JPH02143894A - Liquid latent image developing method - Google Patents

Abstract

PURPOSE:To stably obtain a high quality and density by using a developer consisting of a carrier with a specific volume average diameter relatively to a liquid drip forming a liquid latent image and a toner with a specific volume average diameter as a two-pack type developer. CONSTITUTION:As a two-pack type developer for developing a liquid latent image, a developer consisting of a carrier with a volume average diameter more than the maximum average diameter value of a liquid drip forming the liquid latent image and a toner with a volume average diameter less than the maximum average diameter value thereof is used. On a rotating liquid latent image holder 1, a liquid drip made of a liquid substance is supplied from a liquid drip supply source 3 according to an image signal, applied, and held, whereby a liquid latent image is formed. The developer of the mixture of the carrier 8 and the toner 9 is drawn up to a developing device 5 by a drawing means 6, falls down to the liquid latent image holder 1 having a liquid latent image 4 on the surface thereof, and rolls on to perform a cascade development. The developed toner image is transferred under pressure onto recording paper supplied between a drive roller 2 and a transfer roller 13.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for developing a liquid latent image, and more particularly to a method for developing a liquid latent image using a two-component developer.

[Prior Art] As a method of forming an image by forming a liquid latent image and making it visible by adhering toner to this liquid latent image, for example, the method disclosed in Japanese Patent Application Laid-Open No. 61-64452 is known. It was getting worse. This involves first forming a liquid latent image on recording paper using an inkjet head, and then applying magnetic toner (-component developer) onto a developing roller (sleeve) that has a magnetic roller inside. Recording is performed by attaching magnetic toner to a liquid latent image on recording paper using a magnetically held developing device. This method has the advantage of superior color fastness and low recording paper cost because plain paper can be used, compared to normal inkjet recording methods.

Furthermore, a two-component developer is a developer in which a carrier and a toner are mixed, and has conventionally been used in electrophotography. Development methods using a two-component developer include a cascade development method, a paddle development method, a magnetic brush development method, and the like.

Development methods using these two-component developers have the advantage of being able to stably obtain high image quality and high density, and are therefore frequently used in color development.

[Problems to be Solved by the Invention] However, although the two-component development method has the above-mentioned advantages in an electrophotographic recording method, when used as a method for developing a liquid latent image, there are problems with the liquid latent image. The problem was that not only toner but also carrier adhered, making it impossible to obtain clear images.

[Means for Solving the Problems] The gist of the present invention is to develop a liquid latent image formed by depositing droplets on a liquid latent image holding member according to an image signal using a two-component developer. In the developing method, the two-component developer includes a carrier having a volume average diameter larger than the maximum value of the average diameter of the droplets forming the liquid latent image, and a carrier having a volume average diameter smaller than the maximum value of the average diameter. A liquid latent image developing method characterized by using a developer consisting of toner.

The present invention will be explained in detail below.

(Droplets) The liquid substance forming the droplets is preferably colorless, and preferably does not solidify upon drying. For example, a liquid mixture of 85 wt % water and 15 wt % diethylene glycol as a wetting agent and viscosity modifier can be used.

Furthermore, as a droplet supply source for supplying droplets to the liquid latent image carrier, for example, an inkjet head as described above can be used. In particular, inkjet printing using the bubble jet method disclosed in Japanese Patent Application Laid-Open No. 59-936
The head is effective as a droplet supply source used in the present invention because the head has a simple structure and can be made into multiple nozzles, and high-speed recording can be easily achieved.

(Liquid latent image holder) When forming a liquid latent image, there are two methods: directly forming it on a recording material such as recording paper (that is, using recording paper as the liquid latent image holder), and first using IQ alloy etc. There is a method in which a liquid latent image is formed on a liquid latent image holder and then transferred to recording paper. The present invention is not particularly limited to such a recording process, and is effective no matter what kind of process is used. however,
When performing color recording, it is desirable to use the latter process because it is more suitable.

(Carrier) As the carrier, one having a volume average diameter larger than the average diameter of the droplets is used.

Note that the present invention does not particularly limit the material of the carrier, and any material conventionally used in electrophotographic recording methods can be used. As the carrier material, for example, glass beads, iron powder, ferrite powder, binder type materials (resin particles in which magnetic particles are dispersed), etc. can be used.

(Toner) The toner used has a volume average diameter smaller than the average diameter of the droplets.

Note that the present invention does not particularly limit the material of the toner, and any toner conventionally used in two-component developers such as electrophotographic recording methods can be used.

[Operation] According to the present invention, a carrier having a volume average diameter larger than the maximum value of the average diameter of the droplets on the liquid latent image carrier and a toner having a volume average diameter smaller than the maximum value of the average diameter of the droplets on the liquid latent image carrier. Since a two-component developer consisting of the following is used, it is possible to make it easier for the carrier to adhere to the liquid latent image and to make it easier for the toner to adhere to the liquid latent image.

Therefore, according to the present invention, it is possible to provide a liquid latent image developing method that can stably obtain high image quality and high density.

[Example] (Example 1) Using the developer shown in Table 1, the effect of the size relationship between the maximum average diameter of droplets, the volume average diameter of carrier, and the volume average diameter of toner on image quality was investigated. We conducted an evaluation.

First, the recording method used in this example will be explained. FIG. 1 is a schematic configuration diagram showing an apparatus for carrying out the liquid latent image developing method according to this embodiment.
2 is an endless belt-like liquid latent image holder made of polyimide; 2 is a drive roller for rotationally driving the liquid latent image holder 1; 3 is a liquid temperature image holder in which a liquid substance is formed into droplets according to an image signal. A droplet source 4 for supplying onto the body 1 is formed on the liquid temperature image carrier 1? '& latent image, 5 is the developing device,
6 is a developer pumping means, 7 is a drive roller for rotationally driving the pumping device 6, 8 is a carrier, 9 is a toner, 10 is a developer container, 11 is a developer conveying means, 12 is a recording paper, and 13 is a drive roller. A transfer roller 14 transfers and conveys the toner image on the liquid latent image carrier 1 onto the recording paper 12 by the pressure of 2, and 14 cleans the residual toner and liquid components on the liquid latent image carrier 1 after transfer. It is a cleaning means for

In this example, a bubble jet inkjet head was used as the droplet supply source. In addition, as a liquid substance, 15 wt% ethylene glycol is added to water.
A container was used.

The mixing ratio of toner in the carrier of the developer used in this example was about 4 to 7 wt % by weight.

As toner, Canon laser color copier CLC-
A toner with the same ingredients as the magenta toner used in No. 1 was used. As the carrier, one containing Fe as a main component was used.

The maximum average diameter of droplets and the volume average diameter of carrier and toner of each developer shown in Table 1 are measured and calculated as follows:
It was done as follows.

The average diameter of the droplet on the liquid temperature image holder 1 is calculated by measuring the longest diameter D6 of the droplet and the shortest diameter almost perpendicular to this as shown in FIG. Obtained by calculating the average. The largest average diameter among the average diameters of each droplet forming the liquid latent image is the maximum average diameter D wax.

The particle size distribution of the carrier was first measured by sieve analysis according to JIS standards, and then the volume average diameter DC was calculated from the measurement results.

The particle size distribution of the toner was first measured using a Coulter counter, and then the volume average diameter was calculated from this measured value. Note that the volume average diameter Dv is calculated as Dv=[Σ(na')/Σn] when the number of particles with radius a is n.
It is expressed as I/3×2.

Image recording with this device was performed as follows.

(2) By supplying, adhering to, and holding droplets of the above-mentioned liquid substance on the liquid-temperature image holder 1, which is being rotated by the rotation of the drive roller 2, according to the image signal by the droplet supply source 3. , a liquid latent image was formed.

■ Cascade development is performed by pumping up a developer consisting of a mixture of carrier 8 and toner 9 by pumping means 6 of developing device 5, dropping it onto liquid-temperature image holder 1 having liquid latent image 4 on its surface, and rolling it. Ta.

■The developed toner image is transferred to the drive roller 2 and transfer roller 1.
The image was transferred by pressure transfer onto the recording paper supplied between 3 and 3.

■Finally, the cleaning means 14 cleans the liquid latent image carrier 1.
cleaning was carried out.

Images were recorded using the developer shown in Table 1 according to the method described above.

The evaluation results of the image quality of recorded images are shown below.

■If a carrier with a volume average smaller than or equal to the maximum average diameter of the droplets on the liquid latent image carrier is used (No. 15 to N
o20) The carrier adhered to the liquid latent image, making it impossible to obtain a clear color image.

■If the volume average diameter of the toner is larger than the maximum average diameter of the droplets on the liquid temperature image holder (No. 14), it is difficult for the toner to adhere to the liquid latent image, resulting in low density and roughness. Only certain low-quality images were obtained.

■When the volume average diameter of the carrier is larger than the maximum average diameter of the droplets on the liquid latent image carrier (No.
3) Toner adhered to the liquid temperature image area without carrier adhesion, and a high-quality color visible image was obtained.

Note that similar image quality evaluation was performed using a liquid substance in which 8 wt % ethylene glycol was dissolved in water, and the results were the same as the image quality evaluation described above.

(Example 2) Image recording was performed using a developing roller (sleeve) having a magnetic roller inside disclosed in Japanese Patent Laid-Open No. 61-64452 and each developer shown in Table 1. The recording apparatus was the same as that shown in FIG. 1 except for the developing device.

In this case as well, almost the same results as in Example 1 were obtained.

At this time, fogging can be prevented by applying a DC voltage or an alternating voltage (AC+DC voltage) between the developing roller and the leakage image holder 1 so that a large force is applied to the developing roller in the direction of pulling the toner back. An image with fewer brush strokes and high density was obtained. In this case, it is preferable to apply the above (AC+DC'! pressure) so that a DC voltage component having a polarity opposite to the charging polarity of the toner is applied to the developing roller.

[Effects of the Invention] As described above, according to the present invention, it is possible to provide a liquid latent image developing method capable of recording images of high quality and high density.

table

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing an apparatus for carrying out a liquid latent image developing method according to an embodiment of the present invention, and FIG. 2 is a schematic diagram showing a droplet. DESCRIPTION OF SYMBOLS 1...Liquid latent image holder, 2...Drive roller, 3...
Droplet supply source, 4... Liquid temperature image, 5... Developing device, 6.
...Developer pumping means, 7...Drive roller, 8...
・Carrier, 9... Toner 10... Developer container,
11...Developer conveyance means, 12...Recording paper, 13.
...Transfer roller, 14...Cleaning means.

Claims (1)

[Claims] A liquid latent image developing method for developing a liquid latent image formed by depositing droplets on a liquid latent image holding member in accordance with an image signal using a two-component developer, wherein the two-component developer is A liquid latent characterized by using a developer comprising a carrier having a volume average diameter larger than the maximum value of the average diameter of droplets forming a latent image and a toner having a volume average diameter smaller than the maximum value of the average diameter. Image development method.