JPH089729Y2 - 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 device for developing toner using a one-component developer.

(Prior Art) In an example of a developing device using a one-component developer, a magnet is rotatably arranged in a developing sleeve. This device
The magnetic attraction of the rotating magnet prevents the remaining developer from dropping and sticking.

Another example of a developing device using a one-component developer is one in which a developing sleeve is brought into pressure contact with the surface of a photosensitive drum.

(Problems to be Solved by the Invention) In the former case of the prior art, the rotating magnet effectively acts to prevent the remaining developer from falling and sticking, but the developer on the surface of the developing sleeve does not. Since the magnetic attraction forces the movement of the developers, the developers are triboelectrically charged, and the particles of the developer that are charged to an undesired polarity appear. That is, if the electrostatic latent image on the photoconductor is positively charged, the developer on the developer sleeve must be negatively charged. Therefore, when the positively charged developer is generated, the attraction force due to the electrostatic force does not act on the electrostatic latent image, so that the developer cannot be replenished well to the photoconductor. Therefore, a good image cannot be obtained.

On the other hand, in the latter case of the prior art, since the developing sleeve is pressed to contact the photosensitive drum, the developer remaining after the developing process is pressed and solidified, and the developer is apt to be fixed. When the developer remaining on the developing sleeve is fixed, when the remaining developer is transferred to the contact surface with the photosensitive drum again, the developer is intermittently peeled off and a large amount of developer is supplied. Therefore, a good image cannot be obtained. Further, the developer dropped from the contact surface between the developing sleeve and the photoconductor drum stains the surroundings and wastes the developer.

Therefore, a main object of the present invention is to provide a developing device capable of preventing the developer from dropping or sticking even when a one-component developer is used and obtaining a good image.

(Means for Solving the Problems) Briefly stated, the present invention provides a toner supply roller for forming a magnetic brush of charged toner and transferring the magnetic brush according to the rotation of the magnetic brush. A sleeve for supplying the toner to the surface of the photoconductor in accordance with the rotation thereof, an elastic layer formed on the surface of the sleeve and contacting the surface of the photoconductor, and the elastic layer contacting the surface of the photoconductor A magnetic force generating means disposed only inside the sleeve on the downstream side in the rotational direction of the portion, wherein the magnetic force generating means temporarily aligns the toner remaining on the elastic layer after the developing process by magnetic force. It is a developing device.

(Operation) On the toner supply roller, a magnetic brush of toner charged positively or negatively is formed by the magnetic attraction force. Then, the magnetic brush is transferred as the toner supply roller rotates. Eventually, the magnetic brush contacts the rotating developing sleeve, and the charged toner is supplied from the magnetic brush onto the developing sleeve. The supplied toner is transferred by the rotation of the developing sleeve and is carried to the moving electrostatic latent image surface of the photoreceptor. Then, the toner charged to the opposite polarity to the electrostatic latent image is pressed against the photoconductor, the toner adheres to the electrostatic latent image surface, and the toner development is performed.

Even after the toner development is completed, the toner on the sleeve surface is not entirely adsorbed on the electrostatic latent image surface, and the toner remaining on the sleeve surface without being adsorbed on the electrostatic latent image surface exists. The remaining toner enters the range of the magnetic force lines coming from the magnetic force generating means as the sleeve rotates. When the lines of magnetic force become stronger as the sleeve rotates, the remaining toner, for example, the toner fixed to the sleeve surface by passing through the developing unit is magnetized and aligned in the direction of the lines of magnetic force. That is, when the toner particles are aligned in the direction of the lines of magnetic force, the toner particles are shaken and the toner adhesion is released. A magnetic attraction force acts from the magnetic force generating means on the toner whose adhesion has been released.

(Effects of the Invention) According to the present invention, an elastic layer formed on the surface of the sleeve and in contact with the surface of the photoconductor, and the sleeve on the downstream side in the rotation direction from the portion where the elastic layer contacts the surface of the photoconductor. The magnetic force generating means is provided only inside, and the magnetic force generating means temporarily aligns the toner remaining in the elastic layer after the developing process by magnetic force, and therefore the magnetic force generating means generates the pressure by contact with the surface of the photoconductor. Since the toner sticking state can be released, the toner sticking can be effectively prevented, and in addition to the electrostatic force, the magnetic force also acts on the unstable toner adhering to the elastic layer only by the electrostatic force without sticking. Therefore, the remaining toner does not drop at a position other than the predetermined position. Therefore, it is possible to return both the toner adhered after the development processing and the toner adhering to the elastic layer due to only the electrostatic force, to a stable adhering state.

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. In the developer chamber 14, there is a non-magnetic cylinder 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 magnetic flux. It is rotatably provided (the drive mechanism is not shown).
One terminal of a DC power supply 18 is connected to the non-magnetic cylinder 16, and the other terminal of the DC power supply 18 is grounded. Therefore, from this DC power supply 18 to the non-magnetic cylinder 16,
For example, a DC bias of -1000V is applied.

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

In the vicinity of the non-magnetic cylinder 16 of the developer chamber 14, the toner 22 that is a magnetic one-component developer is stored.
The toner 22 is made of an insulating magnetic material having a resistivity of, for example, 10 ¹³ Ω · cm or more.

A developing roller 26, which is a sleeve that rotates in contact with the photosensitive drum 12, is provided on the left side of the non-magnetic cylinder 16, that is, on the downstream side. The surface of the developing roller 26 has elasticity such as rubber and has a resistivity of 10 ⁷ to 10 ¹⁰ Ω · c.
An elastic layer 28 of about m is provided. The thickness of the elastic layer 28 is set to 0.2 to 0.8 mm, for example. 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.

Inside the developing roller 26, a permanent magnet 34 is arranged on the downstream side in the rotation direction of the developing roller 26 from the portion where the surface of the elastic layer 28 contacts the surface of the photosensitive drum 12. This permanent magnet 34
Passes through the portion in contact with the surface of the photoconductor drum 12 to swing the residual toner fixed on the surface of the elastic layer 28 to release the fixed state, and magnetizes the toner to generate a magnetic attraction force. This is to prevent it from falling down.

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, when the residual toner 22 unfixed by the permanent magnet 34 passes through the contact portion between the developing roller 26 and the peeling roller 36, the negatively charged residual toner 22 is neutralized and the electrostatic force is applied. Is released, it falls to the right side of the peeling roller 36.
The toner 22 that has fallen to the right side of the peeling roller 36 does not come back to the magnet 20 again.
Are collected on the surface of the non-magnetic cylinder 16 by the magnetic attraction force of
Recycle.

In operation, the toner 22 is rubbed by the mutual friction and the non-magnetic cylinder 16 or the doctor blade 24,
Each is charged positively or negatively. For that purpose, in this embodiment, the toner 22 is formed of an insulating material having a resistivity of 10 ¹³ Ω · cm or more. In this way, the charged toner 22 is collected on the non-magnetic cylinder 16 by the magnetic attraction force of the magnet 20, and is formed as a magnetic brush. This magnetic brush is transferred by the rotating non-magnetic cylinder 16 and is adjusted in height by the doctor blade 24 on the way.

The magnetic brush whose height is adjusted by the doctor blade 24
It is further transferred by the rotation of the non-magnetic cylinder 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 22 is supplied onto the developing roller 26. As described above, the DC bias V ₁ = −1000V is applied to the non-magnetic cylinder 16, and the developing roller 26 is applied with a −100V DC bias in which an AC voltage having a maximum value of 1000V is superimposed. At this time, only the negatively charged toner is supplied to the developing roller 26 from the magnetic brush.

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 not adsorbed to the electrostatic latent image surface remains on the surface of the elastic layer 28 as shown in an enlarged view in FIG. 2A. In some cases, the remaining toner 22 is solidified by the pressing force of the elastic layer 28 on the surface of the photosensitive drum 12. When the remaining toner 22 is transferred downward as the developing roller 26 rotates, it enters the range of the magnetic force lines shown by the two-dot chain line extending from the permanent magnet 34. With the rotation of the developing roller 26, when the toner 22 on the surface of the elastic layer 28 is located in a portion where the magnetic lines of force are strong, as shown in FIG. 2B, the fixed toner 22 has its toner particles magnetized, and To align in the direction of the magnetic lines of force. Then, even when the toner 22 is fixed by the pressing force of the elastic layer 28 when passing through the portion in contact with the surface of the photoconductor drum 12, the toner 22 is within the range of the magnetic force line of the permanent magnet 34 due to the magnetization by the magnetic force line. When, enters, the toner 22 swings and the fixed state is released. When the adhesion of the toner 22 is released, gravity acts on the particles of the toner 22.
In addition to the electrostatic force, the magnetic attraction force of the permanent magnet 34 acts on the toner, so that the toner 22 does not drop.

Then, the toner 22 keeps the state where the fixation is released,
By the rotation of the developing roller 26, it is transferred to the peeling roller 36. When the toner 22 is conveyed to the peeling roller 36, it is a permanent magnet.
The magnetic lines of force 34 weaken and the magnetic attraction force also weakens, so that the toner 22 is adsorbed on the surface of the elastic layer 28 mainly by the attraction force by electrostatic force. Therefore, when the toner 22 reaches the peeling roller 36, a DC voltage of +100 V is applied to the peeling roller 36, so that 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 collected is collected again on the surface of the non-magnetic cylinder 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, the permanent magnet 34 releases the adhesion of the toner 22 remaining on the surface of the elastic layer 28 even after the development process is completed, so that the toner 22 can be completely peeled off by the peeling roller 36. Therefore, a uniform thin layer of the toner 22 can be formed on the surface of the elastic body layer 28, and "fogging" due to the supply of the excessive toner due to the fixation of the toner 22 hardly occurs.

In the above embodiments, the permanent magnet 34 is used as the magnetic force generating means, but it goes without saying that the permanent magnet 34 may be an electromagnet.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustrative view showing one embodiment of the present invention. FIG. 2A is an enlarged view showing the distribution of magnetic force lines by the permanent magnet of the embodiment of FIG. FIG. 2B is an enlarged view showing a state in which toner particles are aligned by the lines of magnetic force by the permanent magnet of FIG. 1 embodiment. In the figure, 12 is a photosensitive drum, 16 is a non-magnetic cylinder, 22 is toner, 26 is a developing roller (sleeve), 28 is an elastic layer,
Reference numeral 34 is a permanent magnet, and 36 is a peeling roller.

Claims (1)

[Scope of utility model registration request] 1. A latent image formed on a photosensitive member is formed of toner only.
A developing device for developing with a component type developer, a toner supply roller for forming a magnetic brush of charged toner and transferring the magnetic brush according to the rotation of the magnetic brush, the toner supplied from the toner supply roller A sleeve for supplying to the surface of the photoconductor in response to rotation, an elastic layer formed on the surface of the sleeve and in contact with the surface of the photoconductor, and a portion rotated by the portion where the elastic layer contacts the surface of the photoconductor A developing device comprising a magnetic force generating unit arranged only inside the sleeve on the downstream side in the direction, wherein the magnetic force generating unit temporarily aligns the toner remaining on the elastic layer after the developing process by magnetic force. .