KR830002415Y1 - Fluorescent Lamp Device - Google Patents

Abstract

No content.

Description

Fluorescent Lamp Device

1 is a perspective view.

2 and 3 are cross-sectional views seen from different directions, respectively.

* Explanation of symbols for main parts of the drawings

1 base 2 clasp

4: glove 8: partition board

11: grain stem bulb 12: electrode

15: vent 16: opening

The present invention relates to a fluorescent lamp device that can be used interchangeably with incandescent lamps, and can also save power.

Fluorescent lamps have excellent light efficiency and can be used at low power compared to general incandescent lamps. Therefore, fluorescent lamps have a stabilizing and lighting circuit, as well as a clad type clasp like E 26 type which is generally used for general incandescent lamps. It is being developed to have compatibility with a general incandescent lamp by attaching a lamp. However, in order to have full compatibility with incandescent bulbs, it is not enough to simply attach a spiral clasp, and the size of the lamp should be small since it should be applicable to lighting fixtures such as reflectors or gloves for incandescent bulbs that are currently in use. It is limited to. That is, it is desirable that the size of the lamp be smaller than the bulb diameter 95mm white-ball type bulb which is used most widely in general general light bulbs, and effectively arrange the bulb with long observation in a limited space. Therefore, it is desirable to increase the total luminous flux, so it is necessary to use a curved bulb. In addition, such a curved fluorescent lamp has a so-called saddle shape in which a center of the tubular bulb is bent in a substantially u shape, and both ends thereof are curved in a u shape in a direction substantially orthogonal to the plane including the u shape. And arranged in such a way as to surround the ballast. Here, such a curved fluorescent lamp is usually turned on in the glove due to light diffusibility and appearance improvement, and thus the glove is easily heated to high temperature due to heat generated by the lamp. As such, when the fluorescent lamp is used under a high ambient temperature, its water vapor pressure is higher than the optimum value, and the defects such as the ultraviolet ray intensity and the visible ray intensity emitted from the phosphor are significantly reduced, resulting in poor lighting efficiency. In addition, the lamp current continues to rise as the temperature rises in the glove, and as a result of this increase, the ballast can generate heat. Therefore, the ambient temperature of the fluorescent lamp surrounding the ballast rises, causing the above-mentioned adverse effects. In this case, the ballast is likely to be extremely dangerous, such as burnout.

The present invention is permanent in view of the above circumstances, and its purpose is to suppress the rise of the temperature in the glove even when the clasp is turned upward or downward to maintain the optimum mercury vapor pressure in the bulb at all times. It is to provide a fluorescent lamp device that can prevent the degradation.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

In the figure, (1) is a base shaped like a hospital, and a clasp 2 of a screw type such as E 26 type is attached to the center of one side. In addition, for example, a white glove 4 is attached to the fringe portion 3 formed at the other side edge of the base 1, and the glove 4 and the fringe portion 3 mutually have a glove 4. The convex part 5 formed in the edge of the opening of the) is detachably fitted to the concave part 6 formed in the fringe part 3 inside the fringe part 3 so as to be detachably fitted. On the other side edge of the base 1, a partition plate 8 partitioning the inside of the glove 4 and the base 1 is fixed by the screw member 9 from the outside of the base 1. The surface of the glove 4 side of the partition plate 8 forms a reflecting surface, and a curved fluorescent lamp 10 is fixed to the reflecting side so as to be located in the glove 4.

The bulb 11 of the fluorescent lamp 10 is bent as follows. That is, the straight glass bulb is bent in a substantially u shape to form the bent portion 11a, and both ends thereof are bent in a u shape in a direction substantially orthogonal to the plane including the u-shape to form a pair of curved portions ( 11b) and 11b are formed and molded in a substantially saddle shape as a whole. Discharge electrodes 12 and 12 are attached to both ends of the curved bulb 11. The fluorescent lamp 10 is fixed so that both ends and the bent portion 11a face the partition plate 8. Moreover, the stabilizer 13 is attached to the partition board 8, and this stabilizer 13 is arrange | positioned in the shape surrounded by the said fluorescent lamp 10. As shown in FIG.

Thus, a plurality of vent holes 14 are formed on the outer circumferential surface of the base 1 along the outer circumferential direction, and the partition plate 8 has a portion facing the bent portion 11a of the fluorescent lamp 10 and the membrane. A plurality of vent holes 15 are formed around both ends of the fluorescent lamp 10 for subtracting the plate 8. Again, as an effective example, the head of the glove 4 is provided with a pair of openings 16 and 16 so as to face the pair of curved portions 11b and 11b of the fluorescent lamp 10. Therefore, the inside of the glove 4 and the base 1 communicates with the outside, and the outside air flows along the tube axis direction at this speed. In addition, a phosphor film is attached to the inner surface of the curved bulb 11, and a predetermined amount of mercury and an inert gas are enclosed therein. It goes without saying that the discharge electrodes 12 and 12 are connected to the clasp 2 via the ballast 13.

Thus, the fluorescent lamp device configured as described above forms the vent holes 14 and 15 in the base 1 and the partition plate 8, and at the same time, the openings 16 and 16 at the head of the glove 4 are formed. In the glove (4) and the base (1), so that the outside air passes through the so-called tunnel effect to discharge heat inside the glove (4) and the base (1) even during lamp lighting. ) It doesn't become very hot inside.

In particular, since the pair of openings 16 and 16 are formed in the glove 4 so as to face the pair of curved portions 11b and 11b of the fluorescent lamp 10, the outside air is formed at the curved portions 11b and 11b. The part reaching both ends is almost enclosed, and it can distribute | circulate, and the raise of the tube wall temperature of the bulb 11 can be suppressed effectively. In addition, since the vent holes 15 and 15 of the partition board 8 correspond to both parts of the subunit puppet light lamp 10 that emits the most, the cooling effect of the fluorescent lamp 10 is more effective. Is promoted. Therefore, even though the fluorescent lamp 10 is accommodated in the glove 4, the water vapor pressure in the tube can always be maintained at an optimum value and the deterioration of the lighting effect of the lamp can be prevented. In addition, since the rise of the lamp current can be prevented at the same time, the heat generation of the ballast 13 can also be prevented and the covariance characteristic of the lamp can be remarkably improved. In addition, since the outside air flows inside the glove 4 and the base 1 according to the viewing direction as described above, the temperature rise in the glove 4 and the base 1 can be suppressed without being restricted by the lighting direction of the lamp. It can be.

In addition, this invention is not limited to the said Example. For example, the openings need not necessarily be formed in pairs at the portions opposed to the curved portions of the fluorescent lamps, and may simply be open at the center of the glove. Moreover, also in a partition board, the opening position of a ventilation hole is not specified like an Example.

Claims (1)

A flat surface comprising the u-shaped clasp and a tubular bulb electrically connected to the base 1 and having electrodes formed at both ends thereof bent in a substantially u-shape at the center thereof, and both ends thereof having the u-shape. In a fluorescent lamp device having a curved bulb 11 configured to be bent in a u-shape in a direction orthogonal to the shape to form a pair of curved portions, A glove 4 attached to the base 1 and covering the grain stem bulb 11, and a partition plate 8 partitioning the glove 4 and the inside of the base 1; At least one pair of openings 16 and 16 are provided in the glove 4 to correspond to the pair of curved portions of the curved bulb 11 while providing ventilation holes in the partition plate 8 and the base 1. Fluorescent lamp device characterized in that.