KR102633839B1 - Blacklight unit using mini LED - Google Patents

Abstract

The present invention discloses a backlight unit using mini LED. According to the present invention, a plurality of bar type substrates having a connection on one side; A plurality of LEDs disposed on the plurality of bar-type substrates - the plurality of LEDs have different pitches between adjacent LEDs, and N LEDs form one group -; a plurality of light guide elements disposed on top of each individual group including the N LEDs; and a board assembly connected to the connectors of the plurality of bar-type boards to supply power to the plurality of bar-type boards. A backlight unit using a mini LED is provided.

Description

Backlight unit using mini LED {Blacklight unit using mini LED}

The present invention relates to a backlight unit using mini LED.

Liquid crystal displays started with TN (twisted nematic) and LC (liquid crystal), then changed to STN (super twisted nematic), then IPS (in-plane switching) type and VA (vertical alignment) type liquid crystal, and were used for TVs, monitors, and smartphones. IPS and VA types are used in LCD.

There were also many changes to the backlight unit (BLU). CCFL (cold cathode fluorescence lamp), similar to fluorescent lamps, was used, but to prevent the increase in BLU power consumption due to larger TVs, LED, which does not consume standby power, began to be used as a light source for BLU.

Initially, LED lamps were used on the edges of all four sides, but recently, due to improved LED efficiency, LEDs are placed on only one side.

As OLED TV began to establish itself in the premium market, the FALD (full array local dimming) method, which improves the contrast ratio by placing LEDs at the bottom of the liquid crystal panel and improving the contrast ratio through local dimming, was applied to premium LCD TVs in order to improve the contrast ratio, which is a drawback of LCD TVs. there is.

Recently, BLUs with mini LEDs are being released on the market to maximize the contrast ratio of LCD.

Figure 1 is a diagram showing a backlight unit using mini LED according to the prior art.

As shown in FIG. 1, mini LEDs have been conventionally arranged in a plurality of rectangular sections, but since a large number of LEDs are required, the unit cost increases.

Republic of Korea Patent Publication 10-2221188

In order to solve the problems of the prior art described above, the present invention seeks to propose a backlight unit using mini LEDs that can reduce costs and optimize image quality and LED quantity.

In order to achieve the above-mentioned object, according to an embodiment of the present invention, a backlight unit using mini LEDs includes a plurality of bar-type substrates having a connector on one side; A plurality of LEDs disposed on the plurality of bar-type substrates - the plurality of LEDs have different pitches between adjacent LEDs, and N LEDs form one group -; a plurality of light guide elements disposed on top of each individual group including the N LEDs; and a board assembly connected to the connectors of the plurality of bar-type boards to supply power to the plurality of bar-type boards. A backlight unit using a mini LED is provided.

The N is a natural number of 4 or more, and is located at the pitch (d1) between the first LED and the second LED adjacent to the first LED among the N LEDs forming the one group, and at the pitch furthest from the first LED. The pitch (d2) between the Nth LED and the N-1th LED adjacent to the Nth LED may be set to be the same.

When N is 4, the pitch d3 between the second LED and the third LED adjacent to the second LED may be set to be greater than d1.

The pitch d4 between the fourth LED belonging to the first group and the first LED of the second group adjacent to the fourth LED may be set to be greater than d3.

The adjacent pitch d5 of the first light guiding element disposed on the upper part of the first group and the second light guiding element disposed on the upper part of the second group may be set to be smaller than d3.

The light guide element may be a lens with a preset curvature.

According to another aspect of the present invention, a backlight unit using mini LEDs, comprising: a plurality of bar type substrates; A plurality of LEDs disposed on the plurality of bar-type substrates - the plurality of LEDs have different pitches between adjacent LEDs, and N LEDs form one group -; and a backlight unit using mini LEDs including a plurality of light guide elements disposed on top of each individual group including the N LEDs.

According to the present invention, there is an advantage in that a backlight unit can be configured with a small number of LEDs by arranging a plurality of LEDs on a bar type substrate and placing N LEDs in one group and placing a light guide element on the top. .

Figure 1 is a diagram showing a backlight unit using mini LED according to the prior art.
Figure 2 is a diagram showing the configuration of a backlight unit using mini LEDs according to a preferred embodiment of the present invention.
Figure 3 is a diagram showing the detailed configuration of a backlight unit using mini LEDs according to this embodiment.
FIG. 4 is a diagram illustrating a plurality of LEDs and their pitches disposed on a bar-type substrate according to this embodiment.
FIG. 5 is a diagram comparing the performance of LEDs adjacent to each other having different pitches as in this embodiment and when the LEDs have the same pitch.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Figures 2 and 3 are diagrams showing the configuration of a backlight unit using mini LEDs according to a preferred embodiment of the present invention.

As shown in FIGS. 2 and 3 , the backlight unit using mini LEDs according to this embodiment may include a board assembly 200 and a bar-type substrate 202 coupled to the board assembly 200.

Preferably, the bar-type substrate 202 may be a substrate having a shape extending in a direction perpendicular to the board assembly 200, and a plurality of bar-type substrates 202 are spaced apart at a preset interval.

A plurality of LEDs 204 are disposed on each bar type substrate 202.

According to this embodiment, the plurality of LEDs 204 disposed on the plurality of bar-type substrates 202 have different pitches between adjacent LEDs, and N LEDs 204 form one group.

The pitch between a plurality of LEDs will be described in detail again below.

As described above, N LEDs form one group, where N may be a natural number of 4 or more.

Hereinafter, the description will focus on four LEDs forming one group, but it is not necessarily limited to this.

As shown in FIGS. 2 and 3, a light guide element 206 is disposed on top of each individual group including four LEDs 204.

The light guide element 206 is a lens with a preset curvature, and allows the light emitted from the LED 204 to be evenly radiated to the entire surface of the LCD.

A connector (male connector, 208) is formed on one side of the bar-type board 202, and is connected to a female connector 210 formed at regular intervals on one side of the board assembly 200 that supplies power to the bar-type board 202. are combined.

According to this embodiment, the substrate 202 is formed in a bar type, each bar type substrate 202 is coupled to the board assembly 200 while spaced apart from each other, and a board optimized for each bar type substrate 202 is formed. By forming the LEDs 204 having an arrangement, the light required for the LCD can be irradiated even with a small number of LEDs 204.

FIG. 4 is a diagram illustrating a plurality of LEDs and their pitches disposed on a bar-type substrate according to this embodiment.

As shown in FIG. 4, when four LEDs 204-1 to 204-4 form one group, according to this embodiment, the first LED 204-1 and the second LED adjacent thereto ( 204-2), the fourth LED (204-4) located at the farthest distance from the first LED (204-1) in one group, and the third LED (240-3) adjacent thereto. The distance (d2) between them can be set to be the same.

Additionally, the pitch d3 between the second LED 204-2 and the adjacent third LED 204-3 may be set larger than d1 and d2 described above.

For example, if d1 and d2 are 6.9mm, d3 may be set to 12mm, which is larger than this.

As shown in FIG. 4, the light guide element 206 is located at a position spaced to the left of the first LED 204-1 located at the left end to the right of the fourth LED 204-4 located at the right end. It is formed by extending to a distant location.

In this way, the light guide element 206 is provided independently for each group, and the light emitted from the LED 204 is uniformly irradiated to the LCD.

According to this embodiment, the pitch d4 between the fourth LED 204-4 belonging to the first group and the first LED 204-5 belonging to the second group is set to be greater than d3.

Meanwhile, the adjacent pitch d5 between the first light guide element 206-1 disposed at the top of the first group and the second light guide element 206-2 disposed at the top of the second group adjacent thereto is smaller than d3. can be set.

For example, d4 may be set to 14.7mm, which is larger than d3, but d5 may be set to 8.5mm, which is smaller than d3.

As described above, the pitches of the adjacent LEDs on the bar type substrate 202 are set differently, but within one group, the pitches (d1, d2) is the same, and the pitch d3 between the LEDs in the central area accommodated in the light guide element 206 is set larger than d1 and d2, and d4 to d5 are also set to have a size difference in relation to d3, thereby reducing the pitch. Several LEDs can also function as a backlight unit.

FIG. 5 is a diagram comparing the performance of LEDs adjacent to each other having different pitches as in this embodiment and when the LEDs have the same pitch.

As shown in FIG. 5 , when LEDs are arranged as in this embodiment, it is possible to prevent the amount of light from being weakened even in adjacent areas between the light guide elements 206.

The above-described embodiments of the present invention have been disclosed for illustrative purposes, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention, and such modifications, changes, and additions will be possible. should be regarded as falling within the scope of the patent claims below.

Claims (7)

As a backlight unit using mini LED,
A plurality of bar type boards having a connection on one side;
A plurality of LEDs disposed on the plurality of bar-type substrates - the plurality of LEDs have different pitches between adjacent LEDs, and N LEDs form one group -;
a plurality of light guide elements disposed on top of each individual group including the N LEDs; and
A board assembly connected to the connectors of the plurality of bar-type boards and supplying power to the plurality of bar-type boards,
The N is a natural number of 4 or more, and is located at the pitch (d1) between the first LED and the second LED adjacent to the first LED among the N LEDs forming the one group, and the pitch furthest from the first LED. The pitch (d2) between the N-th LED and the N-1 LED adjacent to the N-th LED is set to be the same,
When N is 4, the pitch (d3) between the second LED and the third LED adjacent to the second LED is set larger than d1. delete delete According to paragraph 1,
A backlight unit using mini LEDs in which the pitch (d4) between the fourth LED belonging to the first group and the first LED of the second group adjacent to the fourth LED is set to be greater than d3. According to paragraph 4,
A backlight unit using a mini LED wherein the adjacent pitch (d5) of the first light guide element disposed on the upper part of the first group and the second light guide element disposed on the upper part of the second group is set to be smaller than the d3. According to paragraph 1,
The light guide element is a backlight unit using a mini LED, which is a lens with a preset curvature. As a backlight unit using mini LED,
A plurality of bar type substrates;
A plurality of LEDs disposed on the plurality of bar-type substrates - the plurality of LEDs have different pitches between adjacent LEDs, and N LEDs form one group -; and
A plurality of light guide elements disposed on top of each individual group including the N LEDs,
The N is a natural number of 4 or more, and is located at the pitch (d1) between the first LED and the second LED adjacent to the first LED among the N LEDs forming the one group, and the pitch furthest from the first LED. The pitch (d2) between the N-th LED and the N-1 LED adjacent to the N-th LED is set to be the same,
When N is 4, the pitch (d3) between the second LED and the third LED adjacent to the second LED is set larger than d1.