액정 디스플레이 장치용 발광 유닛 및 그를 구비한 액정 디스플레이 장치

Hereinafter, with reference to the attached drawing by using the features of the present invention in the embodiment for the SFC substrate. In the embodiment described hereinafter is to aid in the understanding of the invention and revealing the illustratively, the other embodiment in the embodiment described herein the present invention refers to a wide variety may be the will will be deformed. But, in the present invention hereinafter described in, publicly known function or component description is the subject matter of invention related specifically judged that the molding can be breach of haze description and specific shown in other. In addition, to aid in the understanding of the invention shown in the attached drawing number might but some components is exaggerated dimensions of chamber can be illustrated.

In various aspects of the present invention number 1 to number 3 in the embodiment according to light emitting unit also 1 to 2c etc. also seen.

First, according to one example of the present invention the edge type panel assembly regarding as follows.

The reference also 1, edge type panel assembly (100) is provided on the top chassis (110), edge type panel assembly bottom chassis receiving various components (120), a top chassis (110) on the bottom chassis (120) between the intermediate mould part (130) and the driving substrate (210) source part (220) light-emitting unit (200) comprises.

The bottom chassis (120) is heat sink (160) equipped with, heat sink (160) of the light-emitting unit (200) is combined with each other. Heat sink (160) is metal (e.g., aluminum) with high thermal conductivity properties.

The bottom chassis (120) of the light-emitting unit (200) for converting light beams emitted from the light guide plate ore source (170) which are provided with, light guide plate (170) of a lower end edge type panel assembly (100) rear view negative optical loss to prevent reflecting sheet (175) is combined with each other.

Intermediate mould part (130) includes a top chassis (110) on the bottom chassis (120) on together with edge type panel assembly (100) part of components are retained. To this end intermediate mould part (130) is edge type panel assembly (100) disposed at least one edge area in top chassis (110) on the bottom chassis (120) disposed thereon between.

Light guide plate (170) light guide plate heater (170) for diffusing the scattered light from the diffusion sheet (180) with a, diffusion sheet (180) heater optical part to the reflecting sheet (185) and DBEF (dual brightness enhancement film) sheet (190) sequentially disposed thereon.

The bottom chassis (120) in a rear part of the DBEF sheet (190) facing the liquid crystal display panels (195) are mounted. Liquid crystal panel (195) comprises a light emitting unit (200) from light color picture display as follows. To this end liquid crystal panel (195) (not shown) thin film transistor substrate having a color filter having color transmission widow (not shown) which thin film [...] engine, (not shown) they are respectively the color filter substrate and TFT first substrate. Liquid crystal panel (195) is well known for the and second details description for dispensed to each other.

Hereinafter, with reference to the also 2a to 2c also, the light emitting unit of the present invention number 1 to number 3 in the embodiment according to it is as follows.

Number 1 in the embodiment according to the light emitting unit (200) transistor (210) source part (220) having a predetermined wavelength.

The driving substrate (210) to the light source unit (220) corresponding to the drive, heat sink (160) mounted on, a light source unit (220) a drive substrate (210) mounted, CLK3 light.

A light source unit (220) includes one of a driving substrate (210) to be mounted on the receiving member (230) on, receiving member (230) and a light source mounted within (240) and, light source (240) and a distance away receiving member (230) mounted on the fluorescent member (251) having a predetermined wavelength.

The fluorescent member (251) equipped with a light source unit (220) includes plural driving substrate (210) and a two-piece distance with each other in the fitting.

Light source (240) regarding the light guide plate (170) toward other upwardly and substrate. The LED in the light source including LED chips with a but in the embodiment, in the embodiment hi other types of sources are applied in other alternative disapproval.

The fluorescent member (251) is known it can be various types of the fluorescent member is applied, the recent combined with each other as in the embodiment of the phosphor in the soybean quantum dart (Quantum Dot).

[...] dart (Quantum Dot, quantum dots) is light wavelengths shorter smaller particles occurs, generating larger particles of nano material 10 provided 15 nm of the long wavelength light as, both by controlling the particle size of light in the visible region can then be mixed. Dart quantum material can be to realize a color itself, by variation of the wavelength of the light is easily number [...] chromatic reappearance ratio and light up plots.

Only, heat and oxygen to communicate with the servers having dart quantum characteristics, as the phosphor dart quantum for X-ray imaging member (251) is capable of breaking the material (glass, such as barrier film) oxygen are used. And, the fluorescent member (251) when the glass tube is in using, for ensuring sealing glass tube both oxygen may be blocked to 2000.

Receiving member (230) formed at one side of the fluorescent member (251) in which is mounted the fluorescent member mounting portion (260) are integrally formed.

The fluorescent member mounting portion (260) is the fluorescent member (251) mounted light source (240) and the fluorescent member (251) can be spaced distance formed between position.

Wherein the fluorescent member mounting portion (260) is the fluorescent member (251) shape both ends of each of the mounting groove (260a) formed therein. The fluorescent member (251) is also shown in direction 2 A fluorescent member mounting portion (260) is inserted into both ends mounting groove (260a) fit to the fitting. Therefore, the fluorescent member mounting portion (260), i.e., receiving member (230) which can be elastically deformed to a crystal material is preferably including may have. As an alternative in the embodiment, the fluorescent member (251) is mounting groove (260a) fit to pivotably mounted such as bonded adhesive number instead of mounting as well.

Light source (240) and the fluorescent member (251) is between spaced, receiving member (230) as shown in the variation is also 1, light source (240) and the fluorescent member (251) space between formed therein.

Light source (240) when irradiated with an aperture, light the fluorescent member (251) due to the light guide plate (170) side not multi-receiving member (230) of light source (240) side when directed flow tides. In this case, light is also 1 on a light source (240) and the fluorescent member (251) disposed between the receiving member (230) made of a transparent upper and lower surface (recycling) occurs is again the fluorescent member (251) through the light guide plate (170) irradiated side to be coated.

In the embodiment according to the fluorescent member (251) comprises a light source (240) without direct contact, are disposed at a distance between each other in, light source heat (240) to the fluorescent member (251) is not direct contact. Because, in the embodiment according to the light emitting unit (200) is, the fluorescent member (251) due to the heat of the ramped be, continuously maintain its performance can be made.

In addition, in the embodiment according to the fluorescent member (251) comprises a light source (240) mounted receiving member (230) integrally mounted bar, the fluorescent member (251) for fixing receiving member (230) other than additional fixing structure is not disclosed.

Subsequently, in the embodiment according to edge type panel assembly of the present invention with other light emitting unit is described substrate. In the embodiment with the above-mentioned in the embodiment is the same in structure in each subjected to a component having a same references as and defines, redundant dispensed or simplify description, to explain about the difference in the less than 1000.

The light emitting unit of the present invention number 2 in the embodiment according to it is as follows.

The reference also 2b, of the present invention number 2 in the embodiment according to the light emitting unit (200) is the fluorescent member (252) is light source (240) at least one than the number of intervals combined with each other. The two light sources in the embodiment 5 in (240) and 2 of the fluorescent member (252) is combined with each other. This is only an exemplary only, the fluorescent member (252) the number of light source (240) is less than the number of adjustable knob disclosed.

When viewed in the drawing, disposed on the top of the fluorescent member (252) of the fluorescent member mounting portion is 3 (260) mounted, a lower the fluorescent member (252) of the fluorescent member mounting portion is 2 (260) are mounted.

Of the present invention number 2 in the embodiment lighting unit (200) in, the fluorescent member (252) is light source (240) with such a receiving member (230) than the number of normal, the fluorescent member number tank first pair the fluorescent member number bath can be costs.

And, the light emitting unit of the present invention number 3 in the embodiment according to it is as follows.

The reference also 2c, of the present invention number 3 in the embodiment according to the light emitting unit (200) comprises a plurality of receiving member (230) the d the fluorescent member mounting portion (260) driving substrate (210) longitudinal along one fluorescent member (253) is mounted thereto.

To the light-emitting units of the present invention number 3 in the embodiment (200) in one fluorescent member (253) only for mounting, the fluorescent member (260) number of reservoir and easy installation via the network.

In lamps of the present invention number 4 to number 6 in the embodiment according to 4c also 3 also to light emitting unit etc. various aspects seen with panel assembly.

According to one example of the present invention the lamps panel assembly regarding as follows.

The reference also 3, direct-panel assembly (500) is, edge type panel assembly and alternatively, the light emitting unit (200) is the bottom chassis (120) side of combined with each other.

The light emitting unit (200) driving substrates (210) above the lower portion of the heat sink (160) equipped with, heat sink (160) to the lower side reflecting sheet (175) is disposed thereon.

And, lamps panel assembly (500) includes a light emitting unit (200) is arranged in a lower section of upper light directly to, edge type panel assembly with in the light without requiring the plate, instead of the light guide plate, the light emitting unit (200) so uniformly diffuse the light irradiated from the, diffusion plate supporting an upper sheet (550) is combined with each other.

Hereinafter, with reference to the 4a to 4c also also, the light emitting unit of the present invention number 4 to number 6 in the embodiment according to it is as follows.

Of the present invention number 4 in the embodiment according to the light emitting unit (200) is, such as number 1 in the embodiment, each the fluorescent member (256) is the individual light sources (240) to be simply a plurality is provided in a number of, each receiving member (230) with each the fluorescent member mounting portion (260) are mounted.

Because, in the embodiment according to the fluorescent member (256) also, such as number 1 in the embodiment, the fluorescent member (256) is light source (240) not in direct contact with, light source heat (240) from direct thermal contact and thus enlarges, the fluorescent member (256) heat deterioration of characteristics pipe joint. In addition, the fluorescent member (256) is light source (240) mounted receiving member (230) integrally mounting, the fluorescent member (256) for fixing receiving member (230) other than additional fixing structure is not disclosed.

The light emitting unit of the present invention number 5 in the embodiment according to it is as follows.

The reference 4b also, the light emitting unit (200) is, as line number 2 in the embodiment, the fluorescent member (257) is the individual light sources (240) at least one than the number of intervals combined with each other. Also in the in the embodiment, two light sources 5 (240) and 2 of the fluorescent member (257) is combined with each other. This is only an exemplary only, the fluorescent member (257) the number of light source (240) if the number of adjustable knob disclosed.

When viewed in the drawing, the fluorescent member is disposed on the left side (257) of the fluorescent member mounting portion is 3 (260) mounted, one side of the fluorescent member (257) of the fluorescent member mounting portion is 2 (260) are mounted.

A luminous unit of the present invention number 5 in the embodiment (200) is, number 2 embodiment as shown in the example, the fluorescent member (257) is light source (240) with such a receiving member (230) than the number of enemy tank costs fluorescent member number bath can be a first pair the fluorescent member number.

The light emitting unit of the present invention number 6 in the embodiment according to it is as follows.

The 4c also reference, number 6 in the embodiment according to the light emitting unit (200) is, such as number 3 in the embodiment, a plurality of receiving member (230) the d the fluorescent member mounting portion (260) driving substrate (210) longitudinal along one fluorescent member (258) is mounted thereto.

A luminous unit of the present invention number 6 in the embodiment (200) is, the line number 3 in the embodiment, one fluorescent member (258) only for mounting, the fluorescent member (258) number of reservoir and easy installation via the network.

Liquid crystal display device according to one example of the present invention is shown in Figure 5 is a coarse cross-sectional drawing are disclosed.

Liquid crystal display device of Figure 5 (1) is, liquid crystal display television (LCD TV) etc. for example. However, liquid crystal display device of the present invention monitor the computer such as one in the embodiment according to other types of display device of the present invention that are applicable even if one skilled in the art will easily understand.

The reference also 5, liquid crystal display device (1) is, upper housing (11) and a lower housing (12) comprises. These housing (11, 12) are these in the embodiment according to edge type panel assembly (100), lamps panel assembly (500) accommodate either the each other. Edge type panel assembly (100), lamps panel assembly (500) the back of liquid crystal display device either (1) supplies an electric power to a power board (30) and liquid crystal display device (1) operation of the board number plower number (40) has a flat portion. In Figure 5 is, power board (30) and number board (40) but only shown, liquid crystal display device (1) as well as other circuitry may be further in boards are disclosed.

Figure 6 shows a light emitting unit and a light guide plate of the present invention also uses a temperature distribution through one in the embodiment according to [...] graph are disclosed.

The graph of Figure 6 are described as follows.

First, in accordance with the broad lines on line in accordance with the meaning of a residual -100 mm 200 mm is as follows.

Wherein the meanings of + / - value, rectangular as viewed screen of liquid crystal display device, a clamping a thus set to the on them using a DPT, when internal screen along the horizontal line and the vertical through, the reference point of the horizontal line, the + above horizontal, the lower horizontal line - big.

I.e., the light emitting unit and a light guide plate at a point on the lower horizontal -100 mm based on 100 mm through linear temperature distribution of the components, the light emitting unit and a light guide plate at a point above 200 mm 200 mm (+ 200 mm) horizontal reference uses a temperature distribution through big.

Accuracy of the tested -100 mm 200 mm measured on two of spots which, modified a little at a time point is there disclosed.

A transverse axis (axis distance) on a driving substrate 11 mm 22 mm width 200 mm width by big driving substrate point each -100 mm point.

A plurality of point light source the fluorescent member between display graphs big separation distance.

At each black point light source and the fluorescent member between 200 mm displacement components, at each distance between the light source and the fluorescent member is the deviant crease -100 mm big.

As shown in the graph, a shock-absorbing space is lowered temperature can be know. The, increasing the separation distance greater glass discriminated, to design the other number about element to a base, 5 mm or more of the displacement along the seal has a large number number number ppars.

5 Mm 2 mm when a backside and a front on a graph is compared, a larger difference between its temperature into each can be.

The, its design easily and the fluorescent member of thermal properties for drop out between 2 mm spacing distance is designated in a fluorescent member member is preferably.

And, in the embodiment of the present invention shown in and described with respect to at least one but, in the embodiment described above the present invention refers to the use of a specific defined correspondingly, in the claims claim the subject matter of invention made without deviating from the invention belongs in the art 155.520 thereby enabling as well as various modified embodiment, these modified embodiment of the present invention are technical idea or separately from the perspective will be understood to don't.