JP3864039B2 - Image transfer sheet for electrophotography and image forming method using the image transfer sheet for electrophotography - Google Patents

Description

虫食い画像の程度；×＝非常に目立つ、△＝やや目立つ、○＝目立たない、
◎＝全く見られない
【００３８】
【効果】
１．請求項１および２
中空粒子内部の空気の弾性により虫食い画像を生じにくくしているため、電子写真用複写機の二次転写で虫食い画像が生じやすい状況にあっても、言い換えれば特別に弾性を持つベルトを使用せず、従来の樹脂ベルトを使用した電子写真用複写機でも虫食い画像を生じにくい装置が得られた。
２．請求項３
中空粒子の塗設による影響で表面が荒れてしまっている場合に、その平滑性を補正し、平滑性の低下による画像異常を生じにくくした画像形成装置が得られた。
３．請求項４
中空粒子を使用した際に上昇することがある電子写真用転写シートの表面抵抗値を導電剤などを用いて低下させることにより、表面抵抗の過剰な上昇に伴う「ベタチリ」などの画像異常を防ぐことができる画像形成装置が得られた。
４．請求項５
中空粒子による弾性を利用し、弾性層に外観上に凹凸による意匠を凝らしても画像異常が生じにくい画像形成装置が得られた。
５．請求項６
前記画像形成装置に適した電子写真用転写シートが得られた。
６．請求項７〜８
中空粒子内部の空気の弾性により虫食い画像を生じにくくしているため、電子写真用複写機の二次転写で虫食い画像が生じやすい状況にあっても、言い換えれば特別に弾性を持つベルトを使用せず、従来の樹脂ベルトを使用した電子写真用複写機でも虫食い画像を生じにくい画像形成方法が得られた。[0001]
[Technical field to which the invention belongs]
The present invention relates to an electrophotographic transfer sheet, particularly an electrophotographic transfer sheet having characteristics suitable for an image forming apparatus using an intermediate transfer belt, and an image forming apparatus using the transfer sheet.
[0002]
[Prior art]
An electrophotographic apparatus using an intermediate transfer member can create a color image by sequentially laminating and transferring a plurality of component color images, so that not only color misregistration can be reduced when superimposing toner images of respective colors. Since the transfer sheet can be selected from a wide variety, it is a very effective method. However, it is known that the physical properties of the intermediate transfer member, particularly its elastic modulus, has a great influence on the image quality after transfer. For example, if the elasticity is too low, an image abnormality in which toner is scattered around the image at the time of transfer is likely to occur, and if it is too high, an image abnormality in which only the outline portion of the image is transferred is caused. In order to prevent this, the elastic modulus of the intermediate transfer member has been adjusted, but the long-term reliability of the intermediate transfer member has deteriorated, and image abnormalities due to expansion and contraction have been caused, so that it has not been completed.
[0003]
[Problems to be solved by the invention]
The present invention has been made in view of the above problems, and its object is to provide an elastic material as an appropriate intermediate transfer member on the side of an electrophotographic transfer sheet without using a special image forming belt. It is to provide an electrophotographic transfer sheet that does not cause an image abnormality, particularly a so-called “worm-eaten image” that is not transferred outside the contour region, and an image forming method using the electrophotographic transfer sheet. .
[0004]
[Means for Solving the Problems]
A first aspect of the present invention is an electrophotographic image transfer sheet used in an electrophotographic image forming method having an elastic layer using at least one hollow particle on the transfer side of a support, wherein the hollow particle is thermally foamable. The present invention relates to an electrophotographic image transfer sheet for use in an electrophotographic image forming method, which is a hollow particle and is in a state of being foamed in advance before image transfer.
[0005]
A second aspect of the present invention relates to the image transfer sheet for electrophotography according to claim 1, wherein the elastic layer has a thickness of 10 μm or more .
A third aspect of the present invention relates to the image transfer sheet for electrophotography according to claim 1 or 2, wherein the hollow particles have a hollow ratio of 80% or more .
[0006]
A fourth aspect of the present invention relates to the image transfer sheet for electrophotography according to any one of claims 1 to 3, wherein the elastic layer is formed by painting and a calendar is applied after painting .
The fifth aspect of the present invention relates to the image transfer sheet for electrophotography according to any one of claims 1 to 4, wherein the support is a resin or paper, or a composite material or a laminate thereof .
The sixth aspect of the present invention is that the surface resistance value of the front and back of the sheet is 1 × 10 ¹³ Ω or less when humidity is adjusted at 20 ° C. × 65% RH. It relates to a transfer sheet .
[0007]
7th of this invention transfers the transfer image on the secondary transfer body transferred from the primary transfer body which formed and carried the transferable image to the image transfer sheet for electrophotography in any one of Claims 1-6. The present invention relates to an image forming method .
An eighth aspect of the present invention relates to the image forming method according to claim 7 , wherein the image is a color image .
[0008]
In the present invention, by providing a layer using hollow particles, particularly a layer having a thickness of 10 μm or more, on the copy surface side of the support of the electrophotographic transfer sheet, the elasticity required for the secondary transfer member can be obtained for electrophotography. The transfer sheet can be used to solve the above problems.
The reason for using the hollow particles is that the air contained in the hollow particles serves as a cushion. As a means to play the role of the cushion, a method of reducing the density of the support itself and using the cushion may be considered, but in that case, the surface of the transfer sheet for electrophotography also becomes rough, so Image quality could not be obtained. On the other hand, when the hollow particles are used as in the present invention, the surface becomes uniform, so that the surface of the support itself is sufficiently reduced as a transfer sheet for electrophotography than the surface obtained by reducing the density. It became dense and sufficient image quality could be obtained.
[0009]
The heat-expandable hollow particles used in the present invention are, for example, hollow plastic fillers containing a thermoplastic substance as a shell and containing a low-boiling solvent inside, and have a characteristic of foaming by heating. Such heat-expandable hollow particles are conventionally known, and various types can be used. As the thermoplastic resin that becomes the shell of the thermally foamable particles, the same thermoplastic resin as the hollow particles can be used. Moreover, propane, butane, etc. are common as a foaming agent contained in the shell.
[0010]
The hollow ratio of the hollow particles is preferably 80% or more. This is because when the hollowness ratio is increased, an improvement in the effect is recognized because the elasticity becomes larger even with the same elastic layer thickness.
As the hollow particles, heat-expandable hollow particles are preferable, and it is preferable that the particles are previously foamed before transferring the image.
[0011]
When using thermally foamable hollow particles, it is preferable to prepare and apply a dispersion of the thermally foamable hollow particles in an unfoamed state, and to heat the foam after drying from the middle of drying to foam the hollow particles. By adopting such a foaming method, two merits can be obtained.
The first merit is that the hollow ratio can be made very large and the function as an elastic layer can be exhibited to the maximum. The second merit is that when hollow particles with a large hollow ratio are used for coating as they are, they tend to float in the dispersion used for coating and have the disadvantage of being inferior in workability. When hollow particles are used, since the specific gravity is small at the time of coating, the dispersion liquid has good stability and excellent workability.
[0012]
When the elastic layer is formed by painting, it is preferable to apply a calender after painting. That is, the apparent smoothness of the surface of the elastic layer containing the hollow particles coated as described above is lowered. Although the image abnormality is less likely to occur due to the action of the elastic layer, extreme unevenness may occur, and it is preferable to perform a calendar process for the purpose of correcting this. As the calendar, any of an on-machine calendar and an off-machine calendar such as a super calendar can be used.
[0013]
Examples of the support for the electrophotographic transfer sheet of the present invention include resin or paper, or a composite material or laminate material thereof.
The resin is preferably used as a sheet-like film, and a thermoplastic resin, a thermosetting resin, or the like can be used as the resin. As the paper, for example, at least a part composed of a paper layer mainly composed of cellulose fibers can be used, and generally a paper based on fine paper is used. In addition, examples of the composite material include a resin film using cellulose fibers as a part of the constituent material, a mixture of resin fibers and cellulose fibers, or a nonwoven fabric used. Furthermore, as a laminated material, for example, an arbitrary resin is coated on paper by extrusion processing, or an adhesive is applied on a resin film that has been processed into a sheet in advance, and another paper is bonded to this. Or something.
[0014]
The transfer sheet for electrophotography of the present invention preferably has a surface resistance value of 1 × 10 ¹³ Ω or less when the humidity is adjusted at 20 ° C. × 65% RH.
That is, in the electrophotographic transfer sheet using the hollow particles as described above, it is observed that the electrical resistance value of the electrophotographic transfer sheet may increase due to the influence of the hollow particles used. However, if the sheet is used in an electrophotographic copying machine in a situation where the electrical resistance value has become high, the toner before fixing is scattered due to poor feeding due to adhesion between the sheets due to charging or the influence of too high electrical resistance. This may cause image abnormalities (often referred to as “sticky” etc.), and the like, but this phenomenon has a resistance value of 1 × when humidity is adjusted at 20 ° C. × 65% RH as described above. It has been found that it can be improved by lowering to 10 ¹³ Ω, desirably 1 × 10 ¹² Ω.
The electrical resistance value of the electrophotographic transfer sheet can be adjusted by using various commercially available conductive agents. The conductive agent is contained in the support or the elastic layer, or the support surface or the elastic layer. It may be applied to the surface.
[0015]
Further, the electrophotographic transfer sheet of the present invention can be provided with irregularities on the surface of the elastic layer from the aesthetic viewpoint of the texture. That is, the present inventor has found that the image is not extremely deteriorated even when a design having irregularities is added to the surface by embossing or the like.
The irregularities are generally embossed as described above, but may be generated by printing or the like. However, when these designs are added, the thickness of the elastic layer is preferably equal to or greater than the size of the unevenness caused by the design. Even if the thickness is less than the size of the unevenness, there is an effect of reducing the image abnormality, but the degree of the image abnormality tends to deteriorate.
[0016]
The color image is formed by the image forming method of the present invention. For example, the color image formed on the primary transfer member is sequentially transferred to the secondary transfer member (intermediate transfer member) and then transferred to the secondary transfer member (intermediate transfer member). A plurality of transferred color images can be transferred to the electrophotographic transfer sheet of the present invention.
[0017]
As the primary transfer member and the secondary transfer member (intermediate transfer member) used in the image forming method of the present invention, those conventionally used can be used, and the shapes thereof can be belts or rollers.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hollow particles The hollow particles used in the present invention include, for example, a thermoplastic resin as a shell and contains air or other gas inside, such as polystyrene, polyvinyl chloride, polyvinylidene chloride, polyvinyl acetate, Examples thereof include polyacrylic acid esters, polyacrylonitrile, polybutadiene, and copolymer resins thereof. Among these, a copolymer resin mainly composed of vinylidene chloride and acrylonitrile is particularly preferable.
[0019]
Elastic layer The elastic layer using the hollow particles is obtained by dispersing the hollow particles in water together with a binder resin such as a known water-soluble polymer or water-based polymer emulsion, and applying this to the support surface and drying. Is obtained. The thickness of the elastic layer can be easily adjusted by the amount of hollow particles dispersed or the amount of dispersion applied at this time, but it is preferably 1 μm or more, and preferably 10 μm or more in order to function sufficiently as an elastic layer. When the thickness is 20 μm or more, the effect as an elastic layer is maximized.
[0020]
Binder resin The coating amount of the binder resin needs to be an amount that strongly bonds the elastic layer to the support, and is usually preferably 2 to 50% by weight based on the total amount of the hollow particles and the binder resin. When the content is less than 2% by weight, the bonding strength of the hollow particles to the support is weak, and the separation of the hollow particles becomes remarkable in the electrophotographic copying machine. On the other hand, if it exceeds 50% by weight, the elastic effect of the hollow particles may be lost by the binder resin.
[0021]
The binder resin is appropriately selected from conventionally known water-soluble polymers and / or aqueous polymer emulsions. Specific examples thereof include water-soluble polymers such as polyvinyl alcohol, starch and derivatives thereof, cellulose derivatives such as methoxycellulose, hydroxyethylcellulose, carboxymethylcellulose, methylcellulose, and ethylcellulose, sodium polyacrylate, polyvinylpyrrolidone, acrylamide / acrylic. Examples include acid ester copolymers, acrylamide / acrylic ester / methacrylic acid terpolymers, styrene / maleic anhydride copolymer alkali salts, polyacrylamide, sodium alginate, gelatin, and casein. Examples of aqueous polymer emulsions include latex such as styrene / butadiene copolymer, styrene / butadiene / acrylic copolymer, vinyl acetate resin, vinyl acetate / acrylic acid copolymer, and styrene / acrylic acid ester copolymer. And emulsions such as acrylic ester resins and polyurethane resins.
[0022]
【Example】
Hereinafter, the present invention will be described by way of examples, but these are only one aspect of the present invention and the present invention is not limited thereto.
[0023]
Reference example 1
40 parts of non-foaming plastic hollow particles (solid content 23.4%, average particle size 3 μm, hollow rate 30%)
10 parts of styrene / butadiene copolymer latex (47% solids)
Water 50 parts A mixture comprising the above composition is sufficiently stirred and dispersed to prepare an elastic layer forming liquid, and this is applied to the surface of a commercially available electrophotographic transfer paper (basis weight 70 g / m ² ), and the layer thickness after drying is The electrophotographic transfer sheet of the present invention was obtained by coating and drying to a thickness of 10 μm.
[0024]
Reference example 2
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 1 except that a commercially available OHP sheet for electrophotography was used as the support.
[0025]
Reference example 3
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 1 except that coating and drying were performed so that the layer thickness was 20 μm.
[0026]
Reference example 4
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 2 , except that the layer thickness was 20 μm.
[0027]
Reference Example 5
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 1 except that hollow particles having a hollow ratio of 80% were used.
[0028]
Reference Example 6
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 2 except that hollow particles having a hollow ratio of 80% were used.
[0029]
Example 1
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 1 except that foamable hollow particles were applied, dried, and foamed so that the layer thickness was 30 μm. In addition, Matsumoto Yushi Seiyaku F-30 was used for the foamable hollow particle, and the following formulation was used for the liquid for coating. For foaming, a heat roller that was nipped by a 50 kg spring and heated to a surface temperature of 150 ° C. was used.
Expandable plastic hollow particles 25 parts Polyvinyl alcohol 5 parts Water 70 parts
Example 2
An electrophotographic transfer sheet of the present invention was obtained in the same manner as in Reference Example 2, except that foamable hollow particles were applied, dried and foamed so that the layer thickness was 30 μm.
[0031]
Example 3
The electrophotographic transfer sheet of Example 1 was supercalendered to obtain an electrophotographic transfer sheet of the present invention having a layer thickness of 26 μm.
[0032]
Comparative Example 1
A comparative electrophotographic transfer sheet was obtained in the same manner as in Reference Example 1 except that the commercially available electrophotographic transfer sheet used for the support in Reference Example 1 was used.
[0033]
Comparative Example 2
A comparative electrophotographic transfer sheet was obtained in the same manner as in Reference Example 2 except that the commercially available OHP sheet for electrophotography used for the support in Reference Example 2 was used.
[0034]
Comparative Example 3
A comparative electrophotographic transfer sheet was obtained in the same manner as in Reference Example 1 , except that the layer thickness was 5 μm.
[0035]
Comparative Example 4
A comparative electrophotographic transfer sheet was obtained in the same manner as in Comparative Example 3 except that the support was a commercially available OHP sheet for electrophotography.
[0036]
Table 1 shows the experimental conditions and the results of image abnormalities. Note that although there was a slight deviation between the target layer thickness and the actual measurement value, there was no problem in confirming the effect. The layer thickness was measured by observing the cross section after freezing and rupture with liquid nitrogen using a scanning electron microscope.
The evaluation of image abnormality was performed using a copy made by Ricoh's Imagio Color 2800. However, in order to clarify the effect, the pressure of the transfer nip from the secondary transfer belt to the transfer sheet was arbitrarily slightly increased, and the conditions were such that “worm-eating images”, which are image abnormalities in question, were likely to occur.
[0037]
[Table 1]

Degree of worm-eating image; x = very conspicuous, △ = somewhat conspicuous, ○ = inconspicuous,
◎ = not seen at all [0038]
【effect】
1. Claims 1 and 2
Because the elasticity of the air inside the hollow particles makes it difficult for worm-eaten images to occur, use a belt that has special elasticity even in situations where worm-eaten images are likely to occur during secondary transfer of an electrophotographic copying machine. In addition, an electrophotographic copying machine using a conventional resin belt was able to obtain an apparatus that hardly generates worm-eaten images.
2. Claim 3
When the surface has been roughened due to the effect of the coating of the hollow particles, the smoothness is corrected, and an image forming apparatus in which image abnormality due to a decrease in smoothness is less likely to occur is obtained.
3. Claim 4
By using a conductive agent or the like to reduce the surface resistance of the electrophotographic transfer sheet that may increase when hollow particles are used, image abnormalities such as “sticky” that accompany an excessive increase in surface resistance are prevented. An image forming apparatus that can be used is obtained.
4). Claim 5
An image forming apparatus was obtained in which image abnormality hardly occurs even when the elastic layer is made of an elastic layer and the design based on the unevenness is applied to the appearance of the elastic layer.
5). Claim 6
An electrophotographic transfer sheet suitable for the image forming apparatus was obtained.
6). Claims 7-8
Because the elasticity of the air inside the hollow particles makes it difficult for worm-eaten images to occur, use a belt that has special elasticity even in situations where worm-eaten images are likely to occur during secondary transfer of an electrophotographic copying machine. In addition, an image forming method that hardly causes worm-eaten images even with an electrophotographic copying machine using a conventional resin belt was obtained.

Claims (8)

In an image transfer sheet for electrophotography used in an electrophotographic image forming method, having an elastic layer using at least one hollow particle on the transfer side of a support, the hollow particle is a thermally foamable hollow particle, and image transfer An electrophotographic image transfer sheet for use in an electrophotographic image forming method, wherein the electrophotographic image forming method is previously foamed . The electrophotographic image transfer sheet according to claim 1 , wherein the elastic layer has a thickness of 10 μm or more . The electrophotographic image transfer sheet according to claim 1 or 2, wherein the hollow particles have a hollow ratio of 80% or more . The electrophotographic image transfer sheet according to any one of claims 1 to 3, wherein the elastic layer is formed by painting, and a calendar is applied after painting . The image transfer sheet for electrophotography according to any one of claims 1 to 4, wherein the support is resin or paper, or a composite or laminate thereof . The image transfer sheet for electrophotography according to any one of claims 1 to 5, wherein when the humidity is adjusted at 20 ° C x 65% RH, the surface resistance values of the front and back surfaces of the sheet are all 1 x 10 ¹³ Ω or less . A transfer image on a secondary transfer body transferred from a primary transfer body on which a transferable image is formed and supported is transferred to the electrophotographic image transfer sheet according to claim 1 to form an image. An image forming method. The image forming method according to claim 7, wherein the image is a color image .