KR850002265Y1 - Compact fluorescent lamp - Google Patents

Abstract

No content.

Description

Fluorescent lamp device

1 to 3 show an embodiment of the present invention,

1 is a cross-sectional view,

2 is a cross-sectional view according to II-II of FIG. 1,

3 is a cross-sectional view showing a state in which the vertical vertical light with the clasp downward;

4 and 5 are side views each showing a modified example of the curved fluorescent lamp.

The present invention relates to a fluorescent lamp device that can be replaced with the incandescent light bulb, and can save power.

In this type of fluorescent lamp device, for example, a saddle-shaped curved fluorescent lamp and a ballast are mounted on a device body having a clasp, and a fluorescent lamp or a ballast is placed on the main body by a light diffusing glove. It is composed. This can take a long length by the actual discharge of the fluorescent lamp, and the amount of light is increased, and since both ends of the mold hole lamp are located adjacent to each other in the same direction, there is an advantage that the wiring of the ballast and the lighting tube is easy.

However, when the fluorescent lamp and the ballast are integrated into the main body of the device, the problem is that the ambient temperature of the fluorescent lamp increases due to the radiant heat from the ballast, which causes the mercury vapor pressure in the lamp to be higher than the optimum value, resulting in ultraviolet intensity and visible light. The strength is lowered. That is, generally, fluorescent lamps are designed to have the highest luminous efficiency when the tube wall temperature is 40 ° C, and the ambient temperature at this time is about 20-25 ° C. However, the ballast temperature is around 100 ° C. even in the choke type ballast, and thus the heat influence on the lamp by this heat is large, especially when the glove is covered around the lamp and the ballast.

In order to reduce the influence of heat, it is considered to install a ventilation hole in the glove or to greatly separate the lamp and the ballast. However, when the lamp and the ballast are separated, the whole device becomes larger, and it is dimensional as a substitute for a small incandescent lamp. It is not desirable. In addition, since the direction in which the lamp is turned on is not necessarily constant, there is a defect in that the ambient temperature of the entire lamp is increased due to tropical currents and the luminous efficiency varies depending on the direction depending on the lighting direction.

The present invention has been studied for this purpose, and its object is to provide a fluorescent lamp device capable of miniaturizing the entire apparatus and of preventing a decrease in lighting efficiency due to the lighting direction of the lamp. will be.

Hereinafter, the present invention will be described according to one embodiment shown in the drawings.

Reference numeral 1 in the figure denotes an apparatus body, which is divided into a chassis 2 and a base 3 covering the outer circumference of the chassis 2. The chassis 2 has an ordinary portion 4 at one end thereof, and a male screw portion 5 for mounting the clasp is provided on the outer peripheral surface of the tip side of the ordinary portion 4. Mounting grooves 6 and 6 are formed in two opposite portions of the main surface of the ordinary portion 4 along the axial direction, and one end of these mounting grooves 6 and 6 is the leading edge of the ordinary portion 4. It is open to.

In addition, the base 3 is substantially hemispherical in shape, and the fitting protrusions 7 detachably fitted into the mounting grooves 6 and 6 via the openings at two opposite ends of the one end opening. (7) is rushed. Accordingly, the base 3 fits the fitting projections 7 and 7 into the mounting grooves 6 and 6, and at the same time, the male part 5 has a clasp 8, for example, E26 type for incandescent bulbs. ), And the opening edge of this clasp 8 is engaged to the opening edge of one end of the base 3, and the said fitting projections 7 and 7 are attached to the end of the mounting groove 6 and 6. It is fixed to the normal part 4 of the chassis 2 by inserting and contacting. In the other end opening edge of the base 3, a substantially spherical glove 10 having an opening 9 at a part of the main surface is piped. The glove 10 is made of polycarbonate resin as a preferred example, and is mixed with the light diffusing material in the resin so as to be colored with light diffusive white color. And the locking click part 11 ... is provided in several places around the opening of the glove 10, and these locking click parts 11 are provided in several places around the other end opening of the base 3. The glove 10 is detachably fixed with respect to the base 3 by locking onto the locking end 12... In addition, a plurality of slits 13 ... are formed on the main surface of the base 3 to communicate with the inside and outside of the base 3, and vent holes 14 are also provided in the top of the glove 10.

On the other hand, arm portions 15 and 15 protrude from two mutually opposite ends of the base of the normal portion, and the mounting body 16 is integrally formed between the tip portions of these arm portions 15 and 15. . This mounting body 16 is substantially rectangular, and the perforation 17 is formed in the center located between the arm parts 15 and 15. As shown in FIG. On the glove side of the mounting body 16, fitting wall portions 18 and 18 are formed so as to face each other with a through hole 17 therebetween so as to face each other, and these fitting wall portions 18, The ballast 19 is interlocked and fixed between (18).

Thus, for example, the saddle-shaped curved tube lamp 2 is mounted on the glove 10 side of the mounting body 16 so as to be located in the glove 10. The curved fluorescent lamp 20 is formed by bending a tubular bulb provided with electrodes at both ends in a substantially U-shape at the center thereof to form a curved portion 21, and at the same time, at both ends thereof substantially perpendicular to a plane including the U-shape. This is formed by bending in a substantially U-shape to form a pair of curved portions 22 and 22 and forming a saddle shape as a whole. Both ends 20a and 20b of the curved fluorescent lamp 20 are located in the same direction adjacent to each other, and both ends and the curved portion 21 are supported by the mounting body 16. That is, the one side edge part of the mounting body 16 with respect to the ballast 19 is provided with the plate-like support piece part 23, and this support piece part 23 is provided in the clasp 8 side, for example about 5 mm. The flange has a step of. Both ends 20a and 20b of the fluorescent lamp 20 are located at both ends of the support piece 23. Moreover, the clamping wall 24 which faces the clasp 8 direction is integrally protruded in the other edge part which clamps the stabilizer 19 by the mounting body 16. As shown in FIG. At the edge of the clasp side of the clamping wall 24, a substantially b-shaped locking arm 25 protrudes, and the curved portion of the fluorescent lamp 20 is formed by the clamping wall 24 and the locking arm 25. 21) is retractably sandwiched. Therefore, the ballast 19 is surrounded by the fluorescent lamp 20, and the curved portion 22 is more than both the ends 20a, 20b and the curved portion 21 of the both ends 20 of the fluorescent lamp 20. ) And (22).

Reference numeral 26 denotes a light tube.

Next, the operation of the above configuration will be described.

The ambient temperature distribution of the ballast 19 at the time of the lighting of the ballast is represented by an isotherm A spreading upwards by the heat dissipated from the ballast 19. Therefore, the ambient temperature of the lower side of the ballast 19 tends to drop rapidly even if only slightly separated from the ballast 19. From this fact, as shown in FIGS. 1 and 2, when the clasp 8 is turned upward and vertically turned on. Since the curved portions 22, 22 and the vicinity of the fluorescent lamp 20 are not affected by the heat effect of the ballast 19, the ambient temperature is lowered to form the coldest portion in the curved portions 22, 22. do. In addition, when the clasp 8 is turned downward and vertically lit, as in the isotherm A in the third diagram, the ends 20a, 20b and the curved portions 21 on the opposite sides of the curved portions 22, 22 are inclined. The ambient temperature is lowered, and the coldest portion is formed at the both ends 20a, 20b or the curved portion 21. In addition, when the clasp 8 is horizontally turned to the side, the coldest portion is formed at both ends 20a, 20b or the curved portion 21 of the fluorescent lamp 20 located downward. Thus, when the ballast 19 is arrange | positioned between the both ends 20a, 20b, and the curved part 21 of the fluorescent lamp 20, and shifts toward the curved parts 22 and 22 rather than this position, this fluorescent lamp ( 20) the coldest part is necessarily formed in a part without being restricted in the lighting direction. The fluorescent lamp 20 is not limited to the lighting direction, and the coldest part is necessarily formed in a part thereof. And if there is a coldest part in a part of fluorescent lamp 20, the mercury vapor pressure in lamp 20 is determined by the temperature of this coldest part. That is, even if there is a higher temperature range in addition to the temperature range of the coldest part, all of the excess mercury will condense in the coldest part, thereby preventing the increase in the internal steam pressure. Therefore, the lighting efficiency can be maintained at the highest efficiency in any direction in which the lamp is turned on, and variations in brightness can be prevented.

Moreover, since the ballast 19 is arrange | positioned inside the curved lamp | ramp 20 as mentioned above, a narrow space can be used efficiently and there exists an effect that the whole apparatus can be miniaturized.

In addition, the present invention is not limited to the above embodiment. For example, the curved fluorescent lamp according to the present invention is not limited to a horse stable type as shown in the above embodiment, but is simply a fluorescent lamp 31 curved in a U shape as shown in FIG. 4, or both ends as shown in FIG. The fluorescent lamp 42 formed by forming the loop portion 41 in the liver can be similarly implemented.

As described above, the present invention arranges the ballast between both ends positioned in the same direction of the curved fluorescent lamp, and shifts the ballast toward the curved portion of the lamp rather than the both ends, so that the fluorescent lamp is not affected by the lighting direction and is necessarily the coldest part of the fluorescent lamp. The addition is formed. Therefore, since the extra water temperature in the pipe condenses at the coldest part, it is possible to prevent the increase in the pressure of the steam in the pipe, thereby maintaining the lighting efficiency at the highest efficiency in either direction of the lamp's lighting and preventing variations in brightness. have. In addition, since the ballast is arranged inside the curved fluorescent lamp, it is possible to effectively use a narrow space, and to achieve miniaturization of the entire apparatus, thereby providing an excellent effect.

Claims (1)

While attaching the base 3 covering the chassis outer periphery to the chassis 2 having the clasps 8, the tubular bulbs having electrodes at both ends were curved in a substantially U-shape at the center thereof to form the curved portion 21. In addition, a curved fluorescent lamp 20 and a stabilizer 19, each of which is bent in a substantially U-shape in a direction orthogonal to the plane including the U-shape, to form a pair of curved portions 22, are attached. In the fluorescent lamp which covers the periphery of the curved fluorescent lamp with the glove 10 piped to the base, the stabilizer 19 is disposed between the ends 20a and 20b of the curved fluorescent lamp and the curved portion 22. Fluorescent lamp device characterized in that.