JPH0814709B2 - Developer - Google Patents

Description

The present invention relates to an electrostatic charge developer used in an electrostatic transfer copying machine, a laser printer and the like.

[Conventional technology]

As a method for developing a visible image by developing an electric latent image with a developer, an electrostatic printing method, an electrophotographic method, etc. have been well known.

For example, as an electrophotographic method, US Pat.
Various methods described in Japanese Patent Publication No. 4223910, Japanese Patent Publication No. 43-24748, etc. are well known. In general, a photoconductive substance is used to form an electric latent image on a photoconductive photoconductor by various means, and then the latent image is developed with a developer to obtain a visible image. Alternatively, the toner powder image is transferred onto paper or the like, if necessary, and then the toner powder image is fixed by heating, pressurizing, solvent vapor or the like to obtain a visible image.

Among those used as the above-mentioned developer, the two-component developer is generally composed of toner and carrier. Conventionally, as the toner, particles prepared by dispersing a colorant such as carbon black and a charging substance in a binder resin such as polystyrene and pulverizing this into a fine powder of about 1 to 30 μm are used. On the other hand, the carrier is usually glass beads, made of iron powder, fur, or the like, and the developer is prepared by mixing the carrier with the above toner.

However, the above-mentioned developer containing a toner has a problem that so-called image fog is likely to occur and a good image cannot be obtained, particularly in low-potential development using a ferrite carrier. There is. The above-mentioned image fog represents, for example, how much toner is applied to the white background portion of the transfer paper in the corresponding white background portion of the original and the transfer paper to which the image of this original is transferred, and is usually BG and Abbreviated. The image fogging is measured by a whiteness meter, and the difference between the measured values of the white background portions of the both is evaluated.

On the other hand, in order to solve such a problem, as disclosed in JP-A-57-40259, a tin conductive inorganic compound which is a colorless conductive fine powder is dispersed in a toner. Things are known. It is considered that this inorganic compound acts as a control agent for the electric resistance of the toner, and can make the toner adaptable to changes in the environment.

[Problems to be solved by the invention]

However, even the above-mentioned conventional developers still have a problem that image fog cannot be sufficiently suppressed and a satisfactory image cannot be obtained.

[Means for solving problems]

The developer of the present invention, in order to solve the above problems,
In a developer comprising a toner containing a colorless conductive fine powder and a carrier, the conductive fine powder has the same polarity as the toner relative to the carrier, and It is characterized in that the potential is formed to be between the toner and the carrier.

[Action]

According to the above configuration, since the conductive fine powder has the same polarity as the toner relative to the carrier, the chargeability of the toner is improved and the image fog can be reduced. That is, since the charge amount of the toner is determined by the relative potential of the carrier, the chargeability of the toner can be improved by making the conductive fine powder and the toner have the same polarity with respect to the carrier. Further, the conductive fine powder and the toner are made to have the same polarity with respect to the carrier by selecting a coating material for the carrier and a charge control agent for the toner.

In addition, since the electric potential of the conductive fine powder is formed so as to be the electric potential between the toner and the carrier, compared to the case where the electric potential of the conductive fine powder is not the electric potential between the toner and the carrier, It has a high function in reducing fogging.

[First Embodiment] A first embodiment of the present invention will be described below with reference to FIG.

The developer according to the present invention is a two-component developer in which the toner has a negative polarity relative to the carrier. The toner contains colorless conductive fine powder in a dispersed state. The electrically conductive fine powder changes the electrical characteristics of the toner and reduces the image fog (BG). It should be noted that carbon black is conventionally used to change the electrical characteristics of the toner, but if this carbon black is added in a certain amount or more, image fog will increase, so that the electrical characteristics of the toner will be adjusted. Is not appropriate.

As the conductive fine powder, for example, a tin oxide-based inorganic compound can be used. The conductive fine powder is a submicron-order fine powder having a particle size of 1 μm or less, and a specific resistance of 10 Ωcm or less is preferable. The amount of conductive fine powder added to the toner is preferably 0.1 to 10% by weight. On the other hand, as the carrier, for example, a ferrite carrier can be used.

The developer is set to have a charging order as shown in FIG. That is, the toner has a negative polarity relative to the carrier, and the conductive fine powder also has a negative polarity closer to the toner. The charge amount of the toner is determined by the relative potential of the carrier. Therefore, in order to obtain a sufficient charge amount, the carrier coating material and the toner charge control are performed so that the conductive fine powder and the toner have the same polarity. Select an agent. Here, an amine coat is used as the carrier coating material.

In the above structure, the present developer is manufactured as follows.

First, the toner is manufactured through the steps of mixing → kneading → crushing → classification. As shown in Table 1 below, the toner is a styrene acrylic (St / AC) resin as a main material, carbon black as a colorant, a negative charge control agent, wax, and SnO ₂ as a conductive fine powder. Fine powder is used as an ingredient.

Then, after mixing and kneading the above components, crushed,
By classification, a toner having an average particle size of 11 μm was obtained. Next, this toner was mixed with a ferrite carrier at a toner concentration of 3% to prepare a two-component developer in which the toner and the SnO ₂ fine powder have a negative polarity relative to the carrier.

When the image fogging was measured by subjecting the above developer to development, the image fogging was reduced as compared with the developer containing no SnO ₂ fine powder.

Second Embodiment A second embodiment of the present invention will be described below with reference to FIG.

The developer according to the present embodiment is a two-component developer in which the toner has a positive polarity relative to the carrier. As in the case of the first embodiment, this developer is composed of a toner containing a colorless conductive fine powder dispersed therein, and a ferrite carrier.

As shown in FIG. 2, the developer is set to have a charging order, the toner has a positive polarity relative to the carrier, and the conductive fine powder also has a positive polarity close to the toner. That is, the conductive fine powder and the toner have a relatively positive polarity by using a carrier having a negative polarity and using a silicon material containing a phenyl group or the like as a coating material.

With the above structure, the present developer is manufactured as follows.

As shown in Table 2 below, the toner is St
/ AC resin, carbon black as a colorant, quaternary ammonium salt, wax, and SnO ₂ fine powder as conductive fine powder are used as components.

The above components were combined and kneaded, and then pulverized and classified to obtain a toner having an average particle size of 11 μm. When the image fogging was measured by subjecting the thus-prepared two-component developer to development, Sn was found to be the same as in the first embodiment.
Image fogging was reduced as compared to the developer containing no O ₂ fine powder.

[Comparative example]

In the developer of this comparative example, the toner has a positive polarity relative to the carrier and the carrier has a positive polarity relative to the conductive fine powder.

The toner in this developer is composed of the components shown in Table 3 below.

Then, when the developer according to this comparative example and the developer according to the second example are compared, the image fog of the developer according to the present comparative example is increased with respect to the developer according to the second example. However, the image quality deteriorated. From this, it was found that the developer according to the present invention has a higher function in reducing the image fog than the developer having the toner containing the conductive fine powder.

〔The invention's effect〕

As described above, the developer of the present invention comprises a toner containing a colorless conductive fine powder and a carrier, and the conductive fine powder is the same as the toner relative to the carrier. It has a polarity and is formed so that the electric potential of the conductive fine powder becomes the electric potential between the toner and the carrier.

Therefore, it is possible to further reduce the image fog as compared with the case where the developer simply includes the toner containing the conductive fine powder and the carrier. Therefore, even when used for low potential development using a ferrite carrier, image fogging can be suppressed, and the quality of a developed image can be improved.

In addition, since the electric potential of the conductive fine powder is formed so as to be the electric potential between the toner and the carrier, compared to the case where the electric potential of the conductive fine powder is not the electric potential between the toner and the carrier, In terms of reducing fogging, it has an effect of having a high function.

[Brief description of drawings]

FIG. 1 shows an embodiment of the present invention and is an explanatory view showing a potential sequence of toner, carrier and conductive fine powder,
FIG. 2 shows another embodiment of the present invention and is an explanatory view showing the potential sequence of the toner, the carrier and the conductive fine powder.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shigeaki Tasaka 22-22 Nagaike-cho, Abeno-ku, Osaka-shi, Osaka Within Sharp Corporation (72) Nobuaki Nakano 22-22 Nagaike-cho, Abeno-ku, Osaka-shi, Osaka Incorporated (72) Inventor Kazuya Maeda 22-22 Nagaike-cho, Abeno-ku, Osaka-shi, Osaka (56) (JP, A) JP-A-63-128382 (JP, A) JP-A-63-174058 (JP, A)

Claims (1)

[Claims] 1. A toner containing colorless conductive fine powder,
In the developer including a carrier, the conductive fine powder has the same polarity as the toner relative to the carrier, and the potential of the conductive fine powder becomes the potential between the toner and the carrier. A developer that is formed as described above.