CN202371513U - Direct lighting type backlight source of liquid crystal display screen - Google Patents

Abstract

The utility model relates to a liquid crystal display screen, in particular to a backlight source of the liquid crystal display screen, more particularly to a direct lighting type backlight source. Specific to the defects caused by the uniform LED (Light-Emitting Diode) distribution of the direct lighting type LED backlight source in the prior art, the utility model discloses the direct lighting type backlight source of the liquid crystal display screen. According to a technical scheme disclosed by the utility model, the direct lighting type backlight source of the liquid crystal display screen comprises a substrate, wherein LEDs are distributed on the substrate very uniformly; the LED distribution on the substrate of the direct lighting type LED backlight source is regulated, the traditional uniform distribution technology is abandoned, and on the premise of guaranteeing that a luminance uniformity index of the screen meets a basic requirement (the luminance uniformity of the screen is more than 70%) the number of the LEDs can be reduced by 5-15% so as to meet the requirements on energy saving, consumption reduction and cost reduction. The direct lighting type backlight source disclosed by the utility model is mainly applied to the liquid crystal display screen, particularly the large liquid crystal display screen.

Description

The LCDs direct-light-type backlight

Technical field

The utility model relates to LCDs, particularly liquid crystal screen back light source, the concrete direct-light-type backlight that relates to.

Background technology

LCDs (LCD) is a kind of flat-panel display device, and its operation principle is to utilize liquid crystal material under electric field action, the modulating action of light to be produced various light and shade and color change and form image.Because liquid crystal material itself is not luminous, LCDs all needs special backlight.According to the difference of backlight set-up mode,, the branch of side entrance back source and direct-light-type backlight is arranged with the liquid crystal screen back light source of LED (light emitting diode) as light-emitting component.Adopt the LCD of direct-light-type backlight, its backlight directly places liquid crystal display behind.This back light source structure is as shown in Figure 1, and LED10 is arranged on the substrate 1 as light-emitting component, and the LED on the substrate 1 is connected with driving power through circuit.Substrate 1 shape and size and liquid crystal display suitable (equating) are generally rectangle or square.In order to guarantee brightness uniformity, the LED on the substrate requires to be evenly distributed, so that in the liquid crystal display areal extent, form the even brightness luminous flat.So the distance between each LED all equates usually.Fig. 1 shows the distribution mode of 16: 9 screen LED of 9 row * 16 row.This equally distributed LED-backlit source, even considered the dispersiveness of light-emitting component parameter, the brightness uniformity of its LCDs also can reach more than 80%, even surpasses 90%.The direct-light-type backlight of prior art, along with the increase of screen size, LED quantity sharply increases, and product cost is increasingly high, and energy resource consumption is increasing.And common human eye is also insensitive to brightness uniformity, evidence, and when brightness uniformity reached 70%～75%, the brightness uniformity index continued to improve, and does not have substantial variation on the sense organ, and its practical significance is little.And for the equally distributed direct-light-type backlight of LED, because the discreteness of light-emitting component and drive current, the maximum brightness zone is not one to fix on the screen center that the user pays much attention to, but is random distribution.

The utility model content

The utility model technical problem to be solved is exactly to the prior art direct LED backlight, and the shortcoming that LED evenly distributes and brings provides a kind of LCDs direct-light-type backlight.

The utility model solve the technical problem, and the technical scheme of employing is, the LCDs direct-light-type backlight comprises substrate, is furnished with LED on the said substrate, and said LED is non-uniform Distribution on said substrate.

The technical scheme of the utility model; Distribution to direct LED backlight base onboard led is adjusted; Abandoned traditional even placement technique, guaranteed that the screen intensity uniformity index satisfies under the prerequisite of basic need (screen intensity uniformity＞70%), can reduce LED quantity about 5%～15%; Reach energy-saving and cost-reducing, the requirement that reduces cost.

Preferably, the distribution of said LED is a symmetry axis with the said substrate transverse axis and/or the longitudinal axis.

Because substrate and liquid crystal display shape and sizableness; Configuration relation is corresponding, and the distribution that is to say LED makes this symmetrical distribution form also about liquid crystal display transverse axis and/or longitudinal axis symmetry; More meet the sense organ requirement, also can regard a kind of uniformity that heterogeneity is arranged as and handle.And this scheme can simplify the generation operation, is convenient to the enforcement of assembling process and improves interchangeability.In this scheme, the distribution of LED can be a symmetry axis with the substrate longitudinal axis; Can with the transverse axis symmetry axis again; Can also be promptly about longitudinal axis symmetry, also about the transverse axis symmetry.

Preferably, the said area L ED of substrate center distribution density is greater than substrate periphery area L ED distribution density.

The corresponding screen center in substrate center zone zone, the zone that the person of being to use pays much attention to also is the main region that luminance index etc. detects, this area L ED distribution density is bigger, the index that helps improving product with detect qualification rate.

Further, said LED is arranged in the capable M row of N; Wherein, N, M are positive integer.

For the ease of assembling, generally all be that some LED are fitted together in the industry, be packaged into the LED lamp bar of certain-length, in the actual production process, these LED lamp bars are carried out the backlight template that assembly unit just can constitute various sizes.

Further, the line-spacing in said substrate center zone and/or row are apart from line-spacing and/or row distance less than the substrate periphery zone.

In the technology of the backlight template that employing LED lamp bar constitutes,, just can reach the purpose of non-uniform Distribution through the distance between the adjustment LED lamp bar (line-spacing and row distance).This programme can be: the line-spacing in substrate center zone is less than the line-spacing in substrate periphery zone; The row in substrate center zone are apart from the row distance less than the substrate periphery zone; The line-spacing in substrate center zone and row distance are all less than substrate periphery regional line-spacing and row distance.Totally three kinds of LED distribution schemes.

Further, zone line-spacing and/or row distance increase progressively from the substrate center zone to substrate periphery.

In this programme, the variation of line-spacing and/or row distance increases progressively to the substrate periphery zone from the substrate center zone, can be linear increment, or adopts other Changing Patterns according to the sense quality of human eye, like exponential increasing etc.

Further, from said substrate center zone to periodic distribution the close lean phase of substrate periphery area L ED distribution density.

This non-uniform Distribution mode can improve brightness uniformity with respect to aforementioned schemes, particularly for the bigger LCDs of screen size, is fit to very much adopt this non-uniform Distribution mode.

Concrete, said Cycle Length is respectively 1/9 of substrate longitudinal size or lateral dimension.

In this programme, laterally see, the zone from the substrate center zone to substrate periphery, the repetition period between the close lean phase of LED distribution density is 1/9 of a substrate lateral dimension (corresponding liquid crystal display length); Vertically see, the zone from the substrate center zone to substrate periphery, the repetition period between the close lean phase of LED distribution density is 1/9 of a substrate longitudinal size (corresponding liquid crystal display width).

Further, said LED is arranged in the capable Q row of P; Wherein, P, Q are positive integer.

Periodically variable non-uniform Distribution mode also can adopt LED lamp bar to be configured, and reaches periodically variable non-uniform Distribution purpose.

Special, in each Cycle Length, line-spacing and/or row distance are by increasing progressively to substrate periphery near substrate center.

In periodically variable non-uniform Distribution mode technology, also can be in each Cycle Length (substrate longitudinal size or lateral dimension 1/9) make being varied to of line-spacing, row distance increase progressively relation.

The utility model divides beneficial effect to be, can guarantee under the prerequisite that brightness uniformity is satisfied the demand, and reduces LED use amount in the direct-light-type backlight; According to screen size; It is about 5%～15% to reduce LED quantity, have energy-saving and cost-reducing, the positive effect that reduces cost.

Description of drawings

Fig. 1 is a prior art direct-light-type backlight LED distribution schematic diagram;

Fig. 2 is an embodiment 1LED distribution schematic diagram;

Fig. 3 is an embodiment 2LED distribution schematic diagram;

Fig. 4 is an embodiment 3LED distribution schematic diagram;

Fig. 5 is an embodiment 4LED distribution schematic diagram;

Fig. 6 is an embodiment 5LED distribution schematic diagram;

Fig. 7 is an embodiment 6LED distribution schematic diagram;

Fig. 8 is an embodiment 7LED distribution schematic diagram.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment, describe the technical scheme of the utility model in detail.

The technical scheme of the utility model; Distribution to direct LED backlight base onboard led is adjusted, and has abandoned traditional even arrangement, adopts the non-uniform Distribution form; Guaranteeing that the brightness uniformity index satisfies under the prerequisite of basic need (screen intensity uniformity＞70%); It is about 5%～15% to reduce LED quantity, reaches energy-saving and cost-reducing, the requirement that reduces cost.

Embodiment 1

As shown in Figure 2, this routine LCDs direct-light-type backlight comprises substrate 1 and is installed in the LED10 on the substrate 1.In this example, the distribution of LED10 on substrate 1 is close in the middle of being, the non-uniform Distribution mode that periphery is sparse.The zone at the transverse axis X of substrate 1 and the intersection point of longitudinal axis Y place is exactly substrate 1 central area, and the distribution density of this area L ED10 is greater than the distribution density of substrate 1 neighboring area.And the distribution of this routine LED10 had been a symmetry axis with transverse axis X both, was symmetry axis with longitudinal axis Y again.Compare with even distribution mode shown in Figure 1, can find out that the minimizing of the use amount of LED10 is very tangible.

Embodiment 2

This routine LCDs direct-light-type backlight, the distribution of LED10 on substrate 1 is as shown in Figure 3, and LED10 is arranged in the capable M row of N, N=9 in this example, M=10.Among Fig. 3, the line-spacing that LED10 arranges is constant, and row are apart from increasing progressively to the substrate periphery zone from the substrate center zone, promptly among Fig. 3 from the longitudinal axis (Y axle) region, row are apart from increasing gradually along directions X and-directions X (the middle left and right directions of Fig. 3) respectively.This distribution mode, the distribution of LED has symmetry, and X axle and Y axle are its symmetry axis.This example can be packaged into LED lamp bar with LED earlier, and every LED lamp bar has same structure, and LED quantity equates that (9), spacing are identical, are convenient to standardized production.Assembling is backlight the time, and LED lamp bar is vertically arranged, only needs the distance between the adjustment LED lamp bar, just can realize that the heterogeneity of LED distributes guaranteeing that the brightness uniformity index meets the demands under the prerequisite of (＞70%), reaches the purpose of minimizing LED quantity.

Embodiment 3

As shown in Figure 4, this routine LCDs direct-light-type backlight, LED10 also are to be arranged in the capable M of N row, N=7 in this example, M=16 on substrate 1.Among Fig. 4, the row that LED10 arranges are apart from constant, and line-spacing increases progressively to the substrate periphery zone from the substrate center zone, promptly among Fig. 4 from transverse axis (X axle) region, line-spacing increases along Y direction and-Y direction (the middle above-below direction of Fig. 4) respectively gradually.This distribution mode of this programme, the distribution of LED has symmetry, and X axle and Y axle are its symmetry axis.This example can be packaged into LED lamp bar with LED earlier, and every LED lamp bar has same structure, and LED quantity equates that (16), spacing are identical, are convenient to standardized production.Assembling is backlight the time, LED lamp bar lateral arrangement, and the distance between the adjustment LED lamp bar just can realize that the heterogeneity of LED distributes guaranteeing that the brightness uniformity index meets the demands under the prerequisite of (＞70%), reaches the purpose of minimizing LED quantity.

Embodiment 4

This routine LCDs direct-light-type backlight, the distribution of LED10 are actually the distribution mode that combines embodiment 2 and embodiment 3, and LED also is arranged in the capable M row of N, N=7 wherein, and M=10, as shown in Figure 5.In this example, from the central area at substrate 1 transverse axis and longitudinal axis crosspoint place, line-spacing and row apart from respectively along Y direction and-Y direction and directions X with-X side increases progressively substrate 1 central area LED10 distribution density＞substrate 1 neighboring area LED10 distribution density.This example can be packaged into LED lamp bar with LED, and the LED lamp bar for landscape configuration is made up of 10 LED, and close in the middle of its spacing, two ends are sparse, adopts 7 lamp bars to constitute backlights, the lamp stripe pitch along Y and-the Y direction increases progressively.LED lamp bar for vertical configuration is made up of 7 LED, and close in the middle of its spacing, two ends are sparse, adopts 10 lamp bars to constitute backlights, the lamp stripe pitch along X and-directions X increases progressively.This routine LED distributes and also has symmetry, and X axle and Y axle are its symmetry axis.

Embodiment 5

Fig. 6 shows one section of the centre of this routine LCDs direct-light-type backlight substrate 1; From the substrate center zone at longitudinal axis place to the neighboring area of substrate the right and left; Periodic distribution between the close lean phase of LED distribution density, its Cycle Length a is 1/9 of substrate 1 horizontal (directions X) size.This routine LED also adopts the arrangement mode of the capable Q row of P, P=9 in this example, and Q=54 only shows 12 of one section of substrate 1 centre and is listed as among Fig. 6.This routine backlight LED arrangement mode is that line-spacing is constant, and row are apart from cyclically-varying, in 1 Cycle Length a, row apart from by near the substrate longitudinal axis one side direction X or-directions X increases progressively.This routine LED distributes and also has symmetry, and X axle and Y axle are its symmetry axis.

Embodiment 6

Fig. 7 shows one section of the centre of this routine LCDs direct-light-type backlight substrate 1; From the substrate center zone at substrate transverse axis place to the substrate neighboring area on both sides up and down; Periodic distribution between the close lean phase of LED distribution density, its Cycle Length b is 1/9 of substrate 1 vertical (Y direction) size.This routine LED also adopts the arrangement mode of the capable Q row of P, P=71 in this example, and Q=16 only shows 7 of one section of substrate 1 centre and goes among Fig. 6.This routine backlight LED arrangement mode for row apart from constant, the line-spacing cyclically-varying, in 1 Cycle Length b, line-spacing by near transverse axis one side direction Y or-the Y direction increases progressively.This routine LED distributes and also has symmetry, and X axle and Y axle are its symmetry axis.

Embodiment 7

This routine LCDs direct-light-type backlight LED distributes as shown in Figure 8, only shows substrate 1 mid portion LED distribution situation among the figure.These routine backlight LED 10 distribution forms are symmetry axis with X axle and Y axle, and the spacing of Y direction and directions X LED all becomes cyclically-varying.Y direction Cycle Length is b, and the directions X Cycle Length is a.In each Cycle Length a, b, row distance and line-spacing are respectively by increasing progressively near substrate center's one side direction substrate periphery.This routine LED distributes and also has symmetry, and X axle and Y axle are its symmetry axis.This scheme can be regarded a kind of comprehensive technological scheme of embodiment 5 and embodiment 6 as.

The foregoing description of the utility model, embodiment that can not limit the utility model.As the terminal installation that a kind of information shows, the non-uniform Distribution basic principle of LED is to guarantee that the brightness of display screen uniformity satisfies basic demand (＞70%), and concrete distribution mode is too numerous to enumerate.Adopt the distribution mode of symmetrical structure and advise positive arrangement anyhow, with the rectangular shape of display screen, people's organoleptic attribute, to be convenient to factor such as commercial production relevant, but do not really want to get rid of other distribution forms.Every those skilled in the art change according to the routine that the utility model foregoing description carries out, and all belong to the protection domain of the utility model.

Claims (10)

1. the LCDs direct-light-type backlight comprises substrate, is furnished with LED on the said substrate, it is characterized in that, said LED is non-uniform Distribution on said substrate.

2. LCDs direct-light-type backlight according to claim 1 is characterized in that, the distribution of said LED is a symmetry axis with the said substrate transverse axis and/or the longitudinal axis.

3. LCDs direct-light-type backlight according to claim 1 is characterized in that, the said area L ED of substrate center distribution density is greater than substrate periphery area L ED distribution density.

4. LCDs direct-light-type backlight according to claim 1 is characterized in that, said LED is arranged in the capable M row of N; Wherein, N, M are positive integer.

5. LCDs direct-light-type backlight according to claim 4 is characterized in that, the line-spacing in said substrate center zone and/or row are apart from line-spacing and/or row distance less than the substrate periphery zone.

6. LCDs direct-light-type backlight according to claim 4 is characterized in that, zone line-spacing and/or row are apart from increasing progressively from the substrate center zone to substrate periphery.

7. LCDs direct-light-type backlight according to claim 1 is characterized in that, from said substrate center zone to periodic distribution the close lean phase of substrate periphery area L ED distribution density.

8. LCDs direct-light-type backlight according to claim 7 is characterized in that said Cycle Length is respectively 1/9 of substrate longitudinal size or lateral dimension.

9. LCDs direct-light-type backlight according to claim 7 is characterized in that, said LED is arranged in the capable Q row of P; Wherein, P, Q are positive integer.

10. LCDs direct-light-type backlight according to claim 9 is characterized in that, in each Cycle Length, line-spacing and/or row distance are by increasing progressively to substrate periphery near substrate center.

Images