KR20070041315A - A light source device and liquid crystal display device - Google Patents

Abstract

A light source device and a liquid crystal display device that can easily mount and replace a light source lamp and can reduce power loss. The light source device of the present invention is an external electrode type rare gas discharge lamp, respectively. A plurality of straight tube-shaped light source lamps and reflectors supported at both ends thereof, and a power supply pin that is connected to each of the external electrodes by a lamp holder mounted at one end of the light source lamp. It is fixed in a state protruding toward the other end in parallel with the light source lamp, and the power supply pin is provided on the support substrate while the light source lamp is inserted into the lamp insertion hole of the support substrate so that one end thereof is supported by the lamp insertion hole. In combination with the socket, the power supply connection of the light source lamp is achieved and at the same time the light source lamp is fixed. In the liquid crystal display device, the light source device is used as a backlight device.

Description

A light source device and a liquid crystal display device

1 is a perspective view illustrating an outline of a configuration of an example of a light source device of the present invention.

2 is a cross-sectional view of the light source device shown in FIG. 1.

3 is a perspective view illustrating an outline of a configuration of an example of a light source lamp constituting the light source device of the present invention.

4 is a cross-sectional view of the light source lamp shown in FIG. 3.

FIG. 5 is a perspective view illustrating a structure of a frame body constituting the light source device shown in FIG. 1. FIG.

6 is a cross-sectional view schematically showing a coupling state of the lamp holder and the power supply socket.

7 is an explanatory diagram schematically showing a configuration of a lamp lighting circuit in the light source device of the present invention.

8 is a perspective view schematically showing another example of the configuration of the light source device of the present invention.

It is explanatory drawing which shows the outline of the structure in an example of the light source lamp used for the conventional light source device.

<Description of the code>

10 light source device 11 frame

11A: Sidewall 11B: Sidewall

12 lamp insertion hole 13 lamp insertion hole

15: reflector 16: support bed

20: light source lamp 21: light emitting tube

22 phosphor layer 23 external electrode

24: feed pin 24A: engagement groove

25: lead wire 26: cap

27 lamp holder 30 operation circuit board

31: power supply socket 32: through hole

33: feeding part 35: projection

40: diffuser plate 41: directivity control sheet

42: diffusion sheet 50: power supply

51: lead wire 60: cold cathode fluorescent lamp

61 light emitting tube 62 electrode

63: cap 65: lead wire

66: connector 67 power supply

TECHNICAL FIELD This invention relates to the light source device used as a backlight device for liquid crystal display devices, and the liquid crystal display device provided with the said light source device, for example.

At present, for example, in some kind of backlight device of a liquid crystal display device, a cold cathode fluorescent lamp (CCFL) is used as a light source (for example, refer patent document 1).

Such a cold cathode fluorescent lamp includes, for example, a straight tube shaped light emitting tube 61, and has a pair of electrodes at both end positions in the light emitting tube 61. As shown in FIG. 62 is arranged so as to face each other.

The cylindrical insulating cap 63 is attached to the both ends of the light emitting tube 61, and the lead wire 65 is guide | induced through the cap 63. As shown in FIG. At the tip of the lead wire 65, for example, an electrical connection connector 66 connected to a power supply device 67 that applies a continuous high frequency voltage or a pulsed high frequency voltage to the electrode 62 is attached.

In addition, in manufacturing the light source device provided with such a cold cathode fluorescent lamp 60 as a light source lamp, the cold cathode fluorescent lamp 60 is planar lamp mounting surface in the box-shaped frame member, for example. The lamp fixing member having a tubular accommodating portion suitable for the outer diameter of the cap 63 mounted on the light emitting tube 61 is prepared in the prior art, and the both ends of the light emitting tube 61 are provided in the accommodating portion of the fixing member. The cap 63 is fixed in the inserted state, and the two fixing members fixed to both ends of the light emitting tube in this manner are inserted into a pair of sockets provided at predetermined positions on the lamp mounting surface to position the corresponding light source lamp. A method of supporting in a determined state and fixing with, for example, a fixing screw is adopted.

<Patent Document 1> Japanese Patent Application Laid-Open No. 2005-251425

However, there is the following problem in the mounting structure of such a light source lamp.

For example, when the replacement of the light source lamp is necessary, disassembling to the state where the light source lamp is visible, and at the same time, it is necessary to release the screws of the two fixing members, which makes the lamp replacement work very complicated and laborious. . Moreover, also when manufacturing a light source device, there exists a problem that a number of processes increases and high productivity cannot be obtained.

Further, since the lead wires are drawn from both ends of the light source lamp, the processing distance of the lead wires becomes long, so that not only the problem of leakage of high frequency current due to the increase of stray capacitance, but also the power loss becomes large.

This invention is made | formed in accordance with the above circumstances, and an object of this invention is to provide the light source device which can perform the mounting and replacement | exchange operation | work of a light source lamp easily.

Further, another object of the present invention is to provide a light source device capable of reducing power loss.

Still another object of the present invention is to provide a liquid crystal display device comprising the light source device and which can be easily manufactured.

A light source device of the present invention is a light source device in which a plurality of straight-shaped light source lamps are arranged in a state where both ends thereof are supported, and a reflector is arranged behind the light source lamp.

The light source lamp includes a straight tube light emitting tube in which a rare gas is enclosed therein, a phosphor layer formed on an inner surface of the light emitting tube, and a pair of external electrodes arranged to extend in a tube axis direction from an outer surface of the light emitting tube. And a rare gas discharge lamp having a pair of feed pins that conduct with each of the external electrodes,

A lamp holder is attached to one end of the light source lamp, and the power supply pin is fixed by the lamp holder in a state in which it protrudes toward the other end of the light source lamp in parallel with the light source lamp.

The light source lamp is inserted into a lamp insertion hole formed in a support substrate made of an insulating material, and in a state where one end is supported by the lamp insertion hole, the feed pin is engaged with a power supply socket provided in the support substrate, thereby feeding the light source lamp. The light source lamp is fixed at the same time that the connection is achieved.

In the light source device of the present invention, there is provided an opposing support substrate that opposes the support substrate, on which a lamp fitting hole corresponding to each of the lamp insertion holes in the support substrate is formed.

The other end of the light source lamp can be configured to be supported by the lamp fitting hole.

The liquid crystal display device of the present invention is characterized in that the above light source device is used as a backlight device.

(The best mode for carrying out the invention)

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated, referring drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The perspective view which shows the outline of the structure in an example of the light source device of this invention, and FIG. 2 is sectional drawing of the light source device shown in FIG.

This light source device 10 has a rectangular frame body 11 including sidewalls 11A functioning as a supporting substrate on which a plurality of lamp insertion holes 12 are formed, and an outward side of the lamp insertion hole 12, respectively. And a plurality of straight tube-shaped light source lamps 20 which are inserted from each other and supported at one end by the lamp insertion hole 12, and a reflector 15 provided behind the light source lamp 20 with respect to the light irradiation direction. In this embodiment, for example, four light source lamps 20 are arranged to extend in parallel at positions arranged apart from each other, and each of the other ends is formed on the side wall 11B that functions as an opposing support substrate, respectively. It is inserted into the lamp fitting hole 13 corresponding to the lamp insertion hole 12 of this, and is supported by this lamp fitting hole 13. In addition, each light source lamp 20 is supported by the support base 16 in the vicinity of the center part in the tube axis direction.

And the diffusion plate 40, the directional control sheet 41, and the diffusion sheet 42 are overlapped in this order with respect to the light irradiation direction in the opening of the front side of the light irradiation direction in the frame body 11, and is formed. Here, as a material which comprises the diffusion plate 40, the directional control sheet 41, and the diffusion sheet 42, what is conventionally used suitably can be illustrated.

Each of the light source lamps 20 is a noble gas discharge lamp of an external electrode type, and as shown in FIGS. 3 and 4, for example, a straight tube light emitting tube having both ends sealed with a glass tube ( 21, and the phosphor layer 22 is formed over substantially the entire inner surface of the light emitting tube 21, and the outer surface of the light emitting tube 21 extends in the tube axis direction in parallel with each other, respectively. A pair of external electrodes 23 are formed, and rare gas is sealed inside the light emitting tube 21.

The external electrode 23 is constructed by, for example, cutting an aluminum tape having a width of 1 mm and attaching it to an opposing position in which the lamp central axis is fitted on the outer surface of the light emitting tube 21. In addition, the external electrode 23 may be formed by, for example, screen printing and baking the conductive paste.

One end of the external electrode 23 is electrically connected to a feed pin 24 made of a metal having good conductivity through the lead wire 25.

As a rare gas enclosed in the light emitting tube 21, xenon gas or the mixed gas of xenon and another rare gas can be illustrated, for example, The sealing amount is 17 kPa, for example.

At one end of the light source lamp 20, a cylindrical cap 26 made of an insulating material is attached to cover the junction between the external electrode 23 and the lead wire 25, and is made of, for example, a synthetic resin. A substantially rectangular box-shaped insulated lamp holder 27 is fitted and the pair of feed pins 24 are directed toward the other end of the light source lamp 20 from the end face of the lamp insertion portion side in the lamp holder 27. In the state which protrudes and extends parallel to the lamp 20, it is in the state fixed to the lamp holder 27. As shown in FIG.

Here, the contacts of the external electrode 23 and the lead wire 25, the contacts of the lead wire 25 and the power feeding pin 24, and the lead wire 25 are all accommodated inside the lamp holder 27 so that the lamp holder 27 may be closed. Since it is in the state which is not exposed to the exterior, favorable electrical insulation with respect to the frame body 11 can be ensured by this. Moreover, when the structure which insulating resin was inject | poured and filled in the inside of the lamp holder 27 is made into a structure, insulation becomes high and it is suitable.

In addition, since one end of the light source lamp 20 is covered with the insulating cap 26, the insulation with the frame 11 can be maintained even when electric power is supplied from the inverter.

When one example of the configuration of the light source lamp 20 is shown, for example, the material of the light emitting tube 21 is hard glass, the outer diameter is 8.0 mm, the thickness is 0.4 mm, and the total length is 500 mm.

The frame body 11 is comprised by the white molded object which consists of insulating materials, such as polycarbonate, for example.

The reflector 15 is, for example, a white sheet made of plastic such as polypropylene or polycarbonate, and is provided on the bottom of the frame 11.

As shown in FIG. 5, on the side wall 11A functioning as the support substrate in the frame 11, an operating circuit board 30 having printed wirings electrically connected to a power supply device (not shown) formed on one surface thereof. This surface is provided with the surface facing the frame body 11 side, and the lamp insertion hole 12 and the lamp insertion hole 32 which are almost the same type as the lamp insertion hole 12 are formed in the other surface of the operation circuit board 30. The power supply socket 31 which has is provided. In the periphery of the through hole 32 of the socket 31 for electric power feeding, the power feeding part 33 which accommodates the power feeding pin 24 is provided.

In this light source device 10, the frame body 11 and the reflective member 15 including the side wall 11A supporting one end of the light source lamp 20 and the side wall 11B supporting the other end are used as the reflection unit. The light source lamp 20 which is comprised and the lamp holder 27 is attached to one end is outward from the lamp insertion hole 12 of the side wall 11A in the frame body 11 which comprises the reflection unit in the other end side. It is inserted from the side and is inserted into the lamp fitting hole 13 of the side wall 11B in the frame 11, one end of the light source lamp 20 is supported by the lamp insertion hole 12, and the other end thereof is the lamp. In the state supported by the fitting hole 13, a pair of feed pins 24 are coupled to the feed section 33 of the socket 31 for power supply, whereby the lamp holder 27 and the light source lamp 20 ) Rotation is regulated, and movement in the tube axis direction is also regulated so that the light source lamp 20 is positioned and fixed to the reflection unit. In addition, since the light source lamp 20 is substantially supported by the support claws 16 in the lamp tube axis direction, the light source lamp 20 is fixed in a stable posture in which bending of the light emitting tube 21 is suppressed. have.

In this example, as shown in FIG. 6, the engaging groove 24A is formed in the feed pin 24, and elastic projections 35, such as an engagement screw, are provided in the feed part 33, for example. As a result, the fixed state of the power supply pin 24 is stabilized, and the coupling reliability of the lamp holder 27 and the power supply socket 31 is increased.

And according to the light source device 10 of the said structure, the light source lamp 20 is inserted in the lamp insertion hole 12 in the frame 11 from the outer side, and one end is supported by the lamp insertion hole 12. At the same time, while the other end is supported by the lamp fitting hole 13, the feed pin 24 is coupled to the socket 31 for feeding, so that the feeding connection is achieved and the light source lamp 20 is fixed, so that the light source lamp The 20 can be attached very easily, and the light source lamp 20 can also be easily replaced.

In the configuration of the lamp lighting circuit, for example, as shown in FIG. 7, the lead wire 51 is drawn from one end of the light source lamp 20 so that the lead wire 51 is concentrated at one end. Since it can be set as the structure connected to the power supply device 50, as a result of shortening the process distance of the lead wire 51, electrical loss can be suppressed small compared with the light source device shown in FIG. 9, for example.

The light source device 10 described above is used as a backlight device in, for example, a liquid crystal display device. For example, when used as a backlight device of a 32-inch liquid crystal display device, for example, ten light source lamps 20 are used.

According to the above light source device 10, it is possible to provide a liquid crystal display device which can be easily manufactured and which can easily perform a replacement operation of a light source lamp.

As mentioned above, although embodiment of this invention was described, this invention is not limited to said embodiment, A various change can be added.

For example, the support structure of the other end of the light source lamp is not limited to the structure of the fitting hole as long as the support structure can be supported while the linearity of the light source lamp is maintained.

The number of light source lamps is not particularly limited and can be appropriately changed depending on the purpose.

In addition, in the rare gas discharge lamp used as the light source lamp according to the present invention, mercury is not enclosed in the light emitting tube. For example, as illustrated in FIG. 8, the tube axis of the light source lamp 20 is perpendicular to the vertical direction ( The structure (vertical lighting type) supported by the posture extended to the up-down direction in FIG. 8 can be made, and even if it is such a structure, the desired light irradiation characteristic of a light source lamp can be obtained reliably.

According to the light source device of the present invention, the power supply pin is inserted into the lamp insertion hole formed in the support substrate and the feed pin is coupled to the power supply socket while one end is supported by the lamp insertion hole, thereby achieving a power supply connection. Since the light source lamp can be fixed, the light source lamp can be mounted very easily, and the light source lamp can be easily replaced.

In addition, since the lead wire connected to the external electrode can be derived from one end of the light source lamp, the lead wire can be concentrated and the processing distance can be shortened. As a result, the electrical loss can be reduced smaller than that of the conventional light source device. Can be.

According to such a light source device, it is possible to provide a liquid crystal display device that can be easily manufactured and that the light source lamp can be easily replaced.

Claims (3)

A light source device in which a plurality of straight tube shape light source lamps are arranged, and a reflector is arranged behind the light source lamp. The light source lamp includes a straight tube light emitting tube in which a rare gas is enclosed therein, a phosphor layer formed on an inner surface of the light emitting tube, and a pair of external electrodes arranged to extend in a tube axis direction from an outer surface of the light emitting tube. And a rare gas discharge lamp having a pair of feed pins that conduct with each of the external electrodes, A lamp holder is attached to one end of the light source lamp, and the lamp holder is fixed in such a state that the power supply pin protrudes toward the other end of the light source lamp in parallel with the light source lamp. The light source lamp is inserted into a lamp insertion hole formed in a support substrate made of an insulating material, and the light source device is coupled to a power supply socket provided on the support substrate in a state where one end thereof is supported by the lamp insertion hole. The said support substrate of Claim 1 provided with the opposing support substrate in which the lamp insertion hole corresponding to each of the lamp insertion holes in the said support substrate was formed, A light source device, wherein the other end of the light source lamp is supported by the lamp fitting hole. The liquid crystal display device in which the light source device according to claim 1 or 2 is used as a backlight device.

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