KR200350543Y1 - the light coated a light-reflective material - Google Patents

Abstract

The present invention relates to electric lights such as incandescent lamps, fluorescent lamps, security lamps, and street lamps that are installed indoors and outdoors. More specifically, the glass bulbs or glass tubes of the lamps are made flat or have a certain curvature. The present invention relates to a lamp coated with a light reflecting material capable of improving light reflecting efficiency than a conventional lamp without using a reflector or reflector reflecting light generated from a light source by coating the light reflecting material on the outside.

The light coated with the light reflecting material according to the present invention can have high efficiency without installing a separate reflecting member, and since the light reflecting material is directly coated on an outer surface such as a glass sphere surrounding the light source, the light does not matter and is reflected. Since the efficiency is not deteriorated, it is possible to maintain a constant brightness, and since the reflective member is not separately installed, the lamp manufacturing cost is reduced and the lamp is easily cleaned.

Description

Light coated a light-reflective material

The present invention relates to electric lights such as incandescent lamps, fluorescent lamps, security lamps, and street lamps that are installed indoors and outdoors. More specifically, the glass bulbs or glass tubes of the lamps are made flat or have a certain curvature. The present invention relates to a lamp coated with a light reflecting material capable of improving light reflecting efficiency than a conventional lamp without using a reflector or reflector reflecting light generated from a light source by coating the light reflecting material on the outside.

Light fixtures are generally used to obtain the illumination required at night, and serve to irradiate light over a large area or to collect locally radiated light from one light source in one direction.

In particular, in the case of supplying light in a locally limited area, a reflector such as a reflector or a reflector must be provided separately from the light to reflect the light and collect the light in a specific direction in order to increase the light efficiency of the light.

However, in the conventional lamps, the development of a light source is constantly made in order to increase light efficiency, but a situation in which a reflective member that serves to collect light in a specific direction and improve light efficiency is not actively developed.

For example, in the case of a security lamp or a street lamp without a reflective member, high light efficiency is required to secure a constant illuminance on the ground, but part of the light emitted from the light source is emitted to an unnecessary portion, and thus the light must reach. There is a problem that the light efficiency is lowered as the light does not reach the desired portion.

On the other hand, in the case of a lamp equipped with a separate reflecting member can improve the light efficiency by reflecting light in a desired direction, but a separate reflecting member must be provided, a lot of cost in the production of the lamp, suitable for various types of lamps There is a problem in that it takes a lot of time and effort to design and manufacture the reflective member. Moreover, in the case of a lamp installed outdoors, such as a street lamp having a conventional reflective member, when the reflective member is dirty due to a foreign material such as dust, the reflective efficiency of the reflective member is remarkably decreased, and the dirty reflective member is cleaned or replaced. There is a problem that takes a lot of time and effort to do.

Therefore, the present invention is devised to solve the problems of the conventional light as described above, the object of the present invention is to make one surface of the glass sphere or glass tube of the lamp flat or to have a certain curvature and then the outer surface of the surface The present invention provides a lamp coated with a light reflecting material that maximizes light reflecting efficiency by coating a light reflecting material instead of the function of a conventional reflecting member.

Other objects of the present invention will become more apparent from the detailed description of the present invention to be described later in detail.

1 is a perspective view of a horizontal street light with a conventional reflector,

2 is a view showing a light divergence path in the horizontal street lamp of FIG.

3 is a view showing a diverging path of light of a horizontal lamp according to the present invention;

4 is a view showing a light divergence path of a conventional vertical street light,

5 is a view showing the divergence path of the light of the vertical lamp according to the present invention,

6 is a view showing a divergence path of light of a fluorescent lamp having a conventional reflector;

7 is a view showing a divergence path of light of a fluorescent lamp according to the present invention;

8 is a perspective view of a fluorescent lamp coated with a light reflecting material according to the present invention.

Explanation of symbols on the main parts of the drawings

10,20: horizontal street light 30,40: vertical street light

50,60,70: Fluorescent lamp 11,21,31,41: Glass bulb of incandescent lamp

51,61,71: glass tube of fluorescent lamp 12,22,32,42: light source

13,53: reflective member 23,43,63,73: light reflective material

14, 34, 44: light case 15: light transmission portion of the light case

C: light

Lamps coated with a light reflecting material according to the present invention for achieving the above objects is made to have a flat or constant curvature to facilitate coating on one side of the glass sphere or glass tube surrounding the light source is generated light, The outer surface of the surface is characterized in that the coating is made of a light reflecting material that reflects light effectively.

Hereinafter, with reference to the accompanying drawings a more detailed configuration and operation of the light-reflective material coated light according to the present invention will be described.

First, FIG. 1 illustrates a conventional horizontal street light 10 in which a separate reflective member 13 is installed inside a light case. Referring to the diverging path of light shown in FIG. 2, light generated from the light source 12 is illustrated. A part of (C) is directly emitted to the outside through the transparent light transmitting portion 15 of the bottom of the light case, the other part is reflected by hitting the reflective member 13 is passed through the light transmitting portion 15 to the outside.

3 shows a first embodiment of the present invention in which the technical idea of the present invention is applied to such a conventional horizontal street light 10. Looking at the first embodiment of the present invention in detail with reference to Figure 3, the upper surface of the lamp glass sphere 21 is flattened to facilitate the coating and easy reflection and the light reflecting material 23 on the outside of the flat surface A part of the light C generated by the light source 22 is directly reflected by the light reflecting material 23 coating part to be coated and irradiated to the ground to maximize the light reflecting efficiency without a separate reflecting member.

In addition, since part of the light C generated by the light source 22 is directly reflected by the light reflecting material 23 coated on the outside of the glass sphere and emitted to the outside, the outflow of heat is significantly reduced, thereby increasing the luminous efficiency. . In addition, since the light reflecting material 23 is coated on the outside of the glass sphere 21 of the lamp, the portion that directly reflects the light generated from the light source can be kept unchanged even if it is used for a long time without any foreign matter. .

The glass sphere of the lamp may be made to have a constant curvature without making it flat in some cases, and may be coated with a light reflecting material on the outer surface of the glass sphere using a conventional ordinary glass sphere as it is.

In the vertical street light 30 used in an open place such as a park shown in FIG. 4, since the light C generated by the light source 32 is transmitted through the glass sphere 31 and the street lamp case 34, The light C generated by the light source 32 is irradiated with only a portion of the ground to lower the light efficiency.

A second embodiment of the present invention for solving such a problem is shown in FIG. The vertical street light 40 to which the technical idea of the present invention shown in FIG. 5 is applied is flattened so as to easily coat and reflect the upper surface of the glass sphere 41 of the lamp, as in the horizontal street light. The light reflecting material 43 is coated on the outside of the light reflecting part of the light C generated by the light source 42 to be directly reflected to the light reflecting material coating 43 so that the light reflecting efficiency is maximized. It is.

Similarly, in the case of the vertical street lamp, the glass bulb of the horizontal street lamp can be made to have a constant curvature without making the glass sphere flat, and light reflection is applied to the outer surface of the glass sphere by using a conventional glass bulb as it is. The material may also be coated.

Finally, a third embodiment in which the technical idea of the present invention is applied to a fluorescent lamp is illustrated in FIGS. 7 and 8. In the case of the conventional fluorescent lamp 50, as shown in Figure 6, a separate reflecting plate 53 so as to collect the light (C) generated by the discharge inside the glass tube 51 of the fluorescent lamp to the ground and irradiated (助 射) However, the fluorescent lamp 60 according to the present invention shown in FIGS. 7 and 8 has light (C) generated by the discharge inside the fluorescent glass tube 61 coated on the flat upper surface of the glass tube 61. It is configured to be reflected by the reflecting material to be irradiated downward so that a high light reflecting efficiency can be obtained even without a separate reflecting member 53.

8 is a perspective view of a fluorescent lamp to which the technical idea of the present invention is applied, and it can be seen that the light reflecting material 73 is coated on the flat upper surface and the outer surface of the glass tube 71 of the fluorescent lamp.

The glass tube of the fluorescent lamp may not be flattened in some cases as in the glass sphere of the street lamp, and a light reflecting material may be coated on the outer surface of the glass tube using a conventional general glass tube as it is.

In addition, the technical idea of the present invention reveals that embodiments may exist in various shapes such as mercury lamp, sodium lamp, halogen lamp, and the like.

According to the detailed description of the present invention, the light reflecting material coated light according to the present invention has an excellent effect of having a high efficiency without installing a separate reflective member.

In addition, since the light reflecting material coated light according to the present invention is coated directly on the outer surface of the light reflecting material, such as glass spheres surrounding the light source, the reflection efficiency is not lowered because the foreign matter does not bury, it is possible to maintain a constant brightness, reflecting member Since it is not separately installed, the lamp manufacturing cost is reduced and the lamp is easily cleaned.

In addition, even when a special lighting is required, the light reflecting material coated on the outer surface of the lamp may be coated in various forms, so that the desired lighting may be easily obtained.

Claims (1)

In a lamp having various forms such as a fluorescent lamp, a street lamp, and an incandescent lamp, a glass sphere or a glass tube surrounding the light source is flattened, and then a light reflecting material is coated on the flat surface to maximize light reflection efficiency. Light coated with light reflectors.