KR900002952Y1 - Light tube - Google Patents

Abstract

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Description

Lamp light tube

1 is an exploded perspective view of a portion of the present invention cut away.

2 is a view showing the use of the light tube applied to a fluorescent lamp.

3 is a cross-sectional view of a fluorescent tube provided with a reflection tube, and FIG. 3a is a cross-sectional view when there is one fluorescent lamp, and FIG. 3b is a cross-sectional view when two fluorescent lamps are used.

4 is an exemplary view for adjusting the light projection direction of the fluorescent lamp to which the light tube of the present invention is applied.

5 is a view of applying the light tube of the present design to the existing fluorescent hamp.

6 is a view showing a reflector to improve the illuminance of light emitted from a fluorescent lamp.

7 is a view showing a reflective film for a conventional lighting fixture.

* Explanation of symbols for main parts of the drawings

10: reflector 20: synthetic resin

30: light tube 40: fluorescent tube

50: body of the fluorescent lamp 60: reflector

The present invention relates to a light tube that can adjust an arbitrary direction as desired by the user to the direction of the other company's light emitted from the fluorescent lamp, in particular any irregularities of uniform diffuse reflection effect in the fluorescent lamp length direction Transparent polyester (PET) resin film is bonded around the high-purity aluminum metal plate (vacuum deposition) (99,999-99,9999%) (which may intervene in the heat-resistant light-shielding layer) with high reflectivity which has a slope and becomes an arbitrary array layer. Both sides of the reflecting plate are curved to form a horizontal plate passing through the lower surface of the reflector or below and the tube of the transparent PET resin film is combined to make the fluorescent lamp and the center of the bent portion of the reflecting plate closely adhere to each other. The reflectivity is lowered by reflecting it on the metal plate with good reflectivity, so the illuminance (LUX) can be improved, and the PET resin It absorbs diffused reflections to prevent glare and protects eyesight, and it is a transparent light that can convert light emitted from white fluorescent light into color light by using transparent PET resin stacked around the reflector in various colors. It relates to a light tube.

In general, as a luminaire commonly used in homes, offices, and factories, many fluorescent lights are used. As a means to improve the illuminance (LUX) by concentrating the light emitted from the fluorescent light into one place, conventionally, the reflection shade is raised in a constant shape. Reflecting light

However, the reflector used in the existing fluorescent lamp reflects the light but absorbs light, so it cannot improve the illuminance (LUX) to some extent, and the reflector is fixed to the body of the fluorescent lamp. There is a disadvantage that the direction of light divergence can not be adjusted as desired. Also, since existing lamps are far from fluorescent lamps and reflecting lamps, they cannot efficiently reflect light emitted from the upper side of fluorescent lamps, thereby enhancing the user's desire to improve illumination. There was a disadvantage that could not be met.

Japanese Patent Application Laid-Open No. 59-76011, which seeks to remedy the above disadvantages, provides a reflecting film for lighting fixtures, but since both ends of the light reflecting film on the tube side are on the upper side of the fluorescent center line, When the above-mentioned fluorescent lamps are in parallel with each other and emit light, illuminance (specific experimental example will be described later) is inferior due to the photodynamic action of polarized light emitted from both fluorescent lamps.

Therefore, the present invention was created to solve the above-mentioned defects, and both ends of the inner curved surface of the metal plate having arbitrary size and random irregularities on one side in the length direction of the fluorescent lamp and having good randomly arranged reflectivity pass through the lower side of the fluorescent lamp. It is an object of the present invention to provide a lamp tube light to improve the illuminance (LUX) to reach or below the horizontal line. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The illuminating light tube of the present invention has a good reflectivity as shown in FIG. 1, and the size is proportional to the size (length) of the fluorescent lamp, and has an arbitrary arrangement with an uneven reflective surface on one surface in the longitudinal direction of the fluorescent lamp. A high melting point (about 200 ° C.) PET resin 20 is enclosed on the outer surface of the reflector plate 10.

In the above, the reflective surface is preferably a high purity aluminum deposition layer, and the reflection efficiency is further increased by interfering with the heat resistant light shielding layer. In the structure of the present invention, both ends of the inner curved surface of the reflector 10 are configured to extend to or below the horizontal point of the lower surface contact surface of the fluorescent lamp so as to reflect the reflected light downward to improve illuminance.

It will be described the operation effect generated by using the light tube of the lamp of the present invention as described above.

When the fluorescent lamp 40 is inserted into the light tube made of the reflector plate 10 and the PET resin 20, the fluorescent plate 40 is closely attached to the reflective surface having the uneven surface of the reflector plate 10, that is, the light upward surface. The lower side of the fluorescent lamp 40 is in close contact with the transparent PET resin 20, as shown in FIG.

When the light tube 30 applied as shown in FIG. 2 is used for a conventional lighting lamp having a reflector 60 or a lamp without a reflector 60, the reflector 10 having a constant surface on the upper side of the fluorescent lamp 40 is described above. It is in close contact with the inner circumferential surface, for example, when the light emitted from the upper side of the conventional fluorescent lamp 40 reaches the reflection shade 60 at a distance, the light is attenuated and the brightness of the light reflected from the reflection shade 60 is a shadow of the fluorescent lamp. The illuminance (LUX) can be improved by eliminating the defect that the illuminance has dropped, and the light is evenly reflected by dividing the light evenly.

However, the above table was tested by depositing commercially available deposition aluminum (9.4% or more), not high purity aluminum (9.999%), and using high purity aluminum (9.999% or more) because it is a test result without a light tube. When used and imposing a heat resistant light shielding layer, the reflection effect is very good and the illuminance is further increased.

When installing a general exposure type (embedded) lighting device having an illuminance (LUX) as shown in the above table in an office or a factory, the illuminance of each part is as shown in the following contrast diagram (a) according to the installation interval and the light projection distance. When using the light tube-type lighting fixture of this drawing, the illuminance of each part is as follows.

However, the contrast picture is the result of self experiment under the same condition of the inventor.

That is, the use of the first light fixture using the light tube of the present invention improves the efficiency than the illumination (LUX) using two for two lamps in the general type lighting fixture.

On the other hand, both sides of the inner side surface of the reflector plate 10 of the light tube 30 of the present invention at least coincide with or below the horizontal line passing through the lower surface of the fluorescent lamp 46 to diverge from both sides of the existing fluorescent lamp 40 In addition to improving the illuminance by lowering the dead light, when the light tube 30 is used in the conventional fluorescent lamp 40 which is used in two or more parallel states, the side light is lowered as described above. The light emitted from both sides of) improves the defect of falling the LUX due to mutual photodynamic phenomenon, eliminating shadows and improving illuminance. In addition, ultraviolet light is also blocked by using the light tube 30.

The light tube 30 having the above-described effect is to be rotated with the fluorescent lamp 40 as an axis, and then adjusted according to the user's wishes without fixing the light emitted from the fluorescent lamp 40 in one place. As a result, the light tube 30 can be efficiently used.

In addition, when replacing or repairing an existing fluorescent lamp due to user carelessness, the glass tube is destroyed and spreads all over the floor of an office or home, so that people or other objects are damaged. In the present design, the fluorescent lamp 40 is a light tube 30. Since it is inserted inside the tube, glass fragments do not spread in all directions even if the fluorescent lamp falls, so it is convenient to clean and prevents damage to people or other objects.

In this case, the glass tube may be sealed on both sides of the light tube 30 so that glass fragments do not come out sideways, and a very small number of through holes may be formed on the sealing surface so that the heat generated from the fluorescent lamp itself may come out. But this is an embodiment to the last.

As another example of air permeability, the air permeability may be doubled by continuously discharging a VH type vent on the transmissive surface rather than the reflective side of the light tube 30.

If the light tube 30 of the present invention is used for an existing fluorescent lamp, the user may wish to change the color of the transparent PET resin 20 of the light tube 30, regardless of the color of light emitted from the existing fluorescent lamp. There is an advantage to get color lighting.

Claims (5)

In a lamp reflecting tube which uses the outer surface of the reflecting plate 10 with a transparent PET resin 20 and sandwiches the fluorescent lamp 40 therebetween, the reflecting plate 10 is made of high purity aluminum having a purity of 99.999-99.9999%, and a reflecting plate ( 10) The illumination light tube, characterized in that both sides of the inner surface is configured to at least coincide with or below the horizontal line passing through the lower surface of the fluorescent lamp (40). According to claim 1, wherein one surface of the reflecting plate 10 in the direction of the fluorescent lamp 40 length of the irregular surface and the irregular surface size and the arrangement pattern arbitrarily arranged to extend the reflective surface so that the light is evenly and evenly reflected Illumination light tube characterized by the above-mentioned. The lamp tube according to claim 1, wherein a fluorescent tube (40) is inserted into the light tube, but the upper side of the fluorescent tube (40) is completely attached only to the reflector plate (10). The lamp tube according to claim 1, wherein when the fluorescent tube (40) is inserted into the light tube (30), the light tube (30) is rotated with the fluorescent tube (40) as an axis to adjust the steering arbitrarily. The lamp tube according to claim 1, wherein the synthetic resin (20) has various colors or monochromatic colors so as to obtain the effect of color illumination in white fluorescent lamps.