1. Field of the Invention
The present invention relates to an apparatus for forming a thin film and a method for forming a thin film by coating a coating composition on a surface of a substrate.
2. Description of the Related Art
A coating method using a liquid jet head has been expanded in rang of application because of its property of precisely coating an accurate amount of small droplets on a predetermined position, and has been used for coating various solutions not only on paper but also on films or metals as organic materials.
As a method for forming a coating film on organic materials, such as a coating method is disclosed that catalyst or adsorption materials are coated on an electrolyte film used in a contaminant disposing apparatus for removing contaminants from gas (see, for example, Japanese translation of PCT international application 2001-504755).
However, in the case of coating catalyst materials by liquid jet technology, it is necessary to lower the viscosityof the solution compared with the case of coating by screen printing. Thus, in the case of coating catalyst materials on an electrolyte film, the electrolyte film swells due to penetration of the solvent in the film to cause such a phenomenon as wrinkling. Therefore, there has been a defect of difficulty in uniform coating.
In the case of coating films on both surfaces of a substrate, dimensional change of an electrolyte film occurs due to swelling and drying of the film upon coating on one surface thereof. Therefore, there has been a defect of difficulty in positioning.
According to an aspect of the invention, there is provided with an apparatus for forming a thin film by coating a coating composition on a film substrate, the apparatus including: an ink jet mechanism having a liquid jet head for jetting the coating composition on the substrate; a moving mechanism capable of moving a position of the liquid jet head relatively to the film substrate; a substrate fixing frame capable of fixing an edge portion of the film substrate; and a substrate holder having a mechanism for fixing and positioning the substrate fixing frame having the film substrate attached, and a mechanism for sucking the film substrate from a reverse side of a surface to which the coating composition is coated.
According to another aspect of the invention, there is provided with a method for forming a thin film, the method including: coating a coating composition on a first surface of the film substrate which is attached to the substrate fixing frame using the apparatus according to the above-aspect; subsequently inverting the film substrate while being attached to the substrate fixing frame; and coating a coating composition on a reverse side of the first surface.
According to the above-aspects, it is possible to inhibit occurrence of wrinkling and the like due to swelling of a film substrate to form a uniform coating film.
According to another aspect of the invention, there is provided with a method of forming a thin film by coating a coating composition on a film substrate, the method including: coating a coating composition on a first surface of the film substrate which is attached to the substrate fixing frame using the apparatus according to the above-aspect; subsequently inverting the film substrate while being attached to the substrate fixing frame; and coating a coating composition on a reverse side of the first surface by using the substrate fixing frame having a mechanism capable of positioning relating to the coating pattern of the first surface.
According to the above-aspects, it is possible to form a uniform coating film on both surfaces of a film substrate precisely in positioning.
According to the above-aspects, the substrate fixing frame holding an edge of a thin substrate is used, therefore, it is possible to prevent occurrence of wrinkling and pattern deformation of the substrate due to swelling on coating.
In addition, since the substrate fixing frame having a positioning mechanism is used, the identical patterns can be readily formed on the same positions on both surfaces of the film substrate. Therefore, it is possible to improve the capability of functional membranes such as catalyst coating on an electrolyte film.
Further, in the field of ornaments and the like, it is possible to print pictures or characters on both surfaces of a transparent film easily and efficiently.
A coating method of a catalyst solution on an electrolyte film used in a catalyst apparatus and the like will be described in the following as an embodiment of the invention.
The diaphragm 103, the restrictor plate 111, the pressurizing chamber plate 112 and the supporting plate 114 are made, for example, of stainless steel, and the orifice plate 113 is made of nickel or stainless steel. The whole of the surface of these plates is covered with a polyimide film 121, respectively. The piezoelectric element fixing plate 106 is made of an insulator such as ceramics or polyimide. The catalyst solution flowing from upstream to downstream passes through the filter 109 on the way of the common ink supplying path 108, and flows through the restrictor 107, the pressurizing chamber 102, and the orifice 101 in this order. The piezoelectric element 104 expands or contracts when an electric potential difference is applied between the signal input terminals 105a and 105b, and returns to its original shape before expanding or contracting when the electric potential difference between the signal input terminals 105a and 105b is removed. Due to the deformation of the piezoelectric element 104, pressure is applied to the catalyst solution in the pressurizing chamber 102, and the catalyst solution is jetted from the orifice 101.
The ink jet head part 3 is attached to an X guide 4 and a Z guide 5 capable of moving in the X and Z directions, respectively, shown in
The substrate holder 2 preferably has a heating mechanism attached thereto to prevent swelling. The apparatus mentioned herein has a tape heater attached to the substrate holder 2, and has a structure capable of heating the substrate to 100° C. at maximum.
A step for coating a catalyst solution on an electrolyte film using the apparatus for forming a thin film will be then described. A perfluorosulfonic acid film is generally used as the electrolyte film in many cases. In this embodiment, a film having a thickness of 50 μm of Nafion (trade name: produced by DuPont) is used. A film of perfluorosulfonic acid series has a large ion exchanging capacity, but tends to swell in water or alcohol which is a main solvent of a catalyst solution. Especially, in the case of coating a catalyst solution by an ink jet method, it is necessary to lower its viscosity to 1 to 30 mPa·s, and the phenomenon of swelling is remarkably appeared.
In the apparatus mentioned herein, to prevent the phenomenon, a substrate fixing frame 8 which is produced according to the size of the film substrate 1 shown in
A catalyst solution is charged to the ink jet head part 3 and coated on the first surface on the film substrate with an arbitrary pattern. Although the coating amount of the catalyst solution varies depending on its property, coating is carried out at a density of 30 mg/cm2 in this embodiment. The time and frequency for coating the necessary amount of the catalyst vary depending on the number of nozzles of the ink jet head, the weight of droplets per one nozzle, the jetting frequency, and the moving velocity of the substrate holder 2. In this embodiment, the aforementioned catalyst density can be obtained in the jetting condition in which the number of nozzles is 192, the jetting frequency is 4 kHz and the weight of droplets is 45 ng, and in the coating condition of the moving velocity of the substrate of 200 mm/S.
An example of a coating method of a catalyst solution for forming a uniform solid film using an ink jet head is shown in
After coating the catalyst on the first surface in a predetermined weight, the film substrate 1 is inverted while being attached to the substrate fixing frame 8, and coating is carried out on the second surface opposite to the first surface. Thus, it is possible to prevent occurrence of wrinkling and the like due to swelling, even in the state that the catalyst solution is coated on one surface. In addition, in order to ensure the catalyst capability, it is necessary to form the pattern on the second surface at the same position on the reverse side as the pattern formed on the first surface.
As shown in
Another embodiment of the substrate fixing frame is described in
Since the catalyst coated on the first surface of the film substrate is always on the same position by using the substrate holder and the substrate fixing frame, the catalyst can be coated on the second surface in the same pattern on the same position as on the first surface with good reproducibility.
Although coating of a catalyst solution to an electrolyte film which tends to swell has been described in this embodiment, this embodiment can be applied to coating of various solutions to paper, glass and metals in addition to the film.
In the above-embodiments, the catalyst solution is coated. However, the ink can be coated in the above-embodiment instead of the catalyst solution.
Number | Date | Country | Kind |
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P2004-288939 | Sep 2004 | JP | national |