnetic pole. Developing device. An image forming apparatus which forms an image by supporting a toner image on an electrostatic latent image formed on a latent image bearing member and transferring the developed toner image onto a recording medium, the image forming apparatus comprising: An image forming apparatus comprising the developing apparatus according to any one of claims 1 to 3.

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