KR19980020697A - Manufacturing method of reflector for fluorescent lamp - Google Patents

Abstract

In the fluorescent plate reflector, in bonding and laminating the mirror surface of the polyester film and the adhesive layer, the adhesive film coated with the adhesive on the release paper is adhesively laminated with a roller, the adhesive layer on the surface of the release paper is adhered to the mirror surface, and the release paper is removed. A reflector for fluorescent lamps comprising an acrylic protective layer, a polyester film layer, a silver or aluminum deposition layer, an adhesive layer, and a metal support plate laminated thereon from above by adhering the adhesive surface to a metal support plate.

Description

Manufacturing method of reflector for fluorescent lamp

The present invention relates to a method for manufacturing a reflector for fluorescent lamps, and more particularly, to a highly efficient reflector for high efficiency fluorescent lamps obtained by press-bonding a polyester film obtained by depositing a metal such as aluminum or silver on a transparent polyester film to a thin steel plate or an aluminum plate. It relates to a method of manufacturing.

If you look at the reflection plate for the reflection of the fluorescent lamp used in the past by type, the mirror reflection plate with the high reflection efficiency was constructed by cutting the mirror surface and assembling it into the mirror surface according to the bent plane, but first, the mirror material should be formed on the glass plate. Since it is expensive and not folded, it needs to be assembled through cutting process, so labor cost increases and space is generated in the bending part where the plane and plane contact, so moisture or corrosive gas easily penetrates between the glass surface and mirror surface, and the reflection efficiency drops in a short time. It is not usable and there is a drawback of heavy weight of reflector.

In addition, the most commonly used white paint coated reflector has a difference in reflectance according to the white pigment, but the reflectance cannot be more than 75-85%, and is formed by pigment particles, particles, and curved surfaces of the paint. Due to numerous angles, diffuse reflection of light occurs, and the efficiency of light is greatly reduced, and the white paint coating surface is easily contaminated, and the reflection efficiency of light is further reduced.

In order to further improve the reflectance, aluminum gloss reflector which has recently anoly electrolyzed aluminum plate has been developed and widely used in developed countries. However, reflectance is less than 90% depending on the product. As manufacturing costs are high, it is economically disadvantageous, and aluminum gloss reflection is directly exposed to the atmosphere, so it is easily corroded to the gas such as moisture SOx and NOx, and the surface becomes rough, and the reflectance gradually decreases, so that continuous efficiency cannot be expected. .

Recently, it is a material for fluorescent reflector which has improved single layer reflectivity. Highly transparent and silver film or aluminum is formed on the polyester film with a thickness of 20-50μ by simple vacuum deposition or sputtering method. Alternatively, in a polyester film attached to an aluminum support plate or deposited with silver or aluminum, the mirror layer is acrylic-spray coated, and an adhesive is coated on the polyester surface to adhere the adhesive coating surface to a support plate such as an iron plate or aluminum. It can be called a reflector material for.

In the above method, the mirror surface is physically attached to the polyester film, so the shear force or the impact strength is extremely weak, and thus the mirror surface is likely to be damaged since the physical force is applied to the mirror surface. For this reason, it is almost impossible to apply the adhesive on the mirror surface by the same method as the knife coating, and even if the roller coating is applied to the polyester film, the mirror surface damage may occur. It is easy to occur and there is a problem that the adhesive surface is uneven.

Furthermore, when coated with acrylic as a mirror protective film, it is applied by roller coating or spray coating, so that mirror damage may occur due to roller pressurization during roller coating, and pinholes may occur during spray coating. In particular, the surface strength is not strong like the polyester film protection film, and the acrylic film is easily broken and the mirror surface is damaged or corroded, so that the reflection life is not long. This protective film layer, followed by an acrylic coating layer, a silver or aluminum deposition layer, a polyester film layer, and an adhesive layer, is a reflecting plate for fluorescent lamps.

The present invention is different from the conventional structure as described above is a structure in which the deposition layer is a lower layer of the polyester film, which does not damage the mirror surface in the process of depositing silver or aluminum on the polyester film and applying the adhesive on the mirror surface, It can be said to be a method of manufacturing a reflector plate for fluorescent lamps that can prevent the penetration of moisture or corrosive gas by improving the airtightness by improving the adhesion between the mirror surface and the adhesive and good adhesion. First of all, the deposition methods include enumeration of argon gas in a vacuum chamber, positive ionization of alcohol at a constant voltage and gas pressure, and positive distillation with a negative voltage loaded on a polyester film moving along the support. Electromagnetic action of argon medium causes the heating steam of silver to There are known methods for obtaining a polyester silver deposition film obtained by vapor deposition, a simple vacuum deposition method, and forming a mirror surface by a sputtering method.

Obtain a polyester film with mirror surface by the above method, and coat the adhesive that has been sufficiently degassed by vacuum degassing method on the release paper separately, and then laminating by laminating by contacting the coated adhesive surface with the mirror surface to remove the release paper, and then removing the adhesive surface. It is a manufacturing method of the reflecting plate for fluorescent lamps adhere | attached on a support plate.

By adopting such a method, by applying the adhesive directly to the mirror surface as in the conventional method, no mirror damage occurs, and the adhesive surface is smooth, giving smoothness to the mirror surface to obtain a high reflectance, The roller is used for pressure-bonding the release film with the silver deposition film and the adhesive, which is excellent in adhesion and adhesion between the mirror surface and the adhesive, and thus prevents the penetration of moisture or corrosive gas to the mirror surface, thereby extending the life of the reflector semi-permanently. have.

In particular, when the adhesive is directly coated on the mirror surface in the conventional method, mirror failure occurs, but when laminating the mirror surface attached to the polyester and the adhesive layer attached to the release paper with a roller, both sides have a polyester film and a release paper so that the roller is bent on the roller. Since the pressure can be greatly reduced, no mirror damage occurs, and the adhesive phenomenon does not occur, so smoothness is improved.

The reflecting plate obtained by the above method may be referred to as a reflecting plate composed of a PE film or an acrylic protective film, a polyester film, a silver or aluminum deposition layer, an adhesive layer, and a metal support plate from the upper layer. The intensity of illuminance of about 3.21ux / m is extremely excellent and there is almost no deterioration of the reflector even after 10 years of use, so the reflectivity can be maintained semi-permanently.There is almost no diffused reflection, which can protect eyesight and improve work efficiency. It has the advantage of excellent color distortion.

In order to further embody the effect of the reflecting plate produced by the reflecting plate obtained by the method according to the present invention, performance was compared with the reflecting plate by the conventional reflecting plate, for example.

[Example (1)]

A protective film is formed by laminating 0.05 m / m PE film on one side of a 20 micron polyester film, vacuum depositing 0.5 μ thick silver on the other side, and then using a vacuum degassing method on a release paper, by vacuum degassing. 0.1m / m thick coating to form a film, and then laminated to contact the silver deposition surface of the polyester film and the adhesive layer surface of the surface of the release paper to obtain a reflective film, remove the release paper and adhere to the aluminum metal support plate to the reflective plate Got it.

On the other hand, the conventional reflective plate which coated the adhesive surface with the roller on the mirror surface of the polyester film vacuum-deposited on the same conditions, and adhered this adhesive surface to the aluminum support plate was obtained.

As a result of performance comparison between the reflector made of the reflector plate obtained above and the reflector made of the reflector plate of white paint, the following experimental values were obtained.

Performance comparison table of reflector

Example (2)

The energy saving effect was measured by replacing the fluorescent lamp 150 of the white paint reflector installed in the Ajou University central library with the reflector of the present invention obtained in Example (1).

Energy saving effect measurement table

Claims (1)

A mirror surface of a silver or aluminum deposition layer is formed on one side of the polyester film, and a separate vacuum-defoamed adhesive is coated on a release paper to form a smooth film of the adhesive, and then the film layer of the adhesive is bonded to the mirror surface of the polyester film. Forming an acrylic protective film on the polyester film surface layer, and then removing the release paper, the adhesive surface shown in the adhesive bonding to the metal support plate, characterized in that the manufacturing method of the reflector for fluorescent lamps.