JPH0455876A - Developing device - Google Patents

Abstract

PURPOSE:To stably obtain a high-quality image by using magnetic toner having much residual magnetization as toner and carrying it by a toner carrying member constituted of a soft magnetic material. CONSTITUTION:The magnetic toner having much residual magnetization is used as the toner 1, and the toner carrying member 15 for carrying the toner 1 is constituted of the soft magnetic material having little residual magnetization, then a magnetization means 14 for magnetizing the toner 1 is provided. The toner 1 having much residual magnetization is magnetized by the means 14 and the magnetized toner 1 is supplied to the surface of the member 15 constituted of the soft magnetic material having little residual magnetization. Thus, the toner 1 is uniformly added to the surface of the member 15, and the occurrence of the unevenness of density in the image is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a developing device used in an image forming apparatus such as a copying machine or a printer. The present invention relates to a developing device that supplies toner from a member to a photoreceptor.

[Prior art and its problems] Traditionally, developing devices used in image forming devices such as copying machines and printers include two-component developing devices that use toner and carrier as the developer, as well as two-component developing devices that use toner and carrier as the developer. A one-component development method using only toner is known.

In recent years, developing devices using a one-component developing method that uses only toner as a developer, as described above, have a simple configuration and can be made smaller and lower in cost. - Component development type developing devices have started to attract attention.

Here, as a developing device of such a -component developing method, generally, U.S. Pat.
As shown in Japanese Patent No. 16736, etc., toner is supplied to the surface of a toner conveying member, the thus supplied toner is conveyed by this toner conveying member, and a regulating member is pressed against the surface of this toner conveying member. This regulating member frictionally charges the toner supplied to the surface of the toner transporting member as described above and regulates the amount of the toner, and then the toner thus frictionally charged is exposed to light by the toner transporting member. A toner is known in which the toner is conveyed to a photoreceptor and the toner is supplied from this toner conveying member to a photoreceptor.

However, in the above-mentioned developing device, since the toner is only restrained by electrostatic force on the surface of the toner transport member, the toner is not sufficiently retained on the surface of the toner transport member. If the toner is not triboelectrically charged properly, the toner tends to separate from the surface of the toner conveying member, and when the toner is conveyed by the toner conveying member as described above, this toner is It often separated from the surface of the member and leaked or spilled from inside the developing device.

For this reason, in an image forming apparatus such as a copying machine that uses such a developing device, the toner that flows out from the developing device scatters inside the image forming device, causing damage to the optical system and charger installed in the image forming device. There have been problems such as the images being smeared with toner, causing fog in the formed images, and reducing the image quality.

On the other hand, conventionally, magnetic toner is used as toner, and this magnetic toner is supplied to the surface of a toner conveying member that is provided with a magnetic roller inside, and the magnetic toner thus supplied is transferred by the magnetic force of the magnetic roller. The toner is held on the surface of the toner conveying member by the toner conveying member, and the toner conveying member and the magnet roller are rotated to convey the toner supplied to the surface of the toner conveying member, and the toner is transferred from the toner conveying member to the photoreceptor. There was also a developing device that was supplied.

However, when the toner is conveyed by the toner conveying member while the toner is held on the surface of the toner conveying member by the magnetic force of the magnet roller, toner agglomeration may cause the toner to stick to the surface of the toner conveying member. There is a problem in that it becomes difficult to transport the toner in a state where it is applied uniformly, and the formed image has uneven density and the like, resulting in a deterioration in image quality.

[Problems to be Solved by the Invention] The present invention conveys toner by a toner conveying member,
It is an object of the present invention to solve the above-mentioned problems in a developing device that supplies toner to a photoreceptor from this toner conveying member.

That is, in the above-described developing device, when the toner is transported by the toner transport member, the toner is sufficiently retained on the surface of the toner transport member, and the toner is transferred to the surface of the toner transport member. This eliminates the possibility of the toner separating from the surface and spilling from inside the developing device, and prevents the toner from scattering and staining the optical system, charger, etc. with toner in the image forming apparatus using such a developing device. This eliminates the occurrence of blurring, etc., in the image formed, and the toner is conveyed while being uniformly applied to the surface of the toner conveying member, which causes density unevenness, etc., to occur in the formed image. The goal is to ensure that there are no such situations.

[Means and effects for solving the problems] In order to solve the above-mentioned problems, in the present invention, toner is conveyed by a toner conveying member, and the toner is supplied from this toner conveying member to the photoreceptor. In the developing device, a magnetic toner having a large residual magnetization is used as the toner, the toner conveying member for conveying the toner is made of a soft magnetic material having a low residual magnetization, and a magnetizing means for magnetizing the toner is further provided. I made it.

In the developing device configured in this way, the magnetic toner with a large residual magnetization is magnetized by the above-mentioned magnetizing means, and the thus magnetized toner is transferred to a toner conveying member made of a soft magnetic material with a small residual magnetization. The toner is supplied to the surface, and the toner thus supplied is conveyed by this toner conveying member.

When the magnetic toner with a large residual magnetization is magnetized by the magnetizing means and the thus magnetized toner is supplied to the surface of the toner conveying member made of a soft magnetic material, the toner conveying member During conveyance, the toner magnetized as described above is sufficiently held on the surface of the toner conveying member by its residual magnetic force, and the toner does not separate from the surface of the toner conveying member as in the conventional case. This prevents toner from leaking from inside the developing device.

Further, the toner magnetized as described above is supplied to the surface of a toner conveying member made of a soft magnetic material, and the toner is held on the surface of the toner conveying member by the residual magnetic force of the toner. When the toner is conveyed, magnetic toner is supplied to the surface of a toner conveying member that has a magnetic roller inside, and the toner is conveyed while being held on the surface of the toner conveying member by the magnetic force of the magnetic roller. Compared to the case where the toner is conveyed by a member, the toner is conveyed while being uniformly applied to the surface of the toner conveying member.

Here, as the above-mentioned toner, a magnetic toner or the like is used in which the residual magnetization is increased by making the toner contain magnetic powder with high residual magnetization such as magnetite, manganese ferrite, nickel ferrite, etc., which has high residual magnetization. I can do it.

Note that if the amount of residual magnetization of the above-mentioned toner is small, the toner will separate from the surface of the toner conveying member while being conveyed by the toner conveying member, and the toner will be removed from the developing device. On the other hand, if the amount of residual magnetization is too large, the toner will be held too strongly on the surface of the toner transport member, and the toner will not be properly supplied to the photoreceptor from this toner transport member. is 50 to 500 Gauss,
Preferably, a toner having a pressure of about 200 to 500 Gauss is used.

Further, the toner conveying member for conveying the toner as described above may be made of a soft magnetic material with little residual magnetization, for example, it may be made of a soft magnetic metal such as nickel, or it may be made of a resin. A material formed by containing magnetic powder can be used.

Note that if this toner conveying member has a large amount of residual magnetization, the toner conveying member itself may be partially or entirely magnetized by the magnetizing means that magnetizes the toner or the toner magnetized by this magnetizing means. This may cause uneven retention of toner on this toner transport member, or the toner may be held too strongly on this toner transport member, making it difficult to properly supply toner to the photoreceptor.
Usually, a magnet with residual magnetization of 100 gauss or less, or a nail puller or several tens of gauss or less, is used.

Furthermore, a permanent magnet or the like can be used as the magnetizing means for magnetizing the toner as described above.

[Example] Hereinafter, a developing device according to an example of the present invention will be specifically described based on the accompanying drawings.

In this example, the toner (1) is a magnetic toner in which α-ferrite is contained as magnetic powder in a styrene-acrylic resin, and the residual magnetization is 3.
I decided to use one that was approximately 0.00 Gauss.

In the developing device (10) of this embodiment, the toner (1) having a large residual magnetization as described above is accommodated in a toner storage tank (11) as shown in FIG. Agitator (1) provided in tank (11)
2) was rotated to agitate the toner (1) and feed the toner (1) to the toner supply section (13) located on the photoreceptor (2) side.

The toner supply section (13) into which the toner (1) is fed in this way is provided with magnetizing means (14) for magnetizing the toner (1), and the toner (1) is magnetized by the magnetizing means (14). After this, the thus magnetized toner (1) was supplied to a toner conveying member (15) made of a soft magnetic material with little residual magnetization.

Here, as the magnetizing means (14) for magnetizing the toner (1), in this embodiment, as shown in FIGS. 1 and 2, a magnet roller ( 14a), the toner conveying member (15)
) in which N poles are arranged side by side in the vicinity of the magnet roller (14a).
A cylindrical conveyance roller (14b) is provided on the outer peripheral side of the magnet roller (14a) so as to cover the magnetic roller (14a).

Then, with the magnet roller (14a) fixed, the conveyance roller (14b) is rotated, and the toner (1) fed into the toner supply section (13) is magnetized by the magnet roller (14a). The toner (1) is conveyed by the conveyance roller (14b) rotating as described above, and the toner (1) is magnetized as described above at the location where the north pole and the north pole of the magnet roller <14a) are arranged in parallel. The toner (1) is made to fly from the conveying roller (14b) and is supplied to the toner conveying member (15).

In this embodiment, the magnetic roller (14a) has a surface magnetic force of about 500 Gauss at the part where the N pole and Ni are arranged side by side, and the surface magnetic force at the part where the N pole and Ni are arranged side by side is about 500 Gauss,
A material with a surface magnetic force of approximately 300 Gauss at the portion where the poles were provided was used.

Further, in this embodiment, as the toner conveying member (15) to which the magnetized toner (1) is supplied as described above, a thin film of nickel, which is a soft magnetic material with a residual magnetization of about 20 to 30 Gauss, is used. A sleeve-shaped sleeve formed by electroforming was used.

As shown in FIG. 1, this toner conveying member (15) is provided so as to cover the outer periphery of a rotationally driven drive roller (16), and this toner conveying member (work 5) is attached to the photoreceptor (2). ), the toner conveying member (15) is brought into pressure contact with the outer periphery of the drive roller (16), and as the drive roller (16) rotates, the toner conveying member (15) It is now rotationally driven.

On the other hand, at the facing portion where the toner conveying member (15) faces the photoreceptor (2), the extra length of the toner conveying member (15), which is longer than the driving roller (16), is connected to the driving roller (16). The toner conveying member (15) that protrudes in this way toward the photoreceptor (2) is attached to the photoreceptor (2).
It was designed to make soft contact with the surface.

When the magnetized toner (1) flies as described above and is supplied to the surface of the toner conveying member (15), the residual magnetic force of the magnetized toner (1) causes the toner (1) to is magnetically attracted to the surface of the toner conveying member (15) and is now held on the surface of the toner conveying member (15).

With the toner (1) held on the surface of the toner conveying member (15) by magnetic force in this manner, the toner conveying member (15) is rotationally driven as the drive roller (16) rotates. The toner (1) held on the surface of the toner conveying member (15) is conveyed to the photoreceptor (2) side.

Further, at a stage during which the toner (1) is conveyed to the photoconductor (2) side in this way, the toner (1) is transported as described above.
A regulating member (17) is brought into pressure contact with the surface of the toner transporting member (15) holding the toner (1), and the toner (1) held on the surface of the toner transporting member (15) is frictionally charged by the regulating member (17). At the same time, the toner conveying member (15)
The amount of toner (1) on the surface of the toner (1) is regulated.

As a result, the toner (1) supplied to the surface of the toner transport member (15) is uniformly applied to the surface of the toner transport member (15), and the toner (1) is uniformly applied to the surface of the toner transport member (15).
is now sufficiently held on the surface of the toner conveying member (15) by its residual magnetic force and electrostatic force.

In this way, the toner (1) is transferred to the toner conveying member (1).
As described above, as the drive roller (16) rotates, the torch conveying member (1) is held uniformly on the surface of the
5) is rotated to transport the toner (1) held on the surface of the toner transport member (15) to the facing portion facing the photoreceptor (2).

When the toner (1) is conveyed in this manner, the toner (1) is sufficiently held on the surface of the toner conveying member (15) by its residual magnetic force and electrostatic force as described above. Therefore, the toner (1) did not separate from the surface of the toner conveying member (work 5) and did not spill out from inside the developing device (10).

Then, at the facing portion facing the photoreceptor (2), the toner conveying member (15) is brought into soft contact with the surface of the photoreceptor (2) as described above, and the photoreceptor (2) is charged by the charger (3). ), the charged toner (1) is supplied from the toner conveying member (15) to the location where the electrostatic latent image is formed by the exposure means (4).

When the charged toner (1) is supplied from the toner conveying member (15) to the photoreceptor (2) in this way, the charged toner (1) is (1) is now supplied by electrostatic force, but toner (1) is held on the surface of the toner conveying member (15) by its residual magnetic force, so toner (1) is supplied to other locations by electrostatic force. ) was not supplied to the photoreceptor (2) and fogging etc. did not occur.

After the toner (1) is supplied from the toner conveying member (15) to the electrostatic latent position of the photoreceptor (2) as described above, the toner conveying member (15) is further supplied with the rotation of the drive roller (16). 15) is rotated, and the photoreceptor (
2) Return the toner (1) remaining on the surface of the toner conveying member (15) into the developing device (1, 0), so that the N pole and N pole of the magnet roller (14a) are arranged in parallel. The toner (1) remaining on the surface of the toner conveying member (15) is removed by this magnetic roller (1).
4a) to remove the toner from the surface of the toner conveying member (15).

Moreover, after the remaining toner (1) is removed from the surface of the toner conveying member (15) in this way, this toner (
1) into the toner supply section (13) by the rotating conveyance roller (14b), and as described above, the agitator (
12) and the toner (1) fed into the toner supply section (13), and the thus mixed toner (1) is supplied to the toner conveying member (15) as described above. .

[Effects of the Invention] As detailed above, in the developing device according to the present invention, a magnetic toner with a large residual magnetization is used as the toner, and after this toner is magnetized by a magnetizing means, The toner is supplied to the surface of a toner conveying member made of a soft magnetic material with little residual magnetization, and the toner is conveyed by this toner conveying member, so that the toner magnetized as described above becomes a toner due to its residual magnetic force. The toner is now sufficiently retained on the surface of the toner conveying member, and the toner no longer separates from the surface of the toner conveying member and leaks or spills from inside the developing device while the toner is being conveyed by the toner conveying member. Ta.

As a result, in the developing device according to the present invention, the toner flowing out from the developing device scatters in the image forming device, and the optical system, charger, etc. provided in the image forming device are covered with toner. There is no smudging, and there is no longer any fogging or other deterioration in image quality that occurs in the formed image, making it possible to stably obtain high-quality images.

Further, in the developing device according to the present invention, the magnetized toner is supplied to the surface of the toner conveying member made of a soft magnetic material, and the toner is held on the surface of the toner conveying member by the residual magnetic force of the toner. Compared to the case where magnetic toner is supplied to the surface of a toner conveying member that has a magnetic roller inside and the magnetic toner is held on the surface of the toner conveying member by the magnetic force of the magnetic roller and conveyed. As a result, the toner is conveyed while being uniformly applied to the surface of the toner conveying member, and unlike in the past, the image quality does not deteriorate due to uneven density in the formed image. , high-quality images can now be stably obtained.

[Brief explanation of drawings]

FIG. 1 is a schematic sectional view showing how a developing device according to an embodiment of the present invention is used, and FIG. 2 is a partially enlarged sectional view of the developing device according to the same embodiment. (1)...Toner (magnetic toner with large residual magnetization) (
10)...Developing device (14)...Magnetizing means (15)...Toner conveying member

Claims (1)

[Claims] 1. In a developing device in which toner is conveyed by a toner conveying member, and the toner is supplied from this toner conveying member to a photoreceptor, a magnetic toner with a large residual magnetization is used as the toner, and the above-described toner is conveyed. The toner transport member is made of soft magnetic material with low residual magnetization,
A developing device further comprising magnetizing means for magnetizing the toner.