JPS62264548A - Lens for shield beam type bulb - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a lens for use in a sealed beam light bulb.

[Technical background of the invention and its problems]

A generally used flood type sealed beam bulb is constructed so that a predetermined light distribution is obtained by diffusing light from a filament that hits the reflective surface of a nine-reflector using a lens. It is normal to have

This light bulb is particularly required to have visible light emitted from a reflective surface through a lens be diffused at a predetermined angle by the lens, and this has been a problem in the past.

However, the conventional lens has a lens (1) as shown in Figure 1.
) has a large number of protruding lens elements αυ on the inner surface except for the center.
... is formed. This lens element (11),
... has an almost circular shape when viewed from the front (top) or back (bottom) side, and the light incident on this element I, ... is uniformly diffused and scattered in a radial pattern, so there is no need to restrict its position relative to the reflecting surface. That's really good.

However, since the thickness of the lens (1) is slightly different between the center and other parts, some distortion occurs during lens manufacture (manufactured by press molding).

These distortions can be removed to some extent through post-processing, but it is difficult to remove them completely, so they may crack due to thermal shock during sealing with the reflector, reducing yield or causing damage to the bulb after it is completed. It is the cause. Therefore, it is preferable that the thickness of the entire lens (1) be as uniform as possible, but since it is necessary to provide lens elements 11), etc., it is important to avoid any difference in thickness. can't do it ℃
・.

On the other hand, as explained earlier, this lens (1) is press-molded, but in this case, the shape of the press mold may become complicated, or wrinkles or residual air may form on the lens (1). The problem arises that (1) remains. That is, if the lens (11) has a protruding shape, a large number of concave portions will be formed in the press mold, but it is difficult to form these concave portions accurately on a flat surface, or the lens element Uυ.

In order to obtain a predetermined light distribution angle with...
Since the height of ... has to be high, the mold is also formed accordingly, making it difficult to manufacture the mold.

Furthermore, when pressed, a small amount of air remains in the recesses of each bottle. This remains as foam on the top of each lens element αD, . . . of lens (1).

The problem is that light transmission is poor, and the transmittance in this part is reduced, resulting in a decrease in luminous flux, which is inconvenient.

[Purpose of the invention]

The present invention is for sealed beam type light bulbs that have good diffusion performance, which does not cause wrinkles or wrinkles on the lens, and has little interference with light transmission.Furthermore, it is resistant to thermal shock, and has improved formability by reducing the thickness of the lens. The purpose is to provide lenses.

[Summary of the invention]

The gist of the present invention is ``a lens for a sealed beam light bulb, characterized in that a smooth curved surface is formed on the outer surface by press molding, and a lens element consisting of a large number of approximately spherical concave portions is formed on the inner surface.'' It is something to do.

壬←Example 2 of implementation of the invention A lens formed from a J Ulanes element in one form,
- Light Source Body [Embodiment of the Invention] An embodiment of the present invention will be described with reference to FIGS. 2 and 3.

(1) is a press-molded glass diffuser (flood type) lens with a diameter of about 123 mm, and its outer surface is a smooth curved surface with little adhesion of ink, dust, or vitriol.

In addition, a window α2 is formed in the center of the inner surface, and a lens element (13) consisting of a substantially spherical concave portion is formed around this window α2.
, . . . are formed in large numbers. This lens (11) has a large number of lens elements αJ, . On the other hand, the lens elements (13), .
It is formed into a circular shape when viewed from the bottom (bottom side). Furthermore, a stepped portion α4 is formed in the sealing portion of the outer peripheral edge of the lens (11) to prevent the engagement between the lenses (11 and 11 from moving in the radial direction) during sealing with the reflecting mirror 1.

Figure 4 shows a sealed beam light bulb using the above lens according to the present invention, in which (2) is a glass reflector, and (3) is a light emitting source attached to the base of this reflector (2). A bulb capsule is formed by hermetically sealing the lens (1) to the front opening of one reflection i (2) with a tungsten coil filament. Note that this valve (4) is filled with an inert gas such as argon or nitrogen.

(5) It is a cap attached to the end of the i-reflector (2).

The present invention is a lens (1) having the above-mentioned structure, in which a large number of lens elements (13), which also serve as spherical concave portions, are formed, so that the light emitted from the lens (1) has a wide angle. This results in a diffused light of .

Further, the lens (1) has a large number of lens elements α3),
... is formed to be rotationally symmetrical, and the lens (1)
A stepped portion α4 with or without a convex (and concave) engagement key for alignment is formed at the peripheral sealing portion between the mirror and the reflecting mirror. Therefore, since the light distribution is approximately circular and the light emission is the same in any direction with respect to the rotational direction of the lens (1), the lens (
The regulation in the circumferential direction of 1) becomes unnecessary, and the manufacturing of the lens (1) becomes easy.

In addition, in experiments conducted by the present inventors, defects such as bubbles and wrinkles occurred during lens molding for conventional lenses with a convex surface formed on the inner surface, and 1 for lenses with a concave surface formed on the inner surface of the present invention, and during work with a reflector. The occurrence of crack defects is as follows, and with this configuration, the number of defects was reduced. The lens has an outer diameter of 123 mm + an inner thickness of about 4 blades at the center.

〔Effect of the invention〕

As described in detail above, the present invention is directed to a sealed beam light bulb system characterized by having a plurality of substantially spherical concave lens elements provided on the inner surface of the lens. The transmitted light is evenly diffused and emitted to the outside of the lens, resulting in a lens and light bulb with good flood light distribution. In addition, since the lens element is made into a recessed part that is almost spherical so that it does not become thicker than the basic wall thickness of the lens, the difference in lens wall thickness is reduced, which reduces the occurrence of distortion and improves thermal shock resistance. can. Furthermore, when press-molding lenses, the glass flows well in the mold, making the molding easy, and the generation of wrinkles and bubbles can be suppressed. Furthermore, the fact that the lens element is concave means that there is a convex portion on the side of the mold, making it possible to manufacture the mold with high accuracy and ease.

With such a configuration of the present invention, it is possible to provide a lens for a sealed beam light bulb that has various advantages such as excellent light diffusion performance and strength of the lens, easy manufacture, and improved productivity. It is something.

[Brief explanation of drawings]

FIG. 1 is an enlarged side sectional view of a main part showing a conventional lens for a 7-metal sealed beam light bulb; FIGS. 2 and 3 are an enlarged side sectional view and front view of a main part showing a lens for a sealed beam light bulb of the present invention; FIG. 4 is a partially cutaway side view of the sealed beam type light bulb. (1)...Lens, (13)...
...Lens element.

Claims (1)

[Claims] A lens for a sealed beam light bulb, characterized in that a smooth curved surface is formed on the outer surface by press molding, and a lens element consisting of a large number of substantially spherical concave portions is formed on the inner surface.