JPH0536781B2 - - Google Patents

Description

Detailed Description of the Invention (a) Industrial Application Field This invention provides a photoreceptive sheet on which a selectively cured image is formed by photosensitive and pressure-sensitive microcapsules, and a photoreceptive sheet that is superimposed on the photoreceptive sheet and pressurized. The present invention relates to an image forming apparatus including an image receiving sheet on which a colored image is formed.

(b) Prior art A light-receiving sheet in which polyester or the like is coated with photosensitive and pressure-sensitive microcapsules containing a photocurable material and a colorless dye in a resin shell, and a base sheet is coated with a developing material that develops color from the colorless dye. A method of forming an image using an image-receiving sheet is disclosed in Japanese Patent Laid-Open No. 88739/1988. In addition, as the base sheet of the image receiving sheet,
Thin paper of about 90 g/m2 or ^less , regular paper of about 90 to 120 g/ ^m2 , thick paper of about 120 g/m2 or ^more , OHP (overhead projector) paper, etc. are used.

When the light-receiving sheet is image-formingly exposed to light reflected from the original, the microcapsules are partially cured and a selectively cured image is formed. When the image-receiving sheet is superimposed on the light-receiving sheet and pressurized, the uncured microcapsules are cleaved and the colorless dye flows out, causing a coloring reaction with the developing material of the image-receiving sheet to form a colored image.

In order to cleave the uncured microcapsules, a high pressure of about 25 to 125 kg/cm is required,
In order to apply such high pressure, it is efficient to pass the material between pressure rollers that are in contact with each other. Such pressure rollers are disclosed in US Pat.

(c) Problems to be Solved by the Invention When a light-receiving sheet and an image-receiving sheet are overlapped and pressurized to cleave uncured microcapsules, if the pressurized state is unstable, the microcapsules will not be cleaved properly. The density of the colored image sometimes changed. For example, the instability of the pressurized state is due to the type of base sheet of the image receiving sheet. Even if pressure is applied using the same device, if the base sheet is thin, the density will be low, and if the base sheet is thick, the density will be low. It was getting darker. In addition, previously, Japanese Patent Application Laid-open No. 62-209535
As shown in Japanese Patent Application Laid-Open No. 62-209536,
Methods have been proposed in which the rotational speed and pressing force of the pressure roller are controlled according to the original density and input from a density selection switch, etc., but these methods do not deal with the instability of the pressing state. Ta.

In view of the above-mentioned drawbacks, this invention forms a good image corresponding to the image-receiving sheet by making it possible to set the speed at which the image-receiving sheet passes through the pressure section according to the type of the image-receiving sheet. An object of the present invention is to provide an image forming apparatus having a pressurization speed variable function.

(c) Means for Solving the Problems The image forming apparatus of the present invention having a variable pressure speed function comprises a light-receiving sheet coated with photosensitive and pressure-sensitive microcapsules containing a colorless dye, and a light-receiving sheet coated with photosensitive pressure-sensitive microcapsules containing a colorless dye, and a color-forming method using the colorless dye. In an image forming apparatus, an image-receiving sheet coated with a developing material is placed on top of the image-receiving sheet, and the microcapsules are ruptured by applying pressure with a pressure unit to form a colored image using a colorless dye. Is the sheet a regular sheet or an overhead projector (OHP)?
a detector for detecting whether the image-receiving sheet is for OHP use; The present invention is characterized in that means is provided for setting the speed to a constant speed or less when the sheet is used.

(e) Effect According to experiments conducted by the present inventors, by slowing down the speed at which the light-receiving sheet and the image-receiving sheet pass through the pressurizing section, the maximum density of the colored image increases, and the minimum density of the colored image increases. It was found that there is a tendency for the gamma of the colored image to increase (resulting in a high-contrast image quality). In the image forming apparatus of the present invention, the speed at which the light-receiving sheet and the image-receiving sheet pass through the pressure section is set depending on the thickness of the image-receiving sheet and whether it is an OHP sheet or a regular sheet. Therefore, the maximum density, minimum density, and gamma of the colored image are set to be appropriate depending on the type, and a good colored image can be formed.

(f) Embodiment FIG. 2 is a diagram showing a schematic configuration of a copying machine which is an embodiment of the present invention.

A light-receiving sheet storage cassette 1 for storing light-receiving sheets is attached to the lower right portion of the main body of the copying machine. One end of the light-receiving sheet is pulled out from the light-receiving sheet storage cassette, and is wound onto a take-up roller 4 via a sheet support 2, a pressure roller 3, and a conveyance roller 41. On the top of the copying machine is the original platen 5.
is provided, and the original to be copied is placed thereon. An optical system including a light source 51, mirrors 52 to 55, and a lens 56 is provided below the document table 5, and scans the document on the document table 5 and directs the reflected light to an exposure point P1 on the support table 2. This causes the partial microcapsules to harden to form a selectively hardened image.

A paper feed cassette 6 is attached to the left side of the copying machine main body. An image receiving sheet is stored in the paper feed cassette 6, and the paper feed cassette 6 is removably attached to the main body of the copying machine. Note that the paper feed cassette 6 stores thin image receiving sheets, normal thickness image receiving sheets, thick image receiving sheets, and OHP image receiving sheets depending on the purpose. The image-receiving sheet in the paper feed cassette 6 is fed by the paper feed roller 7, and then fed by the PS roller 8 to the pressure roller 3 at a predetermined timing, and the photoreceptor sheet with a selectively cured image formed at the pressure point P2. It is overlapped with a sheet and pressurized. As a result, the uncured microcapsules are cleaved, the colorless dye flows out, and a colored image is formed. Thereafter, the image-receiving sheet is separated from the light-receiving sheet, heated by a heat roller 9, and discharged onto a paper discharge tray 11 by a paper discharge roller 10. Note that the coloring reaction is promoted by heating the image receiving sheet on which the colored image is formed by the heat roller 9.
24495), when the image-receiving sheet is coated with a thermoplastic pigment, the thermoplastic pigment softens or melts when heated, covers the surface of the colored image, and gives gloss to the colored image.
259490).

The pressure roller 3 has an upper roller 31 and a lower roller 3.
2 is pressed by a pressure welding mechanism (not shown), and its linear pressure is about 25 to 125 kg/cm. This pressure roller is connected to a drive system (not shown) and rotates, and its rotational speed is the pressure roller passing speed (pressure section passing speed). Note that the length between the exposure point P1 and the pressure point P2 is longer than the length of A3 size paper, and after the image-forming exposure at the light-receiving sheet exposure point P1 ends, pressure is started at the pressure point P2. . Therefore, the exposure speed and the pressure roller passing speed can be set to different speeds.

FIG. 1 is a block diagram of the copying machine. The entire copying machine is controlled by the CPU 21, and its processing program is stored in the ROM 22 in advance. RAM23 when executing the processing program
is used as a working area. On the other hand, an operation panel (not shown) is provided on the upper surface of the main body of the copying machine, and includes an operation section including operation switches such as the speed input switch 24, and a display section for displaying input data and the like. The speed input switch 24 is a switch for inputting the speed at which the light-receiving sheet and the image-receiving sheet pass through the pressure roller (pressure section) 3, and consists of three types of switches 24a to 24c. These three types of switches 24a to 24c are a low speed switch 24a, a medium speed switch 24b, and
This is a high speed switch 24c. Speed input switch 2
Input data from 4 is sent to the CPU via I/O25.
21.

According to the input from the speed input switch 24
The CPU 21 communicates with the pressure roller 3 via the I/O 26.
The control data is output to the rotation speed control circuit 27 of. As a result, the pressure roller 3 rotates according to the input speed.

Using the copying machine configured as described above, a copying experiment was carried out on a gray scale of 0.10 pitch and 0.05 to 1.85 density by changing the pressure roller passing speed to three stages: low speed, medium speed, and high speed. The image receiving sheet used at this time was a base sheet made of plain paper of about 110 g/m ² . FIG. 3 is a diagram showing the results, in which the horizontal axis shows the exposure amount corresponding to the density of the gray scale, and the vertical axis shows the density of the colored image formed.

As is clear from the figure, the slower the pressure roller passing speed, the higher the maximum density of the colored image.
The minimum density of the colored image increases, the gamma (slope) of the colored image increases, and the image becomes sharp.
Tend. By selecting the pressure roller passage speed according to the type of image-receiving sheet based on such a change tendency, it is possible to form a good image according to the type of image-receiving sheet used.

Therefore, we investigated the density of images formed by using three types of image-receiving sheet base sheets: thick (120 g/m ² ), thin (90 g/m ² ), and OHP, and varying the speed at which the pressure roller passes. Ta. Figure 4 is a diagram showing the results, with the horizontal axis representing the pressure roller passing speed, and the vertical axis representing the maximum density of the colored image formed, that is, the degree to which the microcapsules in the light-receiving sheet were not cured. It shows the concentration of the part. In addition,
For thick and thin paper, the reflection density is measured and expressed, but for OHP, transparency is required for its use, so the transmission density is measured and the results are shown.

As can be seen from the figure, when the base sheet of the image receiving sheet is thick, the pressure roller passing speed is 90mm/
It is possible to obtain a concentration of 1.4 or higher even if the temperature exceeds sec. In addition, if the base sheet is thin, approximately 60
At mm/sec or more, the image density falls below 1.4, the image density becomes light, and the image quality begins to deteriorate. Therefore, when thick paper (approximately 120 g/m ² or more) is used as the base sheet, it is desirable to increase the pressure roller passage speed to approximately 90 mm/sec to match the thickness (the copy processing speed should be increased). If the base sheet is made of thin paper (approximately 60 to 100 g/m ² ), it is desirable to slow down the pressure roller passage speed to approximately 60 mm/sec or less in accordance with the thickness. Note that it is preferable that a material having a thickness of about 100 to 120 g/m ² be processed at a pressure roller passing speed of about 60 to 90 mm/sec.

On the other hand, in the case of OHP, if the transmission density is approximately 0.8 or higher, a sufficiently good projected image can be formed when projected with a projector, but if it is lower than approximately 0.8, the contrast of the projected image will be lost and the quality of the projected image will deteriorate. descend. In FIG. 4, when the pressure roller passing speed becomes approximately 60 mm/sec or more, the transmission density becomes less than 0.8. Therefore, when OHP is used as a base sheet, it is desirable to pass the OHP through the pressure roller at a speed of about 60 mm/sec or less.

Based on these experimental results, if the pressure roller passing speed is input from the speed input switch 24 according to the type of image receiving sheet (substrate sheet), the pressure processing will be performed at an appropriate speed, resulting in a good image. Obtainable.

In this embodiment, the pressure roller passing speed is input directly from the speed input switch 24, but a switch for inputting the type of image-receiving sheet (substrate sheet) is also provided, and the RAM 23 is configured to input the speed according to the type of image-receiving sheet. It is also possible to memorize the pressure roller passing speed and determine the pressure roller passing speed simply by key-inputting the type of image-receiving sheet. Alternatively, a detector for determining the type of image receiving sheet may be provided, and the pressure roller passing speed may be determined in accordance with the type of image receiving sheet detected by the detector. Note that the detector for determining the type of image-receiving sheet is one that detects the thickness of the image-receiving sheet;
Two types are required to determine whether the image receiving sheet is plain paper or OHP.

As a detector for detecting the thickness of the image-receiving sheet, for example, there are methods of measuring the capacitance of the image-receiving sheet, measuring the resistance of the image-receiving sheet, measuring the light transmittance of the image-receiving sheet, and converting them into the thickness of the image-receiving sheet. . That is, the thicker the thickness, the higher the capacitance, the higher the resistance, and the lower the light transmittance.
) and ), as shown in FIG. The capacitance or electrical resistance between can be measured. In addition, in order to measure the light transmittance of the image receiving sheet, as shown in FIG. do. Note that a micro switch 14 is provided in front of this optical sensor, and when this micro switch 14 is turned on, the light emitting element 12 is turned on.

In addition, in order to determine whether the image-receiving sheet is plain paper or OHP, there is a method to measure the light transmittance of the image-receiving sheet based on the light transmission characteristics of OHP. The rate is high;
Light reflectance decreases. ) can be measured by using a transmission type optical sensor as shown in FIG. 6A. Moreover, the light reflectance of ) is as shown in FIG. 6B, when the light emitting element 12 and the light receiving element 13 of the transmission type optical sensor shown in FIG. It can be measured by

In this way, the type of image-receiving sheet (thickness, difference between plain paper and OHP) can be determined.
This determination result is input to the CPU. RAM23'
Area M contains pressure roller passing speed (pressure roller rotation control data) according to the type of image receiving sheet.
is stored, and rotation control data for the pressure roller is output in accordance with the input type of image-receiving sheet. Thereby, a good image can be formed depending on the type of image-receiving sheet.

In this way, by installing a detector that determines the type of image-receiving sheet, it is possible to save the trouble of inputting the pressure roller passing speed and the type of image-receiving sheet, and also eliminates the possibility of forgetting input or inputting errors. Mistakes can be prevented.

(g) Effects of the Invention According to the image forming apparatus of the present invention, the pressure roller passing speed can be set depending on the type of image-receiving sheet, that is, the thickness of the image-receiving sheet, and whether it is an OHP sheet or a regular sheet. It is possible to prevent uneven density from occurring in a colored image due to different types of sheets, and it is possible to form a colored image of good quality. Furthermore, when a thick image receiving sheet is used, the pressure roller passing speed can be set to be high, resulting in an advantage that the copy processing speed can be increased.

[Brief explanation of drawings]

Fig. 1 is a block diagram of a copying machine that is an embodiment of the present invention, Fig. 2 is a schematic configuration diagram of the same copying machine, and Fig. 3 is a copying process using the same copying machine by changing the speed at which the pressure roller passes. FIG. 4 is a diagram showing the relationship between the type of image-receiving sheet and the maximum density of the color image formed. Also, Figure 5,
Figure 6 is a diagram showing a method for determining the type of image receiving sheet in another embodiment, Figure 5 is a diagram of a PS roller for measuring capacitance and resistance, and Figure 6A is a diagram for measuring light transmittance. Photosensor for Measuring Figure B is a diagram of an optical sensor for measuring light reflectance. 3... Pressure roller, 12, 12'... Light emitting element,
13, 13'... Light receiving element, 24... Speed input switch, 24a... Low speed switch, 24b... Medium speed switch, 24c... High speed switch, 81,8
2... Conductive part.

Claims (1)

[Scope of Claims] 1. A light-receiving sheet coated with photosensitive and pressure-sensitive microcapsules containing a colorless dye and an image-receiving sheet coated with a developing material that develops color from the colorless dye are superimposed and pressed in a pressurizing section. In an image forming apparatus that cleaves the microcapsules by applying pressure to form a colored image using a colorless dye, the thickness of the image receiving sheet and whether the image receiving sheet is a regular sheet or an overhead projector (OHP)
a detector for detecting whether the image-receiving sheet is for OHP use; An image forming apparatus having a variable pressure speed function, further comprising: means for setting the speed to a constant speed or less when forming a sheet.