JP3099368U - Reverse light source module for dual fluorescent lamp - Google Patents

Abstract

An object of the present invention is to provide a bi-fluorescent light source module that can meet the backlight demands of liquid crystal displays of many standards.
A fluorescent lamp is provided. The fluorescent lamps 10 and 20 are bent in an S-shape and have straight pipe sections 12 and 22 and connecting sections 14 and 24. The connecting portions 14 and 24 are connected to one ends of the straight pipe portions 12 and 22. The fluorescent lamps 10 and 20 are fixed on the frame 30 in parallel, the straight tubes 12 and 22 are arranged in parallel, and the distance between the two straight tubes 12 and 22 is substantially the same.
[Selection diagram] Fig. 4

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a liquid crystal display, and particularly relates to an improvement of a reverse light source module of a dual fluorescent lamp.
[0002]
[Prior art]
Liquid crystal displays are widely applied to computers, information equipment and various other display devices. A general liquid crystal display is mainly composed of a liquid crystal panel and a backlight module. Among them, the liquid crystal panel itself does not emit light, and the light source of the panel is provided by the optical module.
[0003]
The conventional backlight module is divided into two types, a direct type and a side-mounted type.The fluorescent light of the direct type backlight module is mounted below the diffusion plate, and the fluorescent light of the side mounted type backlight module is light. The guide plate is mounted on one side or several sides.
[0004]
As shown in FIG. 3, the arrangement of fluorescent lamps of the direct-type backlight module 50, which is often seen, is described in US Pat. It has some parallel side-by-side fluorescent lamps 52 as posted by 5504545. As shown in FIG. 4, another arrangement of the fluorescent lamp of the direct type backlight module 60 is disclosed in U.S. Pat. As shown by 4748546, each U-shaped fluorescent lamp 62 has two straight tube sections and articulations 66 with some parallel juxtaposed U-shaped fluorescent lamps 62. As shown in FIG. 5, the arrangement of the fluorescent lamps of the third type of direct-type backlight module 70 has a fluorescent lamp 72 that is continuously curved, and the fluorescent lamp 74 is slightly linear tube portion 74 and a linear tube. It has a connecting portion 76 connected to one end of the portion.
[0005]
Taking a 14-inch or 15-inch liquid crystal display as an example, the average luminance of the screen is required to be at least about 350 Cd / m ² . It is necessary to arrange at least six in the case of the straight tube 52 according to FIG. 3, and at least four in the case of the U-shaped fluorescent lamp 62 in FIG. 4, and only one in the case of the continuously curved fluorescent lamp 72 in FIG. The number of the shape tube portions 74 is required to be at least six.
[0006]
Regardless of the arrangement of the fluorescent lamps, it is most preferable that the number of fluorescent lamps be an even number (excluding a single fluorescent lamp), so as to avoid electromagnetic interference between the fluorescent lamps.
In principle, it is necessary to arrange one transformer for each fluorescent lamp, and there is only one electronic circuit output bus (not shown in the figure), so six transformers for a straight fluorescent lamp and six transformers for a U fluorescent lamp Four transformers are required, and only one transformer is required for a continuously curved fluorescent lamp. If a transformer has two electronic output buses, three transformers are required for a straight fluorescent lamp, two transformers are required for a U-shaped fluorescent lamp, and only one transformer is required for a continuously curved fluorescent lamp. One is good.
The number of transformers is related to the cost of the backlight module.
[0007]
Although only one transformer is required for a continuously curved fluorescent lamp, the starting voltage provided by the transformer is greater while the length of the fluorescent lamp is relatively long. Therefore, it is common to use transformers of special standards. In such a situation, the number of transformers is small, but the use of special-standard transformers increases the cost without reducing it.
[0008]
[Problems to be solved by the invention]
At present, the number of fluorescent lamp arrangements and the length of a single fluorescent lamp is a double challenge to improve the backlight module in the industry.
Therefore, the main purpose of the present invention is to effectively solve the problem of the arrangement of fluorescent lamps through the two themes of layout space and power consumption, thereby achieving a bi-fluorescent fluorescent lamp which can meet the backlight demand of a multi-standard liquid crystal display. An object of the present invention is to provide a reverse light source module for a lamp.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the inverted light source module of the dual fluorescent lamp according to the present invention includes two linear fluorescent lamps, each fluorescent lamp is bent into an S shape, three linear tube portions and two connecting tubes. Parts, of which the two connecting parts are connected to one end of two adjacent linear tube parts respectively, and the two fluorescent lamps are fixed in parallel on a frame, so that the two fluorescent lamps Are arranged in parallel, and the distance between two adjacent straight pipes is substantially the same.
[0010]
[Embodiment of the invention]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 4, the two fluorescent lamps 10 and 20 included in the dual fluorescent lamp reverse light source module 1 according to the first embodiment of the present invention are common cold cathode fluorescent lamps (Cold Cathode Fluorescent Lamps, CCFLs). The advantages are that the diameter of the lamp is small, the service life is long, and the light effect is high.
[0011]
Each fluorescent lamp 10, 20 is bent in an S-shape and has three straight tube portions 12, 22 and two connecting portions 14, 24, of which the straight tube portions 12, 22 are parallel and parallel, and The two connecting portions 14 and 24 are connected to one ends of two adjacent straight pipe portions 12 and 22, respectively. Both ends of the two fluorescent lamps 10 and 20 are connected to a power supply control device (not shown in the figure) and have electrodes 16 and 26 for generating a light source.
[0012]
The two fluorescent lamps 10 and 20 are fixed in parallel in a frame 30. The straight tube portions 12 and 22 of the two fluorescent lamps 10 and 20 are arranged in parallel and two adjacent straight tube portions. The spacing distance P between 12, 12 is almost the same.
Taking a 15-inch liquid crystal display as an example, each of the fluorescent lamps 10 and 20 in the inverted light source module of the dual fluorescent lamp according to this embodiment has a diameter of 4 mm, a total length of about 1006 mm, and a length of each of the straight tube sections 12 and 22. The length L is about 305 mm, and the distance P between the adjacent straight pipe portions 12 and 22 is 33.5 mm. The fluorescent lamps 10 and 20 are driven by the same phase and opposite voltage to reduce electromagnetic interference. With such an arrangement, the center luminance of the inverted light source module of the dual fluorescent lamp according to the first embodiment of the present invention is about 2000 Cd / m ² to 8500 Cd / m ² , and the average luminance of the liquid crystal display is 200 Cd / m ^2. Reaches 550 Cd / m ² .
[0013]
Although the number of transformers (not shown in the figure) required for the arrangement method of the inverted fluorescent light source module of the dual fluorescent lamp according to the present embodiment is two, the driving voltage required for the fluorescent lamp of such a length is an existing one. Within the loadable range of electronic components, for example, transformers. Therefore, all the transformers of the general standard can be applied to the inverted light source module of the dual fluorescent lamp according to the present embodiment.
[0014]
In practice, the inverted light source module of the dual fluorescent lamp according to the present embodiment can be applied to a liquid crystal display of 12 inches to 17 inches, and each of the fluorescent lamps 10 and 20 has a total length of 780 mm to 1200 mm and a linear shape. The length L of the tube portions 12 and 22 can be from 230 mm to 390 mm, and the distance P between two adjacent straight tube portions 12 and 22 can be from 25 mm to 45 mm. Such an arrangement method, the average luminance of the light-emitting unit is about ^{2000Cd / m 2 8500Cd / m 2} , the average luminance of the liquid crystal display reaches a 200 Cd / ^{m 2} to 550 cd / ^{m 2.}
[0015]
The inverted fluorescent light source module of the dual fluorescent lamp according to the present embodiment is best applied to a 14-inch or 15-inch display, and each of the fluorescent lamps 10 and 20 has a length of 910 mm to 1080 mm and a straight tube portion 12. , 22 can have a length L of 270 mm to 350 mm, and the spacing distance P between two adjacent straight pipe sections 12, 22 can be 28 mm to 42 mm. The average luminance of the light emitting unit is about ^{2000Cd / m 2 8500Cd / m 2} , the average luminance of the liquid crystal display reaches a 200 Cd / ^{m 2} to 550 cd / ^{m 2.}
[0016]
The advantages of this embodiment are as follows.
Since the number of transformers required for the fluorescent lamps 10 and 20 is only two (or one), space can be effectively saved, and the driving voltage of the fluorescent lamps 10 and 20 is generally Since it is close to a linear fluorescent lamp or a U-type fluorescent lamp, a transformer of a general standard can be applied.
The two S-shaped fluorescent lamps 10 and 20 can provide the necessary brightness for a 12-inch to 17-inch liquid crystal display (especially a 14-inch and 15-inch liquid crystal display) while saving the most cost. In addition, since the two fluorescent lamps 10 and 20 are symmetrical, electromagnetic interference does not occur between the fluorescent lamps.
Since the light emitting unit in this embodiment has a simple structure, it can be easily fixed on the frame 30.
[0017]
As shown in FIG. 5, the inverted light source module 2 of the dual fluorescent lamp according to the second embodiment of the present invention has almost the same structure as that of the first embodiment, and two S-shaped fluorescent lamps 42 are provided. , 46, each fluorescent lamp 42, 46 having three straight tube sections 43, 47 and two connecting sections 44, 48. In the second embodiment, the bending directions of the two fluorescent lamps 42 and 46 are the same, and in the first embodiment, the bending directions of the fluorescent lamps 10 and 20 are opposite.
[Brief description of the drawings]
FIG. 1 is a plan view showing a first type of conventional backlight module.
FIG. 2 is a plan view showing a second type of conventional backlight module.
FIG. 3 is a plan view showing a third type of conventional backlight module.
FIG. 4 is a plan view showing the inverted light source module of the dual fluorescent lamp according to the first embodiment of the present invention;
FIG. 5 is a plan view showing a reverse light source module of a dual fluorescent lamp according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Reverse light source module 10 Fluorescent lamp 20 Fluorescent lamp 12 Straight tube part 22 Straight tube part 14 Connecting part 24 Connecting part 16 Electrode 26 Electrode 30 Frame L Length of straight tube part P Distance between straight tube parts 2 Reverse Light source module 42 Fluorescent lamp 44 Fluorescent lamp 50 Backlighting module 52 Linear fluorescent lamp 60 Backlighting module 62 Fluorescent lamp 64 Linear tube 68 Connecting part 70 Backlight module 72 Fluorescent lamp 74 Linear tube 78 Connecting part

Claims (6)

One fluorescent lamp is provided with two fluorescent lamps, each fluorescent lamp is bent in an S-shape, and has three straight tube portions and two connecting portions, each of which has one end of two adjacent straight tube portions. And the two fluorescent lamps are fixed in parallel on the frame, the straight tube portions of the two fluorescent lamps are juxtaposed in parallel, and the distance between two adjacent straight tube portions is substantially equal. An inverted light source module for a dual fluorescent lamp, which is the same. The length of each fluorescent lamp is about 780 mm to 1200 mm, the length of the straight tube section is 230 mm to 390 mm, the distance between two adjacent straight tube sections is 25 mm to 45 mm, and the light emitting unit is 12 inches to 17 mm. The inverted light source module of claim 1, wherein the inverted light source module is applicable to an inch liquid crystal display. The preferred length of each fluorescent lamp is about 910 mm to 1080 mm, the preferred length of the straight tube is 270 mm to 350 mm, the distance between two adjacent straight tubes is 28 mm to 42 mm, and the light emitting unit is The inverted light source module of a dual fluorescent lamp according to claim 1, wherein the inverted light source module is applicable to a 14-inch or 15-inch liquid crystal display. The inverted light source module of claim 1, wherein the two fluorescent lamps have the same bending direction. The inverted light source module of claim 1, wherein the two fluorescent lamps have opposite bending directions. The inverted light source module of claim 1, wherein the two fluorescent lamps are driven by the same phase and opposite voltages.

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