JPH01120503A - Surface-roughened light shieldable film having electrical conductivity - Google Patents

Abstract

PURPOSE:To obtain a film having an excellent antistatic property and matte property by forming a conductive layer to the fine-rugged surface based on the fine ruggedness of a film surface. CONSTITUTION:This light shieldable film is formed by compounding a pigment of a black color system such as, for example, carbon black, as a light shielding material to a synthetic resin such as polyester or polycarbonate and forming the mixture to a film shape. Many pieces of the fine ruggedness are formed on the surface of the film itself to roughen the surface. The method for the surface roughening includes a chemical etching method, sandblasting method, etc. The adequate film is formable according to the light shielding film as pinholes are less formed by this method than by the chemical etching method and the more uniformly roughened surface is obtainable. Such surface roughening is preferably executed to 0.5-1.0mum, more preferably about 0.8mum center line average height and 3-5%, more preferably about 4% reflectivity in association with the conductive layer to be coated thereon.

Description

Detailed Description of the Invention [Technical Field] The present invention relates to a roughened surface having conductivity suitable for use as a light-shielding material for shutter members, aperture members, etc. in optical equipment such as general cameras and video cameras. This invention relates to a light-shielding film.

[Prior art]

Until now, metal films coated with black paint have been used as materials for shutters and aperture members in optical devices. Recently, the electronic mechanism of optical equipment has progressed,
Shutters and apertures have also come to be driven by motors, which has led to the use of light-shielding plastic films, which are lighter and easier to drive than metals.

However, since such plastic films are insulative, static electricity is likely to be generated, resulting in inconvenient problems. In particular, when used in a shutter that operates at high speed, electrostatic force generated by friction between the shutter blades causes problems such as the shutter blades sticking together. On the other hand, in a light-shielding film, in addition to light-shielding properties, it is desired that the surface absorbs light efficiently or reflects it diffusely so as not to reflect light on the surface.

According to JP-A No. 57-118226, in order to prevent the generation of static electricity and the reflection of light on the surface, a thermosetting matte paint is coated on a polyester film, and an antistatic agent is adhered thereon. A light-blocking film is disclosed. However, the production of this film requires the steps of applying a thermosetting resin containing a matting agent, curing it by heating, and applying an antistatic agent. In this case, the thickness of the thermosetting resin film containing the matting agent was around 20 μm, and there was a problem that the cured resin film easily fell off from the support when used as a shutter.

〔the purpose〕

The present invention aims to overcome the drawbacks found in the prior art as described above.

〔composition〕

The present inventors have conducted intensive research to develop a light-shielding film with excellent antistatic and matte properties that can be easily and inexpensively manufactured. Fine unevenness is formed by sandblasting, etc. without damaging the fine unevenness.
It was discovered that a film obtained by applying an electronically conductive type conductive agent is suitable for this purpose, and the present invention was completed.

That is, according to the present invention, the black light-shielding plastic film has a large number of fine irregularities on its surface, and a conductive layer provided on the surface of the film, and the conductive layer has fine irregularities based on the fine irregularities on the surface of the film. Provided is a conductive light-shielding film characterized by being formed on an uneven surface.

The light-shielding film used in the present invention is made by blending a black pigment such as carbon black as a light-shielding material with a synthetic resin such as polyester, polycarbonate, polyimide, or polyethylene, and molding this into a film by any molding method. That is.

Considering the intended use, the thickness of the film is approximately 25 to 250 mμ.

In the present invention, a large number of fine irregularities are formed on the surface of the film itself (hereinafter also simply referred to as roughening).

There are two methods for roughening the surface: chemical etching and sandblasting. The sandblasting method produces fewer pinholes than the chemical etching method, and a uniformly rough surface can be obtained, making it possible to obtain a film suitable for the required light-shielding film for optical equipment. This surface roughening is performed until the reflectance decreases.6According to the research of the present inventors, this surface roughening, in relation to the conductive layer coated thereon, has a centerline average surface roughness of 0.5-1
．． 0μm, preferably about 0.8μ door and reflectance 3-5%
It has been found advantageous to have an amount of 4%, preferably about 4%.

Roughening of the film can be done on both sides or on one side, but is usually done on both sides.

In the present invention, a conductive agent is directly applied to the surface of the roughened film without damaging the rough surface to form a rough conductive layer. In this case, a conductive substance such as tin oxide (SnOz) or carbon black is used as the conductive agent. The particle size of this conductive agent has an average particle size of 1
It is less than μm, preferably less than 0.5 μm. The method for applying the conductive agent is to mix the conductive agent with a polymeric binder, and apply the mixture using a wire bar or the like under conditions that can form a coating film of 0.5 to 1.5 μm on a smooth surface. ,
Coating is applied to the rough surface of the roughened film. In this case, the surface resistance and surface roughness of the conductive layer formed on the surface can be adjusted by the coating film forming conditions and the proportion of the conductive agent in the mixture that is the coating raw material. The proportion of the conductive agent in the mixture is usually 5 to 60% by weight, preferably 10%.
~40%.

In the above manner, a light-shielding film having a conductive rough surface is obtained. The surface roughness of this film on the conductive layer is 0.5 to 1 in center line average surface roughness, OILm, preferably about 0.8 μm, and its reflectance (JIS
Z 8741) is 4-13%, preferably 5-10%
Furthermore, its surface specific resistance (JIS K 6911
) is 107Ω or less, preferably 10”Ω or less.

In particular, in the light-shielding film of the present invention, it is important to maintain the surface roughness of the conductive layer within the above range by adjusting the surface roughness of the plastic film surface and the thickness or coating amount of the conductive layer. It is. If the surface roughness of the conductive layer is too small, the antireflection effect on the surface will be significantly impaired. On the other hand, if the thickness of the conductive layer is made too thin in an attempt to increase the surface roughness of the conductive layer, the continuity of the conductive layer will be impaired, the surface resistivity will increase, and the effect of preventing static electricity generation will be significantly impaired. Therefore, it is important to adjust the surface roughness of the conductive layer in the present invention to the above-described surface roughness and to adjust the surface resistivity to the above-described range.

〔effect〕

The conductive light-shielding film of the present invention is characterized in that the conductive layer itself is formed on a finely uneven surface.

That is, in the conductive light-shielding film of the present invention, the conductive layer prevents the generation of static electricity, and also exhibits the effect of preventing specular reflection of light on the surface due to the action of the large number of fine irregularities. Moreover, the conductive light-shielding film of the present invention is
Its manufacturing process is simpler than conventional ones, and it can be manufactured at low cost.

The conductive light-shielding film of the present invention is suitable as a light-shielding film for optical equipment such as shutters and apertures, but it can of course be used as a general light-shielding film.

〔Example〕

Next, the present invention will be explained in more detail with reference to Examples.

Example A black light-shielding polyester film (thickness = 125μ+m) mixed with carbon black was roughened by sandblasting to give a rough surface with a center line average surface roughness of 0.8μ and a reflectance of 4% on both sides. ” got a film.

Next, a polyester conductive paint containing tin oxide (average particle size: 0.5 μm) in an amount of % by weight was applied to both rough surfaces of this film and dried to obtain a light-shielding film.

The surface roughness, reflectance, and surface resistance of the thus obtained roughened conductive film having light-shielding properties were measured, and the results are shown in Table 1.

Note that the surface roughness means the center line average surface roughness, the reflectance was measured according to JIS Z 8741, and the surface resistance was measured according to JIS K 6911.

In addition, the code|symbol of each sample shown in Table-1 means the following.

Sample A: Roughened light-shielding film before conductive treatment.

Sample B: Roughened light-shielding film subjected to conductivity treatment. Conductive layer thickness: approximately 1.0 μm.

Sample C: Roughened light-shielding film subjected to conductivity treatment. Conductive layer thickness: approx. 2μ door.

Sample D: Roughened light-shielding film subjected to conductivity treatment. Conductive layer thickness: approximately 0.5 μm.

Table-1

Claims (2)

[Claims] (1) Consisting of a black light-shielding plastic film having a large number of fine irregularities on its surface and a conductive layer provided on the surface of the film, the conductive layer is formed on a finely rough surface based on the fine irregularities on the surface of the film. A roughened light-shielding film having conductivity. (2) The conductive film has a center line average surface roughness of 0.5
~1.0 μm, a reflectance of 4 to 10%, and a surface resistance of 10^7Ω or less.