JP2516380Y2 - Development device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a developing device, and more particularly to a developing device that mixes non-magnetic toner and magnetic toner to perform toner development.

(Prior Art) This type of developing device is disclosed in Japanese Patent Application Laid-Open No. 53-83630. In this device, the magnetic toner is operated as a carrier for carrying the non-magnetic toner in the carrying path of the non-magnetic toner to the photoconductor.

(Problems to be Solved by the Invention) In the above-mentioned prior art, since the magnetic toner having a small particle size is operated as the carrier of the non-magnetic toner, the magnetic attraction force is small, so that the toner is charged to a desired polarity. It was easy for the non-magnetic toner to adhere to non-image areas other than the electrostatic latent image on the photoconductor. In particular, when reversal development is performed, the tendency is strong, the outflow of magnetic toner becomes large, and so-called "fog" causes deterioration of image quality. There was a drawback that it would occur.

Therefore, a main object of the present invention is to provide a developing device using a non-magnetic toner and a magnetic toner to obtain a more stable and good image.

(Means for Solving the Problems) The present invention is a developing device for developing a latent image formed on a photoconductor with a toner, the non-magnetic toner being mixed with the non-magnetic toner and having an insulating property. And when the amount of the non-magnetic toner is equal to or more than a predetermined amount, the opposite polarity charging is dominant,
When the amount of the non-magnetic toner becomes smaller than the predetermined amount, the ones in which charging of the same polarity is predominant occurs. Magnetic toner capable of bipolar charging depending on the amount of the non-magnetic toner, the non-magnetic toner and the magnetic toner. And a toner supply roller for forming a magnetic brush of the magnetic toner mixed with the non-magnetic toner and transferring the magnetic brush according to the rotation of the magnetic brush, and a DC bias of a predetermined polarity is applied by the toner supply roller. And a developing roller for receiving from the toner supply roller a charged toner having a polarity corresponding to the polarity of the DC bias and supplying only the toner charged to a predetermined polarity to the photoconductor. , A developing device.

(Operation) When the toner supply roller rotates, the non-magnetic toner and the magnetic toner are stirred and mixed by the magnetic attraction force. By this agitation, in the case of reversal development, for example, when the amount of the non-magnetic toner is a predetermined amount or more, the non-magnetic toner is negatively charged and the magnetic toner is positively charged.

Then, due to the magnetic attraction force, a magnetic brush of toner is formed on the surface of the toner supply roller. In this magnetic brush, when the amount of non-magnetic toner is a predetermined amount or more, the negatively charged particles of the non-magnetic toner are substantially evenly distributed among the particles of the magnetic toner due to the magnetic attraction force. When the amount of non-magnetic toner decreases, the amount of negatively charged magnetic toner forming the magnetic brush also increases.

When the magnetic brush is transferred according to the rotation of the toner supply roller and comes into contact with the developing roller, a DC bias of a predetermined polarity is applied to the toner supply roller, so the toner charged to the same polarity as the DC bias is supplied to the toner. It is supplied to the developing roller apart from the roller.

When the amount of the non-magnetic toner decreases, for example, among the positively charged magnetic toners, negatively charged magnetic toners also appear. The negatively charged magnetic toner has a larger repulsive force due to the Coulomb force than the magnetic attraction force of the toner supply roller, and is supplied to the developing roller in the same manner as the non-magnetic toner. The non-magnetic toner or the magnetic toner supplied to the developing roller is attracted to a desired portion of the electrostatic latent image formed on the photoconductor by the attraction force by the Coulomb force.

(Effect of the Invention) According to the present invention, the magnetic toner capable of being positively or negatively charged in accordance with the amount of the non-magnetic toner is mixed and used in the non-magnetic toner, and the toner supply roller and the developing roller are combined. Is provided, it is possible to obtain a good image at any time regardless of the amount of the non-magnetic toner.

That is, when the amount of non-magnetic toner is large, the magnetic toner is charged to the opposite polarity to the non-magnetic toner and is not supplied to the developing roller. Therefore, the developing roller does not excessively supply the magnetic toner charged to the opposite polarity to the non-magnetic toner. Therefore, the "fogging" due to the magnetic toner and the deterioration of the image quality due to the excessive supply of the non-magnetic toner do not occur.

Further, even if the amount of the non-magnetic toner decreases, the magnetic toner is charged to the same polarity as the non-magnetic toner, is supplied to the developing roller, and is attracted to the photoconductor, so that the image quality is not deteriorated.

The above-mentioned objects, other objects, features and advantages of the present invention will become more apparent from the detailed description of the embodiments below with reference to the drawings.

(Embodiment) FIG. 1 is an illustrative view showing a main part of an embodiment of the present invention.
The developing device 10 includes a developer chamber 14 in which an opening is arranged in the vicinity of the photosensitive drum 12 on which a photoconductive layer such as amorphous silicon is formed. Inside the developer chamber 14, a sleeve 16 having a width substantially equal to that of the photosensitive drum 12 and formed of a non-magnetic material such as aluminum, that is, a material capable of passing a magnetic flux.
Is rotatably provided (a drive mechanism is not shown). One terminal of the DC power supply 18 is connected to the sleeve 16,
The other terminal of the DC power supply 18 is grounded. Therefore, a DC bias of, for example, -1000V is applied to the sleeve 16 from the DC power supply 18.

Inside the sleeve 16, a magnet 20 assembled in a cylindrical shape is provided. The magnet 20 is moved to the sleeve 16 by the magnetic attraction force.
It is for forming a magnetic brush of the charged toner 22 on the top. A doctor blade 24 for adjusting the height of the formed magnetic brush is provided above the sleeve 16, and the doctor blade 24 is fixed to a part of the developer chamber 14.

Nonmagnetic toner and magnetic toner are mixed as toner 22 in the vicinity of the sleeve 16 in the developer chamber 14.

The non-magnetic toner is made of, for example, an insulating material having an average particle size of 5 to 30 μm. The magnetic toner is formed of, for example, an insulating magnetic powder material having an average particle diameter of 5 to 30 μm and a resistivity of 10 ¹² Ω · cm or more. The charging train of non-magnetic toner is
Since this device is a reversal development type device, it is higher than the magnetic toner.

Further, the magnetic toner is subjected to a treatment capable of positive or negative bipolar charging depending on the amount of the non-magnetic toner. That is, in the magnetic toner, the styrene resin is adsorbed on a part of the surface of the magnetic particles. Therefore, the magnetic toner particles have a magnetite portion where the resin portion is not adsorbed on the surface, that is, the magnetic particles are exposed as they are, and a resin portion where the resin is adsorbed.

Therefore, when mixed with a large amount of non-magnetic toner, the magnetic toner as a whole is positively charged. That is,
When the amount of the non-magnetic toner is large, the magnetic toners rarely rub against each other, and the positive charging of the magnetite portion due to the friction with the non-magnetic toner becomes dominant, and the entire magnetic toner is positively charged. However, when the amount of non-magnetic toner decreases, the chances of friction between magnetic toners increase, and magnetic toner in which the resin portion is negatively charged appears, and as a result of the increase in the amount, negative charging is predominant in the entire magnetic toner. Become.

On the left side of the sleeve 16, that is, on the downstream side, the photosensitive drum
A developing roller 26 that rotates in contact with 12 is provided. The surface of the developing roller 26 has elasticity such as rubber and has an elastic layer 2 having a resistivity of about 10 ⁷ to 10 ¹⁰ Ω · cm.
8 are provided. The thickness of the elastic layer 28 is, for example, 0.2 to 0.8 m.
Set to m. The elastic layer 28 of the developing roller 26 is for preventing the surface of the photosensitive drum 12 from being scratched even when the developing roller 26 comes into contact with the photosensitive drum 12 and rotates.

The developing roller 26 is further connected to one terminal of an AC power supply 30, and the other terminal of the AC power supply 30 is connected to a DC power supply 32. The other terminal of the DC power source 32 is grounded, and this DC voltage is set to, for example, -100V, which is smaller than the latent image potential of the photosensitive drum 12. The AC voltage of the AC power supply 30 is
The frequency is set to, for example, 1000 V at 1.6 kHz.

Below the developing roller 26, there is provided a peeling roller 36 that rotates in contact with the developing roller 26 and scrapes off the toner remaining without being adsorbed on the surface of the photosensitive drum 12. The peeling roller 36 is formed by a round rod-shaped shaft. Then, the peeling roller 36 is connected to the plus terminal of the DC power source 38 whose minus terminal is grounded.
A DC voltage of 0V is applied. Therefore, the residual toner 22
When the toner passes through the contact portion between the developing roller 26 and the peeling roller 36, the negatively charged residual toner 22 is neutralized in electric charge and the electrostatic force is released, and falls to the right side of the peeling roller 36. Toner that has fallen to the right of the peeling roller 36
22 is again collected on the surface of the sleeve 16 by the magnetic attraction force of the magnet 20 and is recirculated.

In operation, when the amount of the non-magnetic toner in the toner 22 is a predetermined amount, the non-magnetic toner is negatively charged due to friction with the magnetic toner and contact with the sleeve 16 or the doctor blade 24. Since the resin portion of the magnetic toner contains a large amount of non-magnetic toner, the magnetic toner is less likely to be negatively charged by friction between them. Therefore, the magnetic toner is governed by the positive polarity of the magnetite portion, and acts as positively charged particles as a whole. That is, the magnetic toner acts as a carrier for transporting the non-magnetic toner in the developer chamber 14 when the non-magnetic toner is in a large amount.

When the amount of non-magnetic toner decreases, the chances that the magnetic toners rub against each other increase, and the magnetic toner in which the resin portion is negatively charged appears. Then, the negative polarity of the resin portion dominates the polarity of the entire particle, and the entire particle is negatively charged.

In this way, the charged toner 22 is collected on the sleeve 16 by the magnetic attraction force of the magnet 20, and is formed as a magnetic brush. This magnetic brush is transferred by a rotating sleeve 16 and is leveled by a doctor blade 24 along the way.

The magnetic brush whose height is adjusted by the doctor blade 24
It is further transferred by the rotation of the sleeve 16 and contacts the elastic layer 28 of the conductive developing roller 26. When the tip of the magnetic brush comes into contact with the elastic layer 28, the toner is transferred onto the developing roller 26.
Only the negatively charged toner in 22 is supplied.

That is, when a large amount of non-magnetic toner is present in the developer chamber 14, only the non-magnetic toner is negatively charged. Therefore, at this time, only the non-magnetic toner is supplied onto the developing roller 26. However, when the amount of non-magnetic toner decreases, the magnetic toner is also negatively charged as described above. Then, the negatively charged magnetic toner is also supplied onto the developing roller 26.

As described above, the DC bias V ₁ = −1000 is applied to the sleeve 16.
V is applied, and the developing roller 26 is applied with a DC bias of -100V in which an AC voltage having a maximum value of 1000V is superposed.Therefore, from the magnetic brush, at this time, only the toner negatively charged, It is supplied to the developing roller 26.

The charged toner (negative electrode) supplied to the developing roller 26 is
According to the rotation of the developing roller 26, the developing roller 26 is carried to the electrostatic latent image surface of the photosensitive drum 12. When the electrostatic latent image surface comes into contact with the developing roller 26, the toner 22 on the elastic layer 28 is attracted to the electrostatic latent image surface and development is performed.

Even after the development is completed, the toner 22 that has not been adsorbed to the electrostatic latent image surface remains on the surface of the elastic layer 28. The remaining toner 22 is separated by the peeling roller 36 by the rotation of the developing roller 26.
Transferred up to. Since a DC voltage of +100 V is applied to the peeling roller 36, the charges of the toner 22 are neutralized so as to cancel each other. When the electric charge of the toner 22 disappears, the attraction force due to the electrostatic force also disappears, and the toner 22 falls to the right side of the peeling roller 36.

The toner 22 that has fallen and accumulated is collected again on the surface of the sleeve 16 by the magnetic attraction force of the magnet 20 to become a magnetic brush, and the above-described steps are circulated for reuse.

As described above, in this device, since the developer is a mixture of a non-magnetic toner and a magnetic toner capable of positively or negatively magnetically charging depending on the amount of the non-magnetic toner,
Even if the amount of non-magnetic toner is reduced due to consumption, the magnetic toner can be negatively charged and supplied to the photosensitive drum 12. That is, when the non-magnetic toner is used up, only the negatively charged magnetic toner is supplied to the surface of the elastic layer 28. Therefore, even if the amount of the non-magnetic toner decreases, the conveyance will not be delayed. Further, when the amount of non-magnetic toner is large, the magnetic toner that acts as a carrier for conveying the non-magnetic toner is
Since it is not negatively charged, it is not supplied to the surface of the elastic layer 28.

In the above-mentioned embodiment, the reversal development type apparatus is shown, but it is needless to say that the present invention can be similarly applied to the normal development type apparatus. At this time, the polarities of biasing the supply roller 12 and the developing roller 26 are opposite.

[Brief description of drawings]

The drawing is an illustrative view showing one embodiment of the present invention. In the figure, 12 is a photosensitive drum, 16 is a sleeve, 22 is toner, 26 is a developing roller, 28 is an elastic layer, and 36 is a peeling roller.

 ─────────────────────────────────────────────────── ─── Continuation of front page (56) References JP-A-53-83630 (JP, A) JP-A-61-67060 (JP, A) JP-A-61-121070 (JP, A) edited by The Electrophotographic Society Basics and Applications of Electrophotographic Technology "(SHO 63-6-15) P. Corona P. 265-266 Proceedings of the 45th Research Symposium of the Electrophotographic Society P.P. 50-54

Claims (2)

(57) [Scope of utility model registration request] 1. A developing device for developing a latent image formed on a photoconductor with a toner, comprising a non-magnetic toner, an insulating material mixed with the non-magnetic toner, and having a certain amount of the non-magnetic toner. When the amount is equal to or more than a fixed amount, the opposite polarity charging is dominant, and when the amount of the non-magnetic toner is less than the predetermined amount, the same polarity charging is dominant. A toner supply roller for stirring a chargeable magnetic toner, the non-magnetic toner and the magnetic toner, forming a magnetic brush of the magnetic toner mixed with the non-magnetic toner, and transferring the magnetic brush according to the rotation thereof. A direct current biasing means for applying a direct current bias of a predetermined polarity on the toner supply roller; and a charged toner having a polarity corresponding to the polarity of the direct current bias from the toner supply roller. Supplied, and a developing roller for supplying only the toner charged to a predetermined polarity to said photosensitive member, a developing device. 2. The developing device according to claim 1, further comprising an AC bias means for applying an AC bias to the developing roller.