JPH0855608A - Miniaturized fluorescent tube apparatus - Google Patents

Abstract

PURPOSE:To improve the rising characteristic, by providing spacers sandwiched between the outside circumferential surface of a miniaturized fluorescent tube 10 housed in a box-shaped case and the inside surface of the box-shaped case so that the two surfaces are kept apart from each other. CONSTITUTION:Holding means 22 consist of projecting parts which protrude toward housing space P at the front side of both ends of a box-shaped case 21 in such a manner that the projecting parts approach each other. A miniaturized fluorescent tube 10 housed in the case 21 is held in the holding space P by being sandwiched between the means 22. Sandwiching the tube 10 between the means 22 at the coldest parts of the tube 10 brings about less heat loss and faster rise of luminance. Spacers 23 are formed in one body with the case 21 and are put between the rear side of an outside circumferential surface of the tube 10 and the inside surface of the case 21 on both end parts or the case 21 so that the two surfaces are kept apart from each other. Further, setting the spacers 23 to touch the tube 10 at positions other than the coldest parts of the tube 10 decreases heat loss out of the coldest parts. Heat is thereby utilized efficiently to warm up the tube, and as a result, faster rise of luminance is brought about.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small fluorescent tube device characterized by a structure for holding a fluorescent tube, and is particularly suitable for use as a light source for backlights of liquid crystal panels, a light source for scanners, and a light source for general illumination. The present invention relates to a small fluorescent tube device.

[0002]

2. Description of the Related Art Small fluorescent tubes are widely used as a light source for backlights of liquid crystal panels such as personal computers, word processors and liquid crystal televisions. Such a small fluorescent tube is provided with a lead rod made of, for example, Dumet wire so as to extend along the tube axis through the sealing portions formed at both ends of the tubular sealing body. An electrode is provided at the inner end.

On the other hand, such a small fluorescent tube is housed in a holder made of synthetic resin or the like, and a portion of the lead rod located outside the sealing body is electrically connected to a power supply terminal provided in the holder. To be done.

FIG. 1A is a front view showing a conventional small fluorescent tube device comprising a small fluorescent tube and a holder, and FIG. 1B is a sectional view taken along the line AA in FIG. is there. In FIG. 1, 1 is a rod-shaped small fluorescent tube, 2 is a small fluorescent tube 1.
It is a holder to store. The small fluorescent tube 1 is held by the holder 2 by connecting the outer end portion of the lead rod 3 to a terminal 4 provided on the holder 2. FIG.
As shown in (b), the inner surface of the holder 2 is formed along the shape of the outer peripheral surface of the small fluorescent tube 1, and a reflective mirror (not shown) is integrally provided on the inner surface of the holder 2. There is.

[0005]

However, the small fluorescent tube device having the structure as shown in FIG. 1 has a problem that the luminance rises slowly and that it takes a long time to reach the saturated luminance especially in a low temperature environment. is there. This problem is considered to occur due to the following reasons. That is, in FIG. 1B, since the outer peripheral surface of the small fluorescent tube 1 and the inner peripheral surface of the holder 2 are in surface contact with each other, of the electric power input to the small fluorescent tube 1 at the start of lighting, Most of what should be used as heat for raising the temperature of the small fluorescent tube 1 moves to the holder 2 side by heat conduction via the contact surface and is finally radiated from the holder 2, so that the small fluorescent This is because the temperature of the tube 1 cannot be raised quickly. Here, according to the experiments conducted by the present inventors, the small fluorescent tube held in the holder as shown in FIG. 1 has a luminance rising time four times or more as compared with that of the small fluorescent tube not held in the holder. Was confirmed.

When the small fluorescent tube device having the above-mentioned structure is mounted as a light source for a backlight of a liquid crystal television, it takes 2 minutes or more from turning on the switch until an image with stable brightness is obtained. It also takes (0 ° C).

The present invention has been made based on the above circumstances. It is an object of the present invention to provide a small fluorescent tube device having excellent brightness rising characteristics, particularly rising characteristics in a low temperature environment. Another object of the present invention is to provide a small fluorescent tube device that can be suitably used as a light source for a backlight of a liquid crystal panel.

[0008]

In order to improve the rising characteristics of the brightness in a small fluorescent tube device, the small fluorescent tube housed in the holder suppresses heat loss at the time of starting and increases the temperature rising rate. It is necessary to. Therefore, the present inventor has conducted extensive studies on means capable of efficiently using the electric power input to the small fluorescent tube as heat for raising the temperature of the small fluorescent tube, and as a result, has completed the present invention. I arrived.

That is, the small fluorescent tube device of the present invention is a small fluorescent tube comprising a rod-shaped small fluorescent tube (10) and a resin or ceramic holder (20) for holding the small fluorescent tube (10). A device, wherein the holder (20) is
A box-shaped case (21) with an open front that houses the small fluorescent tube (10), and a small fluorescent tube housed in the box-shaped case (21) in front of both ends of the box-shaped case (21). A holding means (22) for holding both ends of (10), and an outer peripheral surface of the small fluorescent tube (10) housed in the box-shaped case (21) at both ends of the box-shaped case (21). It is characterized in that it has a spacer (23) which is interposed between the inner surface of the box-shaped case (21) and separates these two surfaces.

Further, the small fluorescent tube device of the present invention preferably comprises a reflecting mirror having a reflecting surface extending along the outer peripheral surface of the small fluorescent tube.

Further, it is preferable that the small fluorescent tube device of the present invention has a film-shaped reflection mirror, and the film-shaped reflection mirror constitutes a part of the box-shaped case.

It is preferable that the sandwiching means sandwiches both end portions of the small fluorescent tube other than the coldest point (the point where the tube wall temperature becomes the lowest). Further, it is preferable that the spacers are in contact with both ends of the small fluorescent tube and other than the coldest spot.

[0013]

[Action]

(1) By the spacers provided at both ends of the box-shaped case, the outer peripheral surface of the small fluorescent tube and the inner surface of the box-shaped case do not come into surface contact with each other, and the heat is substantially transferred from the small fluorescent tube to the holder. Be shut off. Therefore, at the start of lighting, the electric power input to the small fluorescent tube is efficiently used as heat for raising the temperature of the small fluorescent tube, and the small fluorescent tube rapidly rises in temperature. This makes it possible to improve the brightness rising characteristics. Further, the resin and the ceramic are materials having a low thermal conductivity, and since the holder is made of such a material, heat conduction from the small fluorescent tube to the holder can be further suppressed. (2) The use efficiency of the light emitted from the small fluorescent tube can be increased by the reflection mirror. (3) Since the box-shaped case is partially configured by the film-shaped reflection mirror, the weight of the device can be reduced. (4) Since the holding means and the spacer are in contact with the tube wall portion of the small fluorescent tube other than the coldest spot, heat loss from the coldest spot is prevented and the temperature at the coldest spot becomes too low. As a result, the rise of brightness can be accelerated.

[0014]

Embodiments of the present invention will be described below. Example 1 FIG. 2 (a) is a front view showing an example of a small fluorescent tube device of the present invention, FIG. 2 (b) is a front view of a holder constituting this small fluorescent tube device, and FIG. 2B is a sectional view taken along line BB in FIG. 2A, and FIG. 2D is a sectional view taken along line CC in FIG.

The small fluorescent tube device of this embodiment comprises a small fluorescent tube 10 and a holder 20.

The small fluorescent tube 10 is a hot cathode type small fluorescent tube having an outer diameter of 3.15 mm, an inner diameter of 2.35 mm and a total length of 100 mm. The small fluorescent tube 10 is provided with lead rods 11 and 12 made of Dumet wire so as to extend through both ends of the tubular encapsulant. Electrodes (not shown) are arranged on the inner ends of the lead rods 11 and 12, and the outer ends of the lead rods 11 and 12 are electrically connected to terminals 31 and 32 provided on the holder 20. .

The holder 20 is a molded product made of, for example, a polycarbonate resin, and is composed of a box-shaped case 21, a holding means 22, and a spacer 23.

Box-shaped case 21 which constitutes the holder 20
Has an accommodation space P for accommodating the small fluorescent tube 10 and is open at the front [left side in FIGS. 2C to 2D]. A reflection mirror (not shown) is formed on the inner surface of the box-shaped case 21 by, for example, aluminum vapor deposition.

The holding means 22 constituting the holder 20 is
The storage space P is provided in front of both ends of the box-shaped case 21.
It is composed of a pair of projecting members that project toward each other toward each other. Small fluorescent tube 10 housed in box-shaped case 21
Is held in the storage space P by holding both ends thereof by the holding means 22. It is preferable that the sandwiching means 22 sandwiches the portion of the small fluorescent tube 10 other than the coldest spot from the viewpoints of reducing heat loss and speeding up the rise of luminance.

Spacer 23 constituting the holder 20
Is provided integrally with the box-shaped case 21, and is interposed between the rear outer peripheral surface of the small fluorescent tube 10 and the inner surface of the box-shaped case 21 at both ends of the box-shaped case 21. The two surfaces are separated. In addition, spacer 2
No. 3 is preferably brought into contact with a portion of the small fluorescent tube 10 other than the coldest spot from the viewpoint of reducing heat loss from the coldest spot.

Here, the shape of the spacer is not particularly limited, and for example, a projecting member (2 shown in FIG. 3) projecting into the storage space P at both ends of the box-shaped case.
4a, 24b, 24c) may constitute a spacer.

According to the small fluorescent tube device of this embodiment, since the spacer 23 is provided between the rear outer peripheral surface of the small fluorescent tube 10 and the inner surface of the box-shaped case 21, the small fluorescent tube 10 is The transfer of heat to the holder 20 is substantially blocked. As a result, the electric power input at the start of lighting is efficiently used as heat for raising the temperature of the small fluorescent tube 10, and the brightness rising characteristic can be improved.
Specifically, in a low temperature environment of 0 ° C., the saturated brightness is 5
The time required to reach 0% was 200 seconds in the conventional case (for example, the apparatus having the configuration shown in FIG. 1), but was shortened to 80 seconds in the apparatus of this example.

<Embodiment 2> FIG. 4A is a front view showing another example of the small fluorescent tube device of the present invention, and FIG. 4B is a rear view of this small fluorescent tube device. (C) is a DD cross-sectional view of FIG.

The small fluorescent tube device of this embodiment comprises a small fluorescent tube 50 and a holder 60. The small fluorescent tube 50 has the same configuration as the small fluorescent tube 10 shown in FIG. The small fluorescent tube 50 is provided with lead rods 51, 52 made of dumet wire so as to extend through both ends of the tubular encapsulant, and the outer ends thereof are provided with terminals 71, It is electrically connected to 72.

The holder 60 is composed of a box-shaped case 61, a holding means 62, and a spacer 63.
The box-shaped case 61 that constitutes the holder 60 has a storage space P for storing the small fluorescent tube 50, and is located in the front [Fig.
The left side in (c) is the opened member. The box-shaped case 61 includes a frame member 64 and a film-shaped reflection mirror 65, and the reflection mirror 65 is made of, for example, a polycarbonate resin film. As described above, since the box-shaped case 61 is partially configured by the film-shaped reflection mirror 65, the weight of the device can be reduced.

The holding means 62 and the spacer 63 constituting the holder 60 have the same structures as the holding means 22 and the spacer 23 shown in FIG. 2, respectively.

According to the small fluorescent tube device of this embodiment, since the spacer 63 is provided between the rear outer peripheral surface of the small fluorescent tube 50 and the inner surface of the box-shaped case 61, The heat transfer to the holder 60 is substantially blocked. As a result, the electric power input at the start of lighting is efficiently used as heat for raising the temperature of the small fluorescent tube 50, and the brightness rising characteristic can be improved.
Specifically, in a low temperature environment of 0 ° C., the saturated brightness is 5
The time required to reach 0% was 220 seconds in the conventional case (for example, the apparatus having the configuration shown in FIG. 1), but was shortened to 80 seconds in the apparatus of this example.

[0028]

In the small fluorescent tube device of the present invention, the small fluorescent tube and the holder constituting the small fluorescent tube device are thermally insulated, so that the electric power input to the small fluorescent tube heats up the small fluorescent tube. It is efficiently used as heat for heating, and has excellent brightness rising characteristics, particularly in a low temperature environment. The small fluorescent tube device of the present invention can be preferably used as a light source for a backlight of a liquid crystal panel.

[Brief description of drawings]

FIG. 1 is a front view and a cross-sectional view showing a conventional small fluorescent tube device.

2A is a front view showing an example of the small fluorescent tube device of the present invention, FIG. 2B is a front view of a holder constituting this small fluorescent tube device, and FIG. BB sectional drawing, (d) is CC sectional drawing in (a).

FIG. 3 is an explanatory diagram showing an example of the shape of a spacer.

4A and 4B are front and rear views showing another example of the small fluorescent tube device of the present invention, and FIG.
It is a DD sectional view in (b).

[Explanation of symbols]

 10 Small Fluorescent Tube 11, 12 Lead Rod 20 Holder 21 Box Case 22 Clamping Means 23 Spacer 31, 32 Terminals 50 Small Fluorescent Tube 51, 52 Lead Rod 60 Holder 61 Box Case 62 Clamping Means 63 Spacer 64 Frame Member 65 Reflection Mirror 71, 72 terminals

Claims (3)

[Claims] 1. A small fluorescent tube device comprising a rod-shaped small fluorescent tube (10) and a resin or ceramic holder (20) for holding the small fluorescent tube (10). ) Contains a small fluorescent tube (10),
A box-shaped case (21) with an open front, and a clamp for clamping both ends of the small fluorescent tube (10) housed in the box-shaped case (21) in front of both ends of the box-shaped case (21). Means (22), and an outer peripheral surface of the small fluorescent tube (10) housed in the box-shaped case (21) at both ends of the box-shaped case (21),
A small fluorescent tube device comprising: a spacer (23) interposed between the inner surface of the box-shaped case (21) and the inner surface of the box-shaped case (21). 2. The small fluorescent tube device according to claim 1, further comprising a reflecting mirror having a reflecting surface extending along the outer peripheral surface of the small fluorescent tube. 3. The small fluorescent tube device according to claim 2, further comprising a film-shaped reflection mirror, wherein the film-shaped reflection mirror constitutes a part of a box-shaped case.