JPH04225382A - Toner image fixing device - Google Patents

Abstract

PURPOSE:To lower dependency on the water content and type of a recording sheet and the amount of attached toner, to firmly fix a toner image at a high speed, and also to avoid the repelling of the toner, foaming, maloder, etc. CONSTITUTION:In the device where, after the recording sheet 2 and the toner picture 10 are preheated by imparting radiation heat energy to the recording sheet 2 on which the toner image 10 is formed, the moisture of the recording sheet 2 is removed by irradiating the sheet with flashlight, and the toner image 10 is fixed; as a radiation heat energy source, for example, a halogen lamp 1 where the radiation wavelength peak is in the range of 3-5mum and the radiation film of the above far-infared radiation is formed on its surface is employed.

Description

[Detailed description of the invention]

0001

[Industrial Application Field] This invention is applicable to copying machines, printers,
The present invention relates to a device for fixing a toner image in a device that forms a toner image on recording paper, such as a facsimile machine.

0002

2. Description of the Related Art Electrophotography is generally used in copying machines, printers, facsimile machines, and the like. This electrophotographic method uses a photoconductive phenomenon to form an electrostatic latent image on a photosensitive drum, develops the electrostatic latent image with toner to form a toner image (visible image), and then The image is transferred onto recording paper and fixed. Several types of devices using heat, pressure, light, etc. are used to fix this toner image.

[0003]The most commonly used method is one using a hot roll. however,
Although the heating roll has high thermal efficiency, it takes several tens of seconds for initial heating (rise). Furthermore, the toner tends to offset onto the heated roll and stain the recording paper. Furthermore, since the recording paper is sandwiched between a pair of thermal rolls, if the recording paper is continuous paper such as computer output paper, it is likely to wrinkle or tear due to meandering.

[0004]Also, even though they use the same heat, those that use radiant heat energy from halogen lamps, etc.
Since the recording paper can be heated without contact, the above-mentioned offset problem and the problem of wrinkles and tears in the recording paper due to meandering do not occur. However, it is difficult to fix at high speed due to poor thermal efficiency.

On the other hand, pressure-based methods are attracting attention because they do not require warm-up and do not require a heat source, but they are difficult to achieve strong fixing, and the recording paper may be stuck between a pair of rolls. In order to pressurize through
After all, wrinkles and tears are likely to occur due to meandering. Furthermore, if you use glued paper, which is commonly used these days, the glue may ooze out.

On the other hand, toners that utilize the light energy of flash light from xenon lamps, etc., allow high-speed fixing because the toner selectively absorbs the light energy, and also allow for non-contact fixing. This has the advantage that there is no need to worry about wrinkles or tears due to offset or meandering of the recording paper, and it is also easy to fix onto adhesive paper. However, on the other hand, because the toner momentarily becomes hot,
Depending on the degree of light energy applied, the toner may decompose and burst or bubble on the recording paper. Furthermore, the higher the light energy, the more gas is generated due to decomposition of the toner, resulting in an unpleasant odor.

[0007] In an attempt to solve such problems, the inventions in Japanese Patent Application Laid-open No. 55-74571 and Japanese Patent Application Laid-Open No. 60-16697 have been proposed.
Invention No. 6 and the invention in Japanese Patent Application No. 1-118440 by the inventors preheat the recording paper and toner image using radiant heat energy, and then irradiate the flash light once or at least twice. We have proposed a device that removes moisture from the recording paper and fixes the toner image by irradiating the recording paper in separate steps. Infrared lamps and halogen lamps are used as radiant heat energy sources. These infrared lamps and halogen lamps have a peak emission wavelength of 0.5 to 1.5μ.
It is in the range of about m. For example, the peak emission wavelength of a halogen lamp with a color temperature of about 2300K is 1.3μm.
It's nearby. However, recording paper absorbs only about 5 to 30% of light of such wavelengths. Therefore, although there is no problem with the toner image, preheating of the recording paper tends to be insufficient. If the preheating is insufficient, it will be necessary to increase the light energy of the subsequent flash light, but if you do so, the amount of light energy absorbed by the toner will become excessive, resulting in popping, bubbling, and severe odor. It happens. If you lower the light energy of the flash light in an attempt to avoid this, even if there is no problem in areas with a large amount of toner adhering to it and a large heat capacity, such as so-called solid black areas, fixing will not occur in areas with less adhering toner, such as thin lines. Or, to a lesser extent, it may not be possible to establish a strong establishment. Also,
If the moving speed of the recording paper is reduced in an attempt to sufficiently preheat it, the advantage of using flash light, which is high speed, will be lost.

[0008]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of conventional devices, and to provide a device that not only has almost no dependence on the type of recording paper, moisture content, or amount of attached toner, but also has a strong To provide a toner image fixing device which can perform fixing at high speed and has almost no worries about toner popping, bubbling, bad odor, etc.

[0009]

[Means for Solving the Problems] In order to achieve the above-mentioned object, the present invention applies radiant heat energy to a recording paper on which a toner image is formed to preheat the recording paper and the toner image, and then flashes the recording paper. A device for removing moisture from a recording paper and fixing a toner image by irradiating light, characterized in that the radiant heat energy source is a far-infrared source having a peak radiation wavelength in the range of 3 to 5 μm. An image fixing device is provided.

Further, in the present invention, radiant heat energy is applied to the recording paper on which the toner image is formed to preheat the recording paper and the toner image, and then flash light is irradiated to remove moisture from the recording paper and to remove the toner image. An apparatus for fixing a toner image, characterized in that the radiant heat energy source is a halogen lamp having a far-infrared radiation film having a radiation wavelength peak in the range of 3 to 5 μm formed on the surface thereof. fixing device.

In the present invention, a far infrared ray source having a peak radiation wavelength in the range of 3 to 5 μm is used as the radiant heat energy source. A typical example of such a far-infrared ray source is a halogen lamp, which has a radiation film formed on its surface, such as a coating made of ceramics, such as alumina ceramics. This halogen lamp emits far-infrared rays with a peak wavelength in the range of 3 to 5 μm thanks to the radiation film. The peak emission wavelength of a normal halogen lamp is 0.5 to 1.5 as mentioned above.
Since it is in the range of about μm, it is considerably longer than that. However, about 80% of the radiant heat energy having such a wavelength is absorbed by the recording paper.

Further, as a light source for irradiating flash light, a xenon lamp, a neon lamp, an argon lamp, a krypton lamp, etc. can be used. These light sources may be provided in only one stage along the moving direction of the recording paper, or may be provided in multiple stages, for example, two stages.

Note that a reflector is usually provided behind the radiant heat energy source or flash light source described above. Further, these light sources and reflectors are housed in the hanging to constitute a fixing device.

[0014]

[Operation] In this invention, a radiant energy source of 300W is applied to a moving recording paper on which a toner image is formed.
Relatively low radiant heat energy having a wavelength peak in the range of 3 to 5 μm is applied before and after the recording paper to raise the temperature of the recording paper and toner image. That is, preheat. Thereafter, a flash light source is used to apply relatively low-density light energy of about 2.1 to 2.3 J/cm2 once or at least twice to remove moisture from the recording paper and fix the toner image. . When the flash light is irradiated twice, for example, the light energy of the first flash light is used mainly for removing moisture from the recording paper, and the second light energy is used mainly for fixing the toner image. 3
The same holds true when irradiation is performed more than once; for example, the first irradiation is used primarily for moisture removal, and the next two irradiations are used primarily for fixing.

[0015] As mentioned above, devices that perform fixing using radiant heat energy have problems such as poor thermal efficiency and a long start-up time. Since it has little effect on fixing the toner image and preheats the recording paper and the toner image to facilitate subsequent moisture removal and fixing, energy consumption is low and poor thermal efficiency is not much of a problem. In addition, since a sufficient temperature rise can be expected during the warm-up time of other processes, the rise in temperature is also not a problem. This is because there is no need for a temperature rise to the extent that the toner is semi-melted or softened. moreover,
Since there is no need to raise the temperature to such a high temperature, it is possible to avoid burning or burning of the recording paper.

On the other hand, in conventional fixing that uses flash light from a xenon lamp, there is no need to worry about rising, and although thermal efficiency is good because the toner selectively absorbs light energy, the toner However, in this invention, wavelengths that are easily absorbed not only by the toner image but also by the recording paper are used. Since radiant heat energy having a peak in the range of 3 to 5 μm is used for preheating, sufficient preheating can be performed even when the recording paper is moving at high speed. Therefore, the light energy of the flash light may be low, and the above-mentioned problems can be avoided. If a problem occurs, try irradiating the flash light twice, for example.
This can be solved by reducing the light energy per exposure by removing moisture from the recording paper with the first flash of light after preheating, and fixing the toner image with the next flash of light. .

[0017]

[Embodiment] In FIG. 1, a halogen lamp 1 having a far-infrared ray emitting film formed on its surface having a peak emission wavelength in the range of 3 to 5 μm is lit with a constant output, and behind it A reflecting plate 3 is arranged so that the radiant heat energy from the halogen lamp 1 is efficiently transmitted to the recording paper (continuous paper) 2 side moving in the direction of the arrow. Recording paper 2
Xenon lamps 4 and 5, which are flash light sources, are arranged in front of the halogen lamp 1 in the direction of movement. A reflecting plate 6 is also arranged behind the xenon lamps 4 and 5 so that the light energy from the flash light is efficiently transmitted to the recording paper 2 side. The halogen lamp 1, the xenon lamps 4 and 5, and the reflectors 3 and 6 are
The xenon lamps 4 and 5 are housed in the housing 7, and are designed to prevent toner, dust, etc. from adhering to the xenon lamps 4 and 5.
A glass plate 8 is attached to the front surface facing the recording paper 2. The glass plate is not provided in front of the halogen lamp 1 because it absorbs radiant heat energy with a wavelength of 3 to 5 μm. Furthermore, an exhaust port 9 is provided at the front end of the housing 7 to suck in and discharge gas generated from the toner during fixing, so that the gas and the like are not released into the atmosphere.

Now, the recording paper 2 and the toner image 10 formed thereon are first preheated by radiant heat energy provided by the halogen lamp 1, and then irradiated with a first flash light by the xenon lamp 4. The recording paper is then irradiated with a second flash of light from the xenon lamp 5, and the toner image is mainly fixed using the light energy.

As the recording paper 2 moves, the two xenon lamps 4 and 5 apply light energy to the same toner image by two flashes.
, 5 is set so that f=V/L (Hz), where L is the interval between the xenon lamps 4 and 5 in the moving direction of the recording paper 2, and V is the moving speed of the recording paper 2. has been done.

[0020]

Effects of the Invention This invention applies radiant heat energy to a recording paper on which a toner image is formed to preheat the recording paper and the toner image, and then irradiates the recording paper with flash light to remove moisture from the recording paper and remove the toner image. As a radiant heat energy source, a far-infrared radiation film having a peak radiation wavelength in the range of 3 to 5 μm, which is easily absorbed not only to the toner image but also to the recording paper, is used as a radiant heat energy source. Since a halogen lamp having a halogen lamp formed on the surface is used, sufficient preheating can be performed even when the recording paper is moved at high speed, and strong fixing can be performed at high speed. In addition, since preheating is also used, the light energy of the subsequent flash light is low, which not only prevents toner from popping, bubbling, and bad odors, but also reduces the moisture content of the recording paper and the amount of adhered toner. It also has less effect on fixing properties. Furthermore, since fixing can be performed without contact, there is no need to worry about the recording paper being wrinkled or torn due to meandering, and there are fewer restrictions due to the type of recording paper.

[Brief explanation of the drawing]

FIG. 1 is a schematic vertical sectional view of a fixing device according to an embodiment of the present invention.

[Explanation of symbols]

1: Halogen lamp 2: Recording paper (continuous paper) 3: Reflector 4: Xenon lamp 5: Xenon lamp 6: Reflector plate 7: Housing 8: Glass plate 9: Exhaust port 10: Toner image

Claims (2)

[Claims] [Claim 1] Radiant heat energy is applied to the recording paper on which the toner image is formed to preheat the recording paper and the toner image, and then flash light is irradiated to remove moisture from the recording paper and fix the toner image. In a device that performs
A toner image fixing device characterized in that it is a far infrared ray source having a peak emission wavelength in the range of 3 to 5 μm. 2. Preheating the recording paper and the toner image by applying radiant heat energy to the recording paper on which the toner image is formed, and then irradiating the recording paper with flash light to remove moisture from the recording paper and fix the toner image. In a device that performs
1. A toner image fixing device, characterized in that it is a halogen lamp having a far-infrared radiation film having a peak radiation wavelength in the range of 3 to 5 μm formed on its surface.