JP4212050B2 - Light shielding film for automotive lamp - Google Patents

Description

  The present invention relates to a light-shielding film provided on a lamp used for vehicle illumination, particularly for automobile illumination.

Conventionally, a light-shielding film provided in a lamp used for automobile lighting has been a film obtained by applying and drying a sol of metal oxide particles such as manganese, iron, titanium, and aluminum.
However, such a light-shielding film has irregularities on the surface of the light-shielding film, becomes dull in color, and has a poor appearance.When the light-shielding film is seen through the headlight exterior glass after being mounted on the headlight, the light-shielding film has a remarkable appearance. It was a loss.
Moreover, since light is absorbed, there is a problem that the brightness is insufficient.

  In the present invention, a light-shielding film having a beautiful metallic luster appearance and increasing brightness is provided in place of the light-absorbing and poor-light-shielding film provided in the conventional lamp. With the goal.

As a result of earnest research to solve the above problems, one or more metals selected from nickel, cobalt, gold, silver, copper, palladium, platinum, tin, rhodium, indium, ruthenium, and chromium, or compounds thereof are used. The appearance obtained by applying a glaze containing the main pigment to the outer head of the lamp glass tube is a light-shielding film having a metallic luster, especially the light-shielding obtained by baking at 150-800 ° C after applying the glaze It was confirmed that the membrane can achieve this purpose. Preferably, glaze is applied to improve the adhesion to the lamp surface at a temperature of 150 to 300 ° C., and only the application part of the lamp may be baked with a burner or the like, or the lamp is turned on and baked with the heat. Also good.

It was confirmed that the colored lamp for lamps of the present invention can be easily produced and exhibits a beautiful metallic luster, and also has an enhanced brightness as compared with a conventional light-shielding film. Moreover, even when used for a long time, it was confirmed that there was no peeling of the film and no reduction in metallic luster.

Of metals selected from nickel, cobalt, gold, silver, copper, palladium, platinum, tin, rhodium, indium, ruthenium, and chrome, or their compounds, the beauty when mounted is similar to that of reflectors. This is preferable because it exhibits a metallic luster.
In the present invention, electroless plating is preferable for providing a plating layer. In particular, providing a light shielding film on the head of the lamp can be easily obtained by protecting the side surface of the lamp with a masking tape and immersing it in an electroless plating solution. In order to achieve a sufficient light shielding effect, the immersion time in the plating solution may be increased.
As a method of applying a colloid of metal or metal compound, there are a dip coating method (dipping coating method), a coating method using a brush or a roller, and a spray coating method using an air gun or an aerosol. The dip coating method (dipping coating method) is preferably used. It is done. In this case, an inorganic binder mainly composed of silica, titania, zirconia or the like may be mixed with a metal or a metal compound colloid, and after the metal or metal compound colloid is applied, the inorganic binder is applied to the film. It may be applied on top.

As the method for applying the glaze, there are similarly the dip coating method (dipping coating method), the painting by brush or roller, the spray coating method by air gun or aerosol, and the dip coating method (dipping coating method) is preferably used. In this case, an inorganic binder mainly composed of silica, titania, zirconia or the like may be mixed with the glaze, and the inorganic binder may be coated on the film after the glaze is applied.
When the glaze is used, it may be baked at a high temperature after application, or after applying the glaze, an inorganic binder may be applied on the film. Preferably, glaze is applied to improve the adhesion to the lamp surface at a temperature of 150 to 300 ° C., and only the application part of the lamp may be baked with a burner or the like, or the lamp is turned on and baked with the heat. Also good.
In addition, when a metal or metal compound colloid is applied or when a glaze is applied, a leveling agent can be used in combination to obtain a beautiful surface state. Although various leveling agents can be used as the leveling agent, resin-modified polysiloxane is preferably used. More preferably, polyether-modified dimethylpolysiloxane is used.
In the present invention, a light-shielding film having metallic luster can be provided on the surface of the lamp colored in blue or the like. In this case, the light emitted from the filament is reflected by the inner surface of the light-shielding film (the surface that is in direct contact with the light bulb), and the reflected light is emitted outside through the glass. Also have.

The lamp used in the present invention can be easily mounted as a lamp used in a headlight, a side lamp or the like of an automobile. Examples of such an automobile lamp include a halogen lamp or a xenon lamp. As a typical example of the lamp, a halogen lamp is shown in FIG.
The lamp is composed of a glass tube 2 containing a light source 1 and a base, and has a light shielding film 3. Glass tubes are usually made of pyrex glass, hard glass or quartz glass that can withstand high temperatures.
The lamp used in the present invention has a light-shielding film 3 on the surface of the glass tube 2 on the surface thereof by plating, metal colloid coating, or glaze coating baking.
Although not shown, the plating film used in the present invention can be used similarly as a light shielding film of a xenon lamp.

Typical electroless plating solutions used in the present invention are electroless nickel, electroless copper, electroless cobalt, electroless gold, electroless silver, electroless platinum, electroless palladium, electroless tin, electroless Examples include rhodium, electroless indium, and electroless ruthenium.
An example of a typical basic composition of electroless nickel is given.
(1)
Nickel sulfate 30g / L
Sodium phosphinate 10g / L
Sodium citrate 10g / L
PH 4-6 Plating temperature 90 ° C
(2)
Nickel chloride 0.02 mol / L
Sodium tartrate 0.02 mol / L
Hydrazine 1.00 mol / L
PH 9.5 to 10.5 Plating temperature 95 ° C

An example of a typical basic composition of electroless cobalt is given.
Cobalt sulfate 0.05 mol / L
Sodium phosphinate 0.20mol / L
Sodium tartrate 0.50 mol / L

If the plating film becomes too thin, light is transmitted at the time of lighting, so that a film thickness of 0.5 μm or more is required, and it is preferably 1 μm to 5 μm. If the plating film has a thickness of 1 μm, a sufficient light shielding effect can be obtained. Moreover, it is difficult to become 5 μm or more under normal plating conditions, a large amount of plating solution is required, the plating time becomes long, and the economy is inferior.

The metal colloid used in the present invention is a well-known material in which metal fine particles having a particle diameter of about 1 nm to 50 nm are dispersed in a solvent. Recently, metal nano pastes are also commercially available, but in the present invention, nano pastes of gold, silver, copper, etc. can be used as well. In order to obtain a better metallic luster, the smaller the particle diameter, the better. The metal colloid is usually a simple metal, but may be a metal compound such as a metal oxide. Examples of metal colloids include gold, silver, copper, platinum, nickel, cobalt, palladium, tin, rhodium, indium, ruthenium, and chromium colloids. The above can be used in combination. In this case, a sol comprising a matrix selected from a silica precursor, a silica-based composite oxide precursor, a zirconia precursor, an aluminum precursor, a titania precursor, and a boron precursor and a solvent may be mixed with a metal colloid and applied. Alternatively, after the metal colloid is applied, the sol solution described above may be applied thereon and baked and dried.
If the film coated with metal colloid and baked becomes too thin, light is transmitted at the time of lighting, so a film thickness of 0.5 μm or more is required, and it is preferably 1 μm to 10 μm. If it is 10 μm or more, cracking or peeling occurs during lighting.

Examples of the glaze used in the present invention include platinum solution, red gold, pearl raster, chrome raster and the like, and one or two or more can be used in combination.
The platinum liquid is composed of platinum resin acid, palladium resin acid salt, gold sulfide balsam, Rh, Bi, resin acid salt, rosin, natural solvent, and the like. Red gold is composed of gold sulfide balsam, Rh, Bi resinate, rosin, natural solvents, and the like. The pearl raster is composed of Ti resin acid salt, rosin, natural solvent and the like. In particular, platinum has a sense of unity with the reflector and is beautiful.
As the transparent cylindrical body used in the lamp of the present invention, quartz glass, hard glass, or Pyrex is used.

In the present invention, a light-shielding film having a metallic luster can be provided on the surface of a lamp colored in blue or the like, but a light-shielding film can be provided by the same method as that for an uncolored lamp.
In the present invention, a protective layer can be provided in the outermost layer for the purpose of preventing metal oxidation and scratching.
As the protective layer, a transparent inorganic material that can withstand high temperatures can be used. An alkoxysilicate hydrolyzate, tetraethoxysilicate, or the like is preferably used. It has been found that baking of the protective layer is preferable if it is at a high temperature, but it may be simply dried at 120 ° C. or higher.

The embodiments of the invention are as follows.
(1) A lamp for an automobile having a glass tube containing a light source and a base, a metal selected from nickel, cobalt, gold, silver, copper, palladium, platinum, tin, rhodium, indium, ruthenium, and chromium, or a compound thereof A car head characterized by having a light-shielding film having a metallic luster in appearance, wherein a glaze containing rosin containing one or more colloids as a main pigment is applied to the outer head of a glass tube and baked light for halogen lamps.
(2) A halogen lamp for automobile headlights , characterized in that the baking temperature is 150 to 800 ° C., and the appearance described in (1) above has a light-shielding film having a metallic luster.
(3) A light-shielding film having a metallic luster as described in (1) or (2) above, wherein a colored glass tube is used, and a light-shielding film is provided on a head surface outside the glass tube. A halogen lamp for automobile headlights, comprising:
(4) The light-shielding film is a light-shielding film obtained by applying and baking a platinum glaze, and the appearance described in any one of (1) to (3) above has a light-shielding film having a metallic luster. Halogen lamp for automobile headlights .

(Reference Example 1)
Production of Halogen Lamp with Light-shielding Film by Plating A halogen lamp for an automobile headlight shown in FIG. 1 was prepared.
The parts other than the lamp head were protected with masking tape, and the head surface was polished with a buff with abrasive grains. After washing with water and drying, the glass tube head was immersed in a treatment solution containing 30 g / L of stannous chloride at 25 ° C. and 15 ml / L of concentrated hydrochloric acid for 2 minutes to sensitize the glass surface. Subsequently, the glass surface was activated by immersing the glass tube surface in a treatment solution containing palladium chloride 0.3 g / L at 25 ° C. and concentrated hydrochloric acid 3 ml / L for 2 minutes. After washing the surface of the glass tube with water, the electroless nickel solution of PH4 containing 30 g / L of nickel sulfate, 10 g / L of sodium phosphinate, and 10 g / L of sodium citrate is used. A plating film was attached, washed with water and dried. As a result, a nickel layer having nickel gloss was formed. Although this lamp was turned on, it was confirmed that there was no light leakage from the head and the light was blocked. In addition, when mounted on the headlamp of an automobile, there was a sense of unity with the reflector.

(Reference Example 2)
Production of a halogen lamp provided with a light-shielding film made of metal colloid A halogen lamp for an automobile headlight shown in FIG. 1 was prepared.
The lamp was degreased with isopropyl alcohol and dried. The glass tube head was immersed in a silver colloid (AgE-001, Ag concentration 17%, manufactured by Nippon Paint Co., Ltd.) having a particle diameter of about 10 nm and dried at 105 ° C. for 10 minutes to obtain a 1 μm silver layer. Next, a sol composed of 20 wt% of zirconia-modified organosiloxane condensate as a silica-zirconia precursor and 80 wt% of 2-propanol, methanol, propylene glycol monomethyl ether mixed solvent is applied on the silver layer, and the solvent is evaporated at room temperature. Then, baking was performed at a temperature of 300 ° C. for 1 hour to form a silver layer having silver luster. Although this lamp was turned on, it was confirmed that there was no light leakage from the head and the light was blocked. In addition, when mounted on the headlamp of an automobile, there was a sense of unity with the reflector.

Example 1
Production of halogen lamp provided with light-shielding film by glaze A halogen lamp for an automobile headlight shown in FIG. 1 was prepared.
The lamp was degreased with isopropyl alcohol and dried. The glass tube head is immersed in a glaze solution composed of about 50 wt% organometallic compounds such as platinum resinate and bismuth resinate, about 20 wt% rosin, and about 30 wt% natural solvent, and baked at 550 ° C for 2 hours. Then, a glaze layer having a beautiful platinum luster having a film thickness of about 1 μm was formed. Although this lamp was turned on, it was confirmed that there was no light leakage from the head and the light was blocked. In addition, when mounted on the headlamp of an automobile, there was a sense of unity with the reflector.
The light-shielding films 3 according to Example 1 and Reference Examples 1 and 2 both shine in a metallic color, were attached to a headlight, and looked shining in a metallic color even when viewed from the outside. .

Conventional example On the other hand, a conventional light-shielding film-forming composition comprising manganese dioxide, metallic aluminum and an inorganic binder was applied, dried, and baked. When attached to the headlight, even when viewed from the outside, it looked black-gray and looked bad.

(Example 2)
Production of blue halogen lamp provided with light-shielding film by glaze A blue halogen lamp for automobile headlights shown in FIG. 1 was prepared.
In the same manner as in Example 3, a 1 μm platinum glaze film was attached to the glass tube head and baked at 550 ° C. for 2 hours. As a result, a platinum layer having platinum gloss was formed. Although this lamp was turned on, it was confirmed that there was no light leakage from the head and the light was blocked. In addition, when mounted on the headlamp of an automobile, there was a sense of unity with the reflector. In addition, it was compared with a conventional blue halogen lamp that was mounted on a headlamp, turned on at night, and provided with a light-shielding film made of manganese dioxide, metal aluminum and an inorganic binder. As a result, the lamp with a nickel glossy light-shielding film felt a bluish white color more strongly than the conventional lamp with a light-shielding film because the light emitted from the filament is reflected by the nickel surface.

(Example 3)
Production of blue halogen lamp provided with light-shielding film by glaze A blue halogen lamp for automobile headlights shown in FIG. 1 was prepared.
The lamp was degreased with isopropyl alcohol and dried. The glass tube head is immersed in a glaze solution composed of about 50 wt% organometallic compounds such as chromium resinate and bismuth resinate, about 20 wt% rosin, and about 30 wt% natural solvent, and heated at 200 ° C for 30 minutes Further, the lamp was fired for 2 hours to form a glaze layer having a beautiful metallic chrome luster having a film thickness of about 1 μm. Although this lamp was turned on, it was confirmed that there was no light leakage from the head and the light was blocked. When attached to a car headlamp, there was a sense of unity with the reflector. In addition, it was compared with a conventional blue halogen lamp that was mounted on a headlamp, turned on at night, and provided with a light-shielding film made of manganese dioxide, metal aluminum and an inorganic binder. As a result, the lamp with the chrome glossy light-shielding film felt the bluish white more strongly than the lamp with the conventional light-shielding film because the light emitted from the filament is reflected by the chrome surface.
The light-shielding films 3 according to Examples 1 to 3 and Reference Examples 1 and 2 both shine in a metallic color, are attached to a headlight, and appear to shine in a metallic color even when viewed from the outside. there were.

  The automotive lamp according to the present invention can be easily manufactured and has a beautiful metallic luster with a high-class feeling, and also has a brighter amplification than a conventional light-shielding film, so the automotive lamp industry is becoming more sophisticated and diverse. In the above, the utility value is high.

Halogen lamp Halogen lamp with light-shielding film

Explanation of symbols

1 Light source 2 Glass tube of lamp 3 Light-shielding film

Claims (4)

A lamp for an automobile having a glass tube and a base containing a light source, made of a metal selected from nickel, cobalt, gold, silver, copper, palladium, platinum, tin, rhodium, indium, ruthenium, chromium, or a colloid of a compound thereof. Halogen for automobile headlights , characterized by having a light-shielding film having a metallic luster in appearance, which is obtained by applying a glaze containing rosin containing one or more kinds as a main pigment to the outer head of a glass tube and baking it. lamp. 2. A halogen lamp for an automobile headlight , characterized in that the baking temperature is 150 to 800 [deg.] C., and the appearance has a light-shielding film having a metallic luster. A colored glass tube is used, and a light-shielding film is provided on the outer head surface of the glass tube, and the appearance according to claim 1 or 2 has a light-shielding film having a metallic luster. Halogen lamp for automobile headlights . The halogen lamp for automobile headlights characterized in that the light-shielding film is a light-shielding film formed by applying a platinum glaze and baking it.

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