DE2740121A1 - DEVELOPMENT PROCESS FOR A LATENT, ELECTROSTATIC IMAGE - Google Patents

Description

DR. BERG DIPL-ING. STAPF

DIPL-ING. SCHWABE DR. DR. SANDMAIR ^/ ) ΊLO ^? ^ PATENT LAWYERS

8 MUNICH 86. POST BOX 8602 45

Attorney's file: 28 421 September 5, 1977

Ricoh Company Ltd
Tokyo / Japan

Development process for a latent, electrostatic image

The present invention relates to a latent electrostatic image developing method in electrophotography, electrostatic recording, and others _; and particularly, a magnetic brush developing method using a one-component magnetic toner having a resistivity of not less than 10 i / cm.

In general, when an electrostatic latent image having a predetermined polarity is obtained by a two-component developer is developed, the toner is triboelectrically charged by the carrier and then has a polarity that corresponds to that of the latent, electrostatic image is opposite. VII / XX / Ktz - 2

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f MlSOi 4 « » 212 »Munich M. Miucrkiri.hrrvin.1V 45 banks: Bayerische Vereinsbank Munich 453IW

WO4.1 Telegrams BERGSTAPFPATENT Munich Hypo-Bank Munich JOT0002624

«11310 TELEX: 0524 5 * 0 BERO U Pouscheck Munich 65343-101

If, as a result, a photoconductive material or electrostatic When the recording material is developed with the aforementioned developer, an electric charge of the same polarity remains such as that of an electrostatic latent image is left in non-image areas and the toner also becomes electrostatic applied to the non-image areas. This is how what is called the background comes about. Usually In order to prevent such a background, a bias voltage becomes the same polarity as that of an electric charge of the electrostatic latent image is applied to a developing electrode at the time of development.

However, in the development method in which one does not insulating toner is used, except for magnetic one-component toners, the toner to an electrostatic image of a recording material by electrostatic induction or by a dielectric polarization of the toner, which is brought about by the electrical charge of the recording material is applied, but not due to the attraction of the polarity of the toner caused by the triboelectric charge of the toner and that of the electrostatic latent image as in the case of a two-component developer. Consequently In the development process of this type, the application of a bias voltage from the outside has no influence on the development process, and on the non-image areas, due to residual charges, that remain in these areas, toner is applied. As a result, smearing or soiling of the rear

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reason cannot be prevented.

According to the invention, therefore, the above-described disadvantage of the developing method using a magnetic one-component toner is intended having a volume resistivity of not less than 10 J & m is used, so that development is performed without smearing the background.

In the one-component magnetic toner used in the invention no carrier particles are used. As a result, in this development process, toner is exposed to the latent, electrostatic Image applied on a photoconductive material by electrostatic induction and / or is formed by a dielectric polarization. As long as the same toner is used, As a result, development can be performed in exactly the same way regardless of the polarity of the charge of a latent, electrostatic Image (i.e. positive or negative). As stated above, in this development process, since the Bias does not take effect, smearing or soiling of the background cannot be prevented. Consequently In the invention, the volume resistivity of a magnetic one-component toner is increased accordingly, and the Toner is triboelectrically charged according to the polarity of the electrostatic latent image, so that an application of the magnetic Toner is prevented in non-image areas.

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Increasing the volume resistivity of the toner to "10j ^ cm or more causes the electric charge of the toner is retained by triboelectric charge. In the development process, there is the electric charge of an electrostatic latent image is large in the image areas, the magnetic toner is mainly an electrostatic one Induction and / or a dielectric polarization controlled and applied to the image areas. On the other hand is in non-image areas the residual potential is so small that it is not higher than 100 V, so that electrostatic repulsion greater than electrostatic attraction due to electrostatic induction due to triboelectric charge and / or dielectric polarization and is thus predominant. In this way, the toner is not applied to non-image areas. Accordingly, development without a "background" (i.e. without smearing of the background) to be achieved.

The value of the volume resistivity of a magnetic One-component toner and its triboelectric charge state must be determined and determined to have the following relationships enough:

^F I1 * ^F 12 ' ^F N1 ^ ^F N2

where F _{11 is} an electrostatic attraction caused by electrostatic induction and / or dielectric polarization of a magnetic one-component toner created by an electrostatic latent image; F _N1 a

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is electrostatic attraction due to electrostatic induction and / or dielectric polarization, which is created by the residual potential of non-image areas, F ₁₂ and F _ are an electrostatic repulsion in image areas and in non-image areas, respectively, which is caused by the electrical charge on the toner generated by triboelectric charge. Of course, if this toner is a magnetic toner, it is magnetically attracted by a magnetic roller. As a result, F _Tl must be large enough to attract the magnetic toner and not the magnetic roller. Meanwhile, in non-image areas, the magnetic attraction of the magnetic toner acts in the direction or in such a way that the toner is prevented from being deposited on the background. As a result, this does not pose a problem.

According to the invention, since a magnetic brush by means of a magnetic one-component toner having a volume resistivity of not less than 10j? cm, and because the magnetic toner is triboelectric according to the polarity of the electrostatic latent image on a photoconductor is charged, toner deposition on non-image areas can be prevented without an external bias being applied.

Further, when cleaning the waste toner by removing the charge on the If the surface of the photoconductor is erased or removed after an image transfer, the toner may be repelled with it of the same polarity can easily be removed from (and thereby cleaned) the surface of the photoconductor.

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According to the invention is a developing method in which a magnetic one-component toner having a volume resistivity used by no less than loiccm, wherein the magnetic toner is triboelectrically by coming into contact with a recording material having a latent electrostatic image is triboelectrically charged to the same polarity as that of the electrostatic latent image will.

The invention is described below on the basis of a schematic representation an embodiment of a developing device with a magnetic brush with reference to the single figure described in detail.

In the figure, a photoconductive drum 1 is a developing device 3, a toner hopper 3 and a non-magnetic one

4th
Sleeve and a magnetic roller 5 are shown.

The photoconductive drum 1, which is located in the direction indicated by the arrow direction indicated, touches a magnetic brush, which consists of a magnetic one-component brush and on the non-magnetic sleeve 4 is formed, which has the fixed magnetic roller 5 inside and extends in the direction of the arrow rotates so that an electrostatic latent image is formed on the surface of the photoconductive drum, is made visible. The mag-

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Netic toner is triboelectrically charged through the non-magnetic sleeve 4 when the toner rolls on the sleeve, or through the outlet side of the hopper 3, or by coming into contact with the photoconductive drum 1.
Example 1: Polystyrene Resin, (from Esso Standard Oil Corporation,

manufactured as Piccolastics D-125 * 100 parts

Iron powder (manufactured by Toda Kogyo as Fe ₃ O ₄

EPT500) 100 parts

Dye (Hodogaya Chemical Industry Corp, manufactured as Victoria Blue - B base 10 parts

A mixture of the predetermined ingredients was pulverized and kneaded by applying heat by means of a heating roller; thus a toner was prepared whose particle size ranged from 50 to 30 μ. This magnetic toner was produced by the developing device shown in the figure shaped into a uniform magnetic brush. A toner image was created by having the magnetic brush in contact with the photoconductor 1 is brought. The photoconductor used at this time was a conventional ZnO resin (silicone-acrylic resin) based photoconductor. The electric potential of the electrostatic latent image in the image areas was -500V and the residual potential in the non-image areas was -50V. The magnetic flux density (Gaussian) on the non-magnetic sleeve 4 was approximately 1,000 to 1,500 Gauss. The revolving speed of the photoconductor 1 was 100 mm / sec and that of the non-magnetic ones Sleeve 4 was 200 to 500 mm / sec.

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The copies obtained under the conditions described above had a more or less smeared background. After this After 500 copies had passed, the background was found to be significantly smeared or dirty. the The triboelectric charge generated by the magnetic toner and the photoconductor was + 30V / 10mg.

Example 2 ; Polystyrene resin (from Esso Standard Oil Company,

manufactured as Piccolastics D-125) 100 parts

Iron pulver (by Toda Kogyo, made as Fe ₃ O ₄

EPT 500) 100 parts

Pigment (Carbon Black # 44 manufactured by Mitsubishi Kasei Kogyo) 20 parts

A mixture of the above ingredients was processed in the same manner as in Example 1, and it an appropriate magnetic toner was prepared; when using a developing device similar to the one in the example 1 corresponded to the device used, a toner image was formed. Compared with the copies obtained in Example 1 the image created with this developer was sharper and its background was clearer or brighter. After 500 copies in a row were produced, the background was not smeared or dirty and the runnability of the developer was good Well. The triboelectric charge generated by this magnetic toner and the photoconductor became -17V / 10mg measured. The triboelectric charge of the magnetic toner according to the invention was measured as follows:

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The photoconductor, the base of which is grounded, is placed on a magnetic stirring rod or a corresponding stirring device arranged. A predetermined amount of magnetic toner is applied to the photoconductor and the agitator is turned rotated for a predetermined period of time (one minute in the aforementioned examples) so that the magnetic toner and the photoconductor are charged triboelectrically. The electrical potential on the upper surface of the toner is then measured by means of a Surface potentiometer, and the value obtained is then expressed as the triboelectric charge of the magnetic toner used. The value thus obtained was the same either in the dark or in the light.

Claim

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Claims (1)

Claim Process for developing a latent, electrostatic image with a magnetic brush, characterized in that that a magnetic one-component toner having a volume resistivity not smaller is used than 10 ijbni, and that the toner is set to the same polarity as that of the latent, electrostatic image is at least triboelectrically charged when the toner with a recording material is brought into contact, which carries the latent, electrostatic images- 10/1001 ORIGINAL INSPECTED