JP4331938B2 - Circular fluorescent lamp - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a base for a circular fluorescent lamp, a circular fluorescent lamp and a lighting fixture, and further lowers the temperature of the coldest spot formed inside the base to further increase the ambient temperature at which the luminous flux relative value reaches a peak. is there.
[0002]
[Prior art]
In general, it is known that the brightness at the time of lighting of the circular fluorescent lamp is determined by the mercury vapor pressure in the glass bulb, and the mercury vapor pressure is determined by the coldest spot temperature at the lowest temperature in the glass bulb. Further, it is known that when the mercury vapor pressure is the optimum value, the lighting is brightest, and the lighting efficiency is lowered regardless of whether the mercury vapor pressure is higher or lower than the optimum value. Usually, the circular fluorescent lamp is designed so that the mercury vapor pressure in the glass bulb becomes an optimum value when the lamp is lit at an ambient temperature of 25 ° C., for example. The optimum value for the mercury vapor pressure is obtained when the coldest spot temperature in the glass bulb is about 40 ° C.
[0003]
However, for example, as described in JP-A-2001-243875, in a circular fluorescent lamp dedicated to high-frequency lighting, the temperature of the glass bulb increases due to the increase in current density due to the reduction in the diameter of the glass bulb. At that time, the coldest spot temperature in the glass bulb becomes higher than 40 ° C. at which the optimum mercury vapor pressure is obtained, and the brightness and luminous efficiency are also lost accordingly.
[0004]
When the circular fluorescent lamp dedicated to high-frequency lighting is applied to a sealed lighting fixture that is hermetically sealed by a cover or the like, for example, the temperature inside the fixture is as high as 60 ° C. or higher, so that the circular fluorescent lamp dedicated to high-frequency lighting is the coldest The spot temperature is further increased, and the brightness and lighting efficiency are further impaired.
[0005]
Therefore, in the above Japanese Patent Laid-Open No. 2001-243875, the height of one stem mount in the stem mount provided at both ends of the glass bulb is set higher than the other, and the end of the glass bulb on the one stem mount side is set as an electrode. The temperature is lowered to be the coldest part in the glass bulb, and a cooling hole is provided on one stem mount side of the base to form the coldest spot on the sealing side portion of one stem mount. Propose that.
[0006]
[Patent Document 1]
JP 2001-243875 A
[Problems to be solved by the invention]
As described above, conventional circular fluorescent lamps can be used as a countermeasure to increase the coldest spot temperature of glass bulbs by increasing the current density by reducing the diameter of glass bulbs and by applying it to sealed lighting fixtures. The height of the stem mount is higher than the other, and a cooling hole is provided in the base to form the coldest spot on the sealing side portion of one stem mount. For example, when a wire is inserted, the risk of electric shock due to the contact of the wire with the lead wire inside the base cannot be completely denied.
[0008]
The present invention has been made to solve the above-described problems, and effectively reduces the coldest spot temperature formed at the end of the long stem side glass bulb, thereby increasing the brightness on the high temperature side of the ambient temperature. Another object of the present invention is to provide a circular fluorescent lamp, a circular fluorescent lamp base, a circular fluorescent lamp, and a lighting fixture with improved luminous efficiency.
[0009]
[Means for Solving the Problems]
A base for a circular fluorescent lamp according to the present invention has both end portions of a lamp body in which a predetermined amount of mercury and an inert gas are sealed in an internal space of a circular glass bulb having long stems with different mount heights at both ends and a short stem. In a circular fluorescent lamp base having a base pin mounted so as to be bridged to the front surface and projecting to the surface side, heat on the short stem side is not transmitted to the long stem side in the base A heat shielding wall is provided.
[0010]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that the inside of the base is partitioned into three spaces of a short stem part, a base part, and a long stem part by a heat blocking wall.
[0011]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that the inside of the base is partitioned into two spaces of a short stem part and a base part by a heat blocking wall.
[0012]
The circular fluorescent lamp base according to the present invention is characterized in that the inside of the base is partitioned into two spaces, a long stem portion and a base portion, by a heat blocking wall.
[0013]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that the heat shielding wall has a notch through which the lead wire passes.
[0014]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that the heat blocking wall has a cooling groove portion communicating with the outside.
[0015]
The circular fluorescent lamp base according to the present invention is characterized in that the heat shielding wall has a substantially U-shaped cross-sectional shape.
[0016]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that a heat sink on the appliance side is fitted in the cooling groove portion of the heat shielding wall.
[0017]
Further, the circular fluorescent lamp base according to the present invention is a lamp body in which a predetermined amount of mercury and an inert gas are sealed in an internal space of a circular glass bulb having a long stem having a different mounting height at both ends and a short stem. In a circular fluorescent lamp base that is mounted so as to bridge both ends and has a base pin provided so as to protrude to the surface side, heat on the short stem side is not transmitted to the long stem side in the base. A long stem portion and a base portion are partitioned by a heat shield wall for the purpose, and a tip tube on the long stem side is extended to the vicinity of the heat shield wall.
[0018]
In addition, the circular fluorescent lamp base according to the present invention is characterized in that a member that absorbs a dimensional error and increases a contact area is interposed between the tip of the tip tube on the long stem side and the heat shielding wall. And
[0019]
The circular fluorescent lamp base according to the present invention is characterized in that silicone is interposed between the tip of the tip tube on the long stem side and the heat shielding wall.
[0020]
Further, the circular fluorescent lamp base according to the present invention is characterized in that the base part is moved to the short stem side, the long stem part is lengthened in the lamp circumferential direction, and the long stem side tip tube is lengthened.
[0021]
A circular fluorescent lamp according to the present invention includes a lamp main body in which a predetermined amount of mercury and an inert gas are sealed in an internal space of a circular glass bulb having a long stem and a short stem at both ends, and the lamp main body. In a circular fluorescent lamp with a base pin mounted so as to bridge both ends of the base and projecting to the surface side, the heat on the short stem side is not transmitted to the long stem side in the base The heat insulation wall is provided.
[0022]
Further, the circular fluorescent lamp according to the present invention is characterized in that the heat blocking wall has a cooling groove portion communicating with the outside.
[0023]
The circular fluorescent lamp according to the present invention is characterized in that a heat sink on the appliance side is fitted into the cooling groove of the heat shielding wall.
[0024]
Further, a circular fluorescent lamp according to the present invention includes a lamp body in which a predetermined amount of mercury and an inert gas are sealed in an internal space of a circular glass bulb having a long stem having a different mount height at both ends and a short stem. In circular fluorescent lamps with cap pins mounted so as to bridge both ends of the lamp body and projecting to the surface side, heat on the short stem side is not transferred to the long stem side in the cap A long stem portion and a base portion are partitioned by a heat shield wall for the purpose of the operation, and a tip tube on the long stem side is extended to the vicinity of the heat shield wall.
[0025]
The circular fluorescent lamp according to the present invention is characterized in that a member that absorbs a dimensional error and increases a contact area is interposed between the tip of the tip tube on the long stem side and the heat shielding wall. .
[0026]
The circular fluorescent lamp according to the present invention is characterized in that the base portion is moved to the short stem side, the long stem portion is lengthened in the lamp circumferential direction, and the tip tube on the long stem side is lengthened.
[0027]
A lighting apparatus according to the present invention includes an apparatus main body, a cover, an apparatus main body, a circular fluorescent lamp disposed in an internal space formed by the cover, and the circular fluorescent lamp includes a long stem having different mount heights at both ends, A lamp body in which a predetermined amount of mercury and inert gas is sealed in the internal space of a circular glass bulb having a short stem, and is mounted so as to bridge both ends of the lamp body and protrude to the surface side. And a heat blocking wall for preventing heat on the short stem side from being transmitted to the long stem side.
[0028]
Moreover, the lighting fixture which concerns on this invention has the groove part for cooling in which a heat-shielding wall is connected outside.
[0029]
Moreover, the lighting fixture according to the present invention is characterized in that a heat sink on the fixture side is fitted into the cooling groove portion of the heat shielding wall.
[0030]
The lighting fixture according to the present invention includes a fixture main body, a cover, the fixture main body, and a circular fluorescent lamp arranged in an internal space formed by the cover, and the circular fluorescent lamp has long mounts with different mount heights at both ends. A lamp body in which a predetermined amount of mercury and an inert gas is sealed in an internal space of a circular glass bulb having a stem and a short stem, and a lamp body mounted so as to bridge both ends of the lamp body and projecting to the surface side The long stem part is separated from the long stem part by a heat shield wall that prevents the heat on the short stem side from being transmitted to the long stem side. The tip tube is extended to the vicinity of the heat insulation wall.
[0031]
Moreover, the lighting fixture according to the present invention is characterized in that a member that absorbs a dimensional error and increases a contact area is interposed between the tip of the tip tube on the long stem side and the heat shielding wall.
[0032]
Further, the lighting fixture according to the present invention is characterized in that the base portion is moved to the short stem side, the long stem portion is lengthened in the lamp circumferential direction, and the tip tube on the long stem side is lengthened.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 shows the first embodiment, and is a plan view of a circular fluorescent lamp. As shown in the figure, the circular fluorescent lamp 1 has a predetermined amount of mercury and an inert gas sealed in the internal space of a circular glass bulb 2 having stems at both ends, and is bridged at both ends of the glass bulb 2. It is comprised of a base 3 having a base pin 4 that is mounted and provided so as to protrude to the surface side. The base 3 is formed with a heat shield wall 5 having a cooling groove, which will be described later. The heat shield wall 5 has a substantially U-shaped cross section.
[0034]
FIG. 2 is a diagram showing the first embodiment, and is a view of the base viewed from the base pin side, and a part thereof is shown in cross section. As shown in the drawing, the base 3 is provided with heat blocking walls 5 on both sides of the base pin 4, and the inside of the base 3 is partitioned into three spaces, a short stem part, a base part, and a long stem part. The heat blocking wall 5 has a cooling groove portion 5 a communicating with the outside, and a notch portion 5 b for passing the lead wire 6 is provided between the inner peripheral surface of the base 3.
[0035]
FIG. 3 is a diagram showing the first embodiment and is a diagram showing a configuration of an end portion of the glass bulb. As shown in the figure, a long stem 7 is provided at the right end of the glass bulb 2, and a short stem 8 is provided at the left end of the glass bulb 2.
[0036]
In the circular fluorescent lamp 1 configured as described above, the inside of the base 3 is partitioned into three spaces of the short stem part, the base part, and the long stem part by the heat blocking wall 5, so the heat on the short stem side is The structure is difficult to transmit to the coldest point on the long stem side.
Further, since the cooling barrier 5a communicating with the outside is provided in the heat blocking wall 5, the heat blocking wall 5 is cooled by the outside air, and the temperature inside the base 3 is lowered by the cooling effect.
[0037]
By dividing the inside of the base 3 into three spaces by the heat blocking wall 5 having the cooling groove 5a communicating with the outside, the coldest spot temperature on the long stem side is lowered by about 3 ° C.
[0038]
Further, if a heat sink on the fixture side of the lighting fixture is attached to the cooling groove 5a of the heat shield wall 5, the coldest spot temperature on the long stem side is further lowered by about 3 ° C.
[0039]
Embodiment 2. FIG.
FIG. 4 is a diagram showing the second embodiment, and is a view of the base viewed from the base pin side, and a part thereof is shown in cross section. As shown in the figure, the base 3 is provided with a heat blocking wall 5 having a cooling groove 5a on the short stem side of the base pin 4, and the inside of the base 3 is partitioned into a short stem part and two other spaces. Yes. Other configurations are the same as those of the first embodiment, and a description thereof will be omitted.
[0040]
Even if comprised as mentioned above, there exists an effect that the heat | fever on the short stem side cannot transmit to the coldest point on the long stem side like the first embodiment.
[0041]
Embodiment 3 FIG.
FIG. 5 is a view showing the third embodiment, and is a view of the base viewed from the base pin side, and a part thereof is shown in cross section. It is a top view of a circular fluorescent lamp. As shown in the figure, the base 3 is provided with a heat blocking wall 5 on the long stem side of the base pin 4, and the inside of the base 3 is partitioned into a short stem portion and other two spaces. Other configurations are the same as those of the first embodiment, and a description thereof will be omitted.
[0042]
Even if comprised as mentioned above, there exists an effect that the heat | fever on the short stem side cannot transmit to the coldest point on the long stem side like the first embodiment.
[0043]
Embodiment 4 FIG.
FIG. 6 is a diagram showing the fourth embodiment, in which the die is viewed from the die pin side, and a part thereof is shown in cross section. As shown in the drawing, the base pin 4 is moved to the short stem side, and a heat blocking wall 5 having a cooling groove 5a is provided between the base pin 4 and the long stem side. In this way, the length of the long stem space in the circumferential direction can be increased, so that the long stem side evacuation tip tube is extended to the vicinity of the heat blocking wall 5 to form the long tip tube 9.
[0044]
The heat blocking wall 5 makes it difficult for heat on the short stem side to be transmitted to the long stem side, and the long tip tube 9 is positioned in the vicinity of the heat blocking wall 5 having the cooling groove 5a, so that the tip is cooled and long The tip of the tip tube 9 becomes the coldest point, and the temperature at the coldest point is lower than when the tip tube is not lengthened.
[0045]
In the above description, the cap pin 4 is moved to the short stem side. However, the cap pin 4 is located at the center, and the long stem tip tube is located near the heat shield wall 5. May be. Even with such a configuration, the coldest spot can be formed at the tip of the long tip tube 9 and the temperature can be lowered.
[0046]
In the above-described configuration, the temperature at the coldest point at the tip of the long tip tube 9 can be further lowered by mounting the heat sink on the appliance side in the cooling groove 5a of the heat blocking wall 5.
[0047]
Embodiment 5 FIG.
FIG. 7 is a diagram showing the fifth embodiment, in which the die is viewed from the die pin side, and a part thereof is shown in cross section. As shown in the figure, silicone is provided between the heat blocking wall 5 and the tip of the long tip tube 9. As a result, the dimensional error of the long tip tube 9 can be absorbed, the contact area between the long tip tube 9 and the heat blocking wall 5 can be increased, and the temperature of the coldest point at the tip of the long tip tube 9 can be lowered. be able to.
[0048]
Embodiment 6 FIG.
FIG. 8 is a diagram showing the sixth embodiment, and shows a form in which the circular fluorescent lamp of the present invention is applied to a lighting fixture. In the figure, a lighting fixture 11 is covered with, for example, a fixture main body 13 fixed to a ceiling or the like, a circular fluorescent lamp shown in FIGS. 1 to 7 supported substantially horizontally by the fixture main body 13, and the circular fluorescent lamp 1. Thus, it is comprised from the cover 12 attached to the instrument main body 13.
[0049]
In the lighting fixture 11 configured as described above, the circular fluorescent lamp 1 has the heat insulating effect by the heat blocking wall 5, the cooling effect by the cooling groove 5 a of the heat blocking wall 5 and the heat sink, and the coldest spot by the long tip tube 9. Since the ambient temperature at which the luminous efficiency is maximized is moved to the high temperature side due to a temperature drop or the like, even in the almost sealed lighting fixture 11, the brightness and luminous efficiency on the high temperature side of the ambient temperature can be effectively improved.
[0050]
【The invention's effect】
As described above, according to the present invention, the cold spot temperature formed at the end of the long stem side glass bulb is effectively reduced, and the brightness and luminous efficiency on the high temperature side of the ambient temperature are improved. A fluorescent lamp and a circular fluorescent lamp base, a circular fluorescent lamp, and a lighting fixture can be provided.
[Brief description of the drawings]
FIG. 1 shows the first embodiment and is a plan view of a circular fluorescent lamp.
FIG. 2 is a diagram illustrating the first embodiment, and is a diagram illustrating a part of the base viewed from the base pin side in cross section.
FIG. 3 is a diagram showing the first embodiment and is a diagram showing a configuration of an end portion of the glass bulb.
FIG. 4 is a diagram showing the second embodiment, and is a diagram showing a part of the base viewed from the base pin side in a cross section.
FIG. 5 is a diagram showing the third embodiment, and is a diagram showing a part of the base viewed from the side of the base pin in cross section.
FIG. 6 is a diagram showing the fourth embodiment, and is a diagram showing a part of the base viewed from the base pin side in cross section.
FIG. 7 is a diagram showing the fifth embodiment, and is a diagram showing a part of the base viewed from the side of the base pin in cross section.
FIG. 8 shows the sixth embodiment, and shows a form in which the circular fluorescent lamp of the present invention is applied to a lighting fixture.
[Explanation of symbols]
1 circular fluorescent lamp, 2 glass bulb, 3 base, 4 base pin, 5 heat blocking wall, 5a cooling groove, 5b notch, 6 lead wire, 7 long stem, 8 short stem, 9 long tip tube, 10 silicone 11 lighting fixtures, 12 covers, 13 fixture bodies.

Claims (4)

A lamp body in which a predetermined amount of mercury and inert gas are sealed in the internal space of a circular glass bulb having a long stem with a different mount height at both ends and a short stem, and a bridge between both ends of the lamp body In a circular fluorescent lamp having a cap pin that is mounted and provided to protrude to the surface side,
A heat blocking wall is provided in the base to prevent heat on the short stem side from being transmitted to the long stem side, and the heat blocking wall has a substantially U-shaped cross section, and the inner side of the U shape. A circular fluorescent lamp having a cooling groove communicating with the outside . 2. The circular fluorescent lamp according to claim 1 , wherein a heat sink on the appliance side is fitted into the cooling groove of the heat shielding wall. A long stem portion and a base portion are partitioned by the heat blocking wall, and a long stem side tip tube is extended to the vicinity of the heat blocking wall, and a tip of the long stem side tip tube and the heat blocking wall are provided. The circular fluorescent lamp according to claim 1, wherein a silicone that absorbs a dimensional error and increases a contact area is interposed between the two. 4. The circular fluorescent lamp according to claim 3 , wherein the base portion is moved to the short stem side, the long stem portion is lengthened in the lamp circumferential direction, and the tip tube on the long stem side is lengthened.

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