JPH02142055A - Incandescent lamp - Google Patents

Abstract

PURPOSE:To prevent peeling of a dischroic filter film and a diffusing film at the time of lighting by forming the diffusing film long exceeding the dichroic filter film. CONSTITUTION:For an incandenscent lamp having a dichroic filter film consisting of a high refraction factor layer and a low refraction factor layer laminated by dipping on the outer surface of a tubular seal body 10, and a diffusing film 30 consisting of fine powders of ceramic material scattered in silicon oxide provided on the dichroic filter film, the diffusing film 30 is applied tightly on the outer surface of the tubular seal body 10 on one end side of the tubular seal body 10 exceeding the dichroic filter film 20. As a result, irregularities at end parts of the dichroic filter film 20 are covered with the diffusing film 30. Peeling of these films can thus be prevented when the lamp is lighted.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an incandescent light bulb in which a dike ink filter film is laminated by dipping on the outer surface of a tubular enclosure, and a light scattering film is provided thereon. In particular, the present invention relates to an incandescent light bulb in which peeling of a dichroic filter film or a diffuser film is prevented.

[Conventional technology]

An example of an incandescent light bulb that has a dichroic filter on the outer surface of a tube-shaped envelope is one in which the infrared rays emitted from the filament are reflected by the dichroic filter film and returned to the filament. This type of incandescent light bulb has been applied to many incandescent light bulbs recently because the luminous efficiency of the filament is improved. The applicant has also sought to prevent glare from the filament,
We developed a light-diffusing film that can flatten the light distribution, and filed an application in Japanese Patent Application No. 151242/1983 entitled ``Method for manufacturing a light bulb.'' In this method, an incandescent light bulb equipped with a dichroic filter membrane is immersed in a solution of a silicon compound in which fine powder of a ceramic material is dispersed, and the dichroic filter membrane is formed using a dipping method. The invention relates to a method of manufacturing a light bulb that can provide excellent light scattering properties.

[Problem to be solved by the invention]

However, in the manufacturing method proposed in Japanese Patent Application No. 63-151242 mentioned above, the dichroic filter film and the diffuser film may peel off during use of the incandescent light bulb, and a detailed investigation and study of this phenomenon revealed that dichroic filter film and diffuser film may peel off due to dipping. When forming the filter film and diffuser film,
It has been found that due to minute vibrations of the deimping slope, the ends of these films are formed into an uneven shape as shown in FIG. 2, and this unevenness causes peeling.

The present invention has been made based on the above circumstances, and an object of the present invention is to provide an incandescent light bulb whose dichroic filter film and diffuser film do not peel off during use.

[Means to solve the problem]

In order to achieve the above-mentioned object, the present invention laminates a dichroic filter film consisting of a high refractive index layer and a low refractive index layer on the outer surface of a tubular enclosure by dipping, and then deposits a ceramic film on the dichroic filter film. In an incandescent light bulb provided with a diffuser film in which fine powder made of a material is dispersed in silicon oxide, the diffuser film extends longer than the dichroic filter film at one end of the tube-shaped enclosure, and It is characterized by being in direct contact with the outer surface.

[Effect]

When forming a dichroic ink filter film or diffuser film on the outer surface of a tubular seal by dipping, hold the sealing part (or one sealing part if sealing parts are formed at both ends). This is done by immersing it in dipping liquid and controlling the pulling speed, but the edge of the membrane on the side of the sealing part that is held at this time is formed into irregularities due to minute 1g deviations on the surface of the disobinder liquid. . However, in the incandescent light bulb of the present invention, the diffuser film formed on the dichroic filter film is extended beyond the dichroic filter film at its end so that it comes into direct contact with the envelope tube. Since the unevenness at the end of the lamp is covered with a light diffusing film, it is possible to prevent these films from peeling off during lighting use due to the unevenness.

〔Example〕

Hereinafter, details of the present invention will be explained based on the drawings.

FIG. 1 is an example of an incandescent light bulb according to the present invention, with 10
11 is a glass enclosure tube, 11 is a filament, 12 is a metal foil for airtight sealing, 13 is an external reed, 14 is a ring anchor, 20 is a dichroic ink filter film formed in multiple layers, and 30 is a light scattering film. The glass enclosure tube 10 is made of, for example, quartz glass, and has an inert gas and a halogen gas sealed therein.

The dichroic filter film 20 functions as a selectively transmitting film that transmits visible light and reflects infrared rays through light interference, and as shown enlarged in FIG. 2, it is a high refractive index layer made of titanium oxide. A and a low refractive index layer made of silicon dioxide are laminated. This dichroic ink filter film 20 is formed by coating by a dipping method, and the coating liquid for the high refractive index layer a is prepared using alcoholado titanate, ethanol, and ethyl acetate as main components. The coating solution for the low refractive index layer was prepared using silicone alcoholade, ethanol, and acetic acid as main components. The dichroic twill film is formed by using these coating methods and repeating the steps of dipping, pinging, drying, and firing layer by layer alternately. The water is immersed to a certain depth while being detected by a sensor. However, due to minute fluctuations in the liquid level, the ends of the dichroic filter membrane are often formed in an uneven shape as shown in FIG.

The light diffusion film 30 is made of fine particles made of a ceramic material dispersed in silicon dioxide, and is provided on the dichroic filter film 20 by a deimping method. As the ceramic material, fine particles of silicon dioxide, aluminum oxide, etc. can be used, and the particle size is preferably in the range of, for example, 0.1 to several microns. Fine particles made of the ceramic material are dispersed in a liquid containing Alcolade, ethanol, and acetic acid as main components, and the mixing ratio is 50 to 100 g per 500 ml of solution. Then, the incandescent light bulb with the dichroic filter film 20 formed thereon is dipped in this coating solution, dried, and fired to form the light diffusing film 30. At this time, the dichroic filter B! By immersing it deeply in the coating solution beyond 30 degrees, the diffused light becomes 1! ! 30, the dichroic filter film 20 is completely covered, and the tip 31 of the light diffusing film is completely covered.
is in direct contact with the envelope tube 10. Since this light-diffusing film 30 is mainly made of silicon dioxide, it has a similar expansion coefficient to that of the sealed tube 10 and will not peel off from the tip 31.

According to the above embodiment, the dichroic filter ll! has a multilayer structure on the outer surface of the glass envelope tube lO! 20,
On this dichroic filter film 20, diffused light ll3I
30, this light diffusing film 30 is used as a dichroic filter lI! Since J20 is completely covered and the tip 31 of the light diffusing film 30 is brought into direct contact with the sealed tube 10,
Even if the temperature of the envelope tube 10 rises when an incandescent light bulb is turned on, these films will not peel off from the envelope tube 10.

〔Effect of the invention〕

As explained above, according to the present invention, a dichroic filter film is provided on the outer surface of the envelope tube, and when forming a light scattering film on the dichroic filter film, it is extended beyond the dichroic ink filter film. The dichroic filter film is completely covered with this diffuser film, and the end of this diffuser film is in close contact with the envelope tube, so even if the temperature of the envelope tube becomes high during lighting, the dichroic filter film, the diffuser film, and the diffuser film will not work. It is possible to prevent the peeling of the incandescent lamp, and it is possible to produce an incandescent lamp whose optical characteristics do not change over a long period of time.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view of one embodiment of the light bulb of the present invention;
The drawings are the same (an enlarged view of the main parts. 10-Tube wall sealing body ii-Filament 12 Metal foil 13-External lead 14-Ring anchor 20-Dichroic filter film 30-Diffusing film a-High refractive index layer b- low refractive index layer

Claims (1)

[Claims] A dichroic filter film consisting of a high refractive index layer and a low refractive index layer is laminated on the outer surface of the tubular sealing body by dipping, and fine powder made of a ceramic material is oxidized on the dichroic filter film. In an incandescent light bulb provided with a diffuser film dispersed in silicon, the diffuser film extends longer than the dichroic filter film on one end side of the tube-shaped enclosure and is directly in close contact with the outer surface of the tube-type enclosure. An incandescent light bulb that is characterized by