KR102304279B1 - A backlight unit and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a backlight unit installed in a display device and, more specifically, to a backlight unit which forms a mounting hole penetrated in front and rear directions in a state in which a reflective sheet and a metal layer are integrally formed and mounts an LED in the mounting hole in a reverse type, thereby making a thickness slim and enabling easy manufacture through simple processes at the same time and obtaining excellent productivity and yield.

Description

A slim and highly productive reflective sheet-integrated backlight unit and manufacturing method thereof. {A backlight unit and manufacturing method thereof}

The present invention relates to a backlight unit provided in a display device, and more specifically, it has a structure in which an LED is mounted to protrude in a reverse manner in a through hole in a state in which a reflective sheet and a substrate are integrally formed. The present invention relates to a backlight unit that reduces cost and improves productivity through a simplified process.

In general, a liquid crystal display device (hereinafter referred to as 'LCD') among display devices does not emit light by itself, unlike other display devices, so a backlight unit that supplies a light source to the liquid crystal panel is required. do it with

And this backlight unit is divided into a direct light type and an edge light type according to the position of the light source,

In particular, in recent years, a full array type backlight unit has appeared that has improved contrast ratio and power consumption through local dimming by evenly distributing mini LEDs on the entire board in a direct method. became

However, the conventional backlight unit 100 of the full array method is provided with a double-sided substrate 110 as shown in FIG. The mini LED 120 is mounted on the front side of the double-sided board. At this time, the rear end of the double-sided substrate has a structure in which the reflective sheet 130 processed for light diffusion of the LED is bonded around the mini-LED (hereinafter referred to as LED) on the front in a state where the protective film 140 is formed.

At this time, there is a limit to the slimming of the display device due to the light characteristics of the LED,

After processing the double-sided board, LED mounting, and processing the reflective sheet, it was separately bonded to the board, increasing the cost through the complicated fabrication process.

In particular, after forming a number of holes (eg, diameter 0.5~4.mm) in the reflective sheet, they are attached to the substrate according to the position of the LED. At this time, the mini-size LED protruding from the substrate and the reflective sheet Yield and productivity were lowered due to the occurrence of poor adhesion due to misalignment of the holes.

US 10-1597641 B1

Accordingly, an object of the present invention is to improve the above disadvantages, and in particular, to provide a backlight unit having a slim and complicated manufacturing process by simplifying the cost reduction and productivity.

To this end, the present invention provides a backlight unit of a liquid crystal display operating in a direct manner,
The backlight unit is a backlight unit of a full array type in which a plurality of LEDs are arranged at regular intervals to perform local dimming,
The LED is a mini LED or a micro LED,
The LED is mounted on a circuit pattern in a reverse manner, and a board protruding from both left and right sides is formed at the bottom centering on a body provided with a chip, and a contact piece having a contact surface wrapped in a bent metal body at the left and right ends of the board. formed,
In a state in which a metal layer is integrally formed on the other side of the reflective sheet to prevent light loss, a plurality of mounting holes passing through the reflective sheet and the metal layer are formed, while the metal layer is connected to a plurality of LEDs to enable local dimming. a pattern is formed,
Each LED is inserted into the mounting hole of the reflective sheet and is mounted in a reverse manner so that the tip protrudes out of the reflective sheet and is connected to the circuit pattern,
It is characterized in that it has a slim and improved productivity while simplifying a complicated manufacturing process and eliminating defects caused by misalignment.

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In addition, the present invention comprises the steps of forming a metal layer on the other side of the reflective sheet wound on the roll while the reflective sheet is unwound or cut to a predetermined size;
A step of forming a plurality of mounting holes through which the mini-LED or micro-LED penetrating through the reflective sheet and the metal layer is mounted through a laser or CNC;
Forming a circuit pattern on the metal layer to be locally dimmed while being separated/divided around each mounting hole through a photolithography method or other chemical treatment method using a dry film or mask;
Laminating a protective film having a larger through hole than the mounting hole while protecting the circuit pattern is laminated on the other side of the reflective sheet so that each through hole and the mounting hole are in communication;
Forming a soldering cream around the mounting hole inside each through-hole after seating the reflective sheet on a fixing jig for SMT;
A step of inserting a mini-LED or micro-LED into the through-hole of the protective film and installing the mini-LED or micro-LED in a reverse manner so that the tip protrudes out of the mounting hole and is connected to the circuit pattern; comprising the steps of:
It is characterized in that it has a slim and improved productivity while simplifying a complicated manufacturing process and eliminating defects caused by misalignment.

Therefore, in the present invention, in a state in which the metal layer is integrally formed on the reflective sheet, by forming a mounting hole through the front and rear directions, and mounting the LED in the reverse manner in the mounting hole, at least the thickness of the substrate is slimmer and the process is simplified. It can be easily manufactured as well as productivity and yield are improved.

1 is a cross-sectional view showing the structure of a conventional backlight unit.
2 and 2A are a plan view and a bottom view of an integrated backlight unit according to an embodiment of the present invention.
3 is a cross-sectional view of an integrated backlight unit according to an embodiment of the present invention.
4 is a perspective view showing the appearance of a reverse LED;
5 is a process diagram of an integrated backlight unit according to an embodiment of the present invention.

First, the terms used in the specification and claims of the present invention should not be construed as being limited to dictionary meanings, and based on the principle that the inventor can appropriately define the concept of the term to describe his invention in the best way. Therefore, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in this specification is only a preferred embodiment of the present invention, and does not express all the technical spirit of the present invention, so various equivalents and It should be understood that variations may exist.

Hereinafter, specific contents for carrying out the present invention will be described in detail with reference to the accompanying drawings.

2 and 2A show the appearance of an integrated backlight unit according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view showing the structure of the integrated backlight unit according to an embodiment of the present invention.

Referring to this, the backlight unit 1 according to the embodiment of the present invention is a direct-type full-array backlight unit, and is a backlight unit with improved productivity and yield, particularly because it is slim and easily manufactured.

That is, the present invention is in a state in which the metal layer 11 is integrally formed on the reflective sheet 10 for preventing light loss of the LED,

A plurality of mounting holes 12 penetrating through the reflective sheet 10 and the metal layer 11 are formed at regular intervals, and a circuit pattern for connecting the LED 30 is formed only on the metal layer 11,

By inserting the LED 30 into the mounting hole 12 and having a structure connected to the circuit pattern in a reverse manner so that the tip protrudes out of the banshi sheet 10,

It is a backlight unit with a slim overall thickness, easy manufacturing, and excellent productivity.

In addition, the reflective sheet 10 is to prevent light loss by returning the light passing through the lower part of the light guide plate to the front. In particular, the reflective sheet 10 is a flat substrate having a reflective layer on one side, a flexible PP film, or a PET film. It may be this or the like.

That is, the reflective sheet 10 is preferably annealed or wound to be able to be processed by a consistent process, and may be cut to a predetermined size or a flat plate according to an embodiment.

In addition, the metal layer 11 is a metal foil laminated on one side of the reflective film 10, so that the reflective sheet can be used as a substrate.

At this time, a circuit pattern is formed on the metal layer 11, and the circuit pattern is separated/divided around the mounting hole by a photolithography method or other chemical treatment method using a dry film or mask to form a pattern of a certain shape, The reflective sheet is formed to be used as a substrate.

In addition, the mounting hole 12 is a hole that penetrates the reflective sheet and the metal layer with a size sufficient to accommodate the LED, and is perforated at regular intervals by a processing machine such as a laser or CNC. The mounting hole can be drilled before or after the circuit pattern is formed.

In addition, the LED 30 is preferably a mini LED or micro LED made of a predetermined size to be operable in a full array method,

In particular, as shown in FIG. 4 , the LED 30 is mounted on the circuit pattern in a reverse manner, and a board 32 protruding in both left and right directions is formed at the bottom centering the body 31 of the LED, and the board A contact piece 33 wrapped with a metal body is formed at the left and right ends of the, so that when the LED body 331 is inserted into the mounting hole, the upper portion of the contact piece 33 is in contact with the circuit pattern and soldered. there will be

And a protective film 20 is formed on the circuit pattern of the backlight unit 1, and the protective film 20 is relatively larger than the LED and forms a through hole 21 communicating with the mounting hole. .

At this time, the protective film 20 is to prevent contact/short-circuit with the built-in device or case when the backlight unit is mounted on the inside of the display device, so that the display device can be safely driven.

5 is a view showing a manufacturing process of a backlight unit according to an embodiment of the present invention,

Referring to this, in the present invention, first, the metal layer 11 is formed on the reflective sheet 10 to prevent light loss.

At this time, the reflective sheet 10 is wound on a roll to form a metal layer on one side while the copper foil is laminated, but according to an embodiment, the metal layer is applied to a board or sheet of a certain size in various ways such as bonding or deposition. may be forming.

And the reflective sheet 10 through a processing device such as a laser or drill to form a mounting hole 12 made of a size sufficient to accommodate the LED body at regular intervals,

After covering the metal layer 11 with a dry film or a mask on which a specific pattern is formed, a circuit pattern for connecting an LED is formed through a photolithography method or the like.

And the circuit pattern is provided with a relatively larger through hole 21 than the mounting hole of the reflective sheet and covered with a protective film 20 that communicates with the mounting hole 12 one-to-one so that the circuit pattern is in contact / from the outside In the state that it is configured to prevent short circuit,

After the reflective sheet 10 is seated on a fixing jig for SMT, a soldering cream is formed inside each through hole.

And by inserting the body of the LED 30 into the through hole 21, the tip of the LED protrudes out of the mounting hole 12, and at the same time, the contact piece formed at the lower end of the LED 30 is formed in the through hole 21 ) to be soldered in contact with the circuit pattern located inside.

At this time, the LED 30 is soldered in a reflow method at a low temperature to minimize damage to the reflective sheet 10,

Thereafter, after checking whether there is any bias or distortion, it is checked whether the plurality of LEDs partitioned by the circuit pattern operate normally for each section.

Therefore, in the present invention, in a state in which the metal layer is integrally formed on the reflective sheet, by forming a mounting hole through the front and rear directions, and mounting the LED in the reverse method in the mounting hole, at least the thickness of the substrate is slimmer and the process is simplified. As well as being easily manufactured, productivity and yield are improved.

Although the present invention has been described with reference to the accompanying drawings, this is merely exemplary, and those of ordinary skill in the art can easily implement various modifications and equivalents therefrom. There will be. Therefore, the true technical protection scope of the present invention should be defined by the claims.

1: Backlight unit 10: Reflective sheet
11: Metal layer 12: Mounting hole
20: protective film 21: through hole
30: LED
110: double-sided board 111: circuit pattern
120: mini LED 130: reflective sheet
140: protective film

Claims (7)

In the backlight unit of a liquid crystal display operating in a direct manner,
The backlight unit is a backlight unit of a full array type in which a plurality of LEDs are arranged at regular intervals to perform local dimming,
The LED is a mini LED or a micro LED,
The LED is mounted on a circuit pattern in a reverse manner, and a board protruding from both left and right sides is formed at the bottom centering on a body provided with a chip, and a contact piece having a contact surface wrapped in a bent metal body at the left and right ends of the board. formed,
In a state in which a metal layer is integrally formed on the other side of the reflective sheet to prevent light loss, a plurality of mounting holes passing through the reflective sheet and the metal layer are formed, while the metal layer is connected to a plurality of LEDs to enable local dimming. a pattern is formed,
Each LED is inserted into the mounting hole of the reflective sheet and is mounted in a reverse manner so that the tip protrudes out of the reflective sheet and is connected to the circuit pattern,
A reflective sheet-integrated backlight unit, characterized in that it has a slim and improved productivity while simplifying the complicated manufacturing process and eliminating defects caused by misalignment. According to claim 1,
The reflective sheet is any one of a PET film, a PEN film, or a PP film having a reflective layer on one side,
A reflective sheet-integrated backlight unit, characterized in that, on the other side, a protective film, which is larger than the LED and has a through hole communicating with the mounting hole, is attached to the other side thereof. delete delete Forming a metal layer on the other side of the reflective sheet in a state in which the reflective sheet wound on the roll is unwound or cut to a predetermined size;
A step of forming a plurality of mounting holes through which the mini-LED or micro-LED penetrating through the reflective sheet and the metal layer is mounted through a laser or CNC;
Forming a circuit pattern on the metal layer so that local dimming is possible while being separated or partitioned around each mounting hole through a photolithography method or other chemical treatment method using a dry film or mask;
Laminating a protective film having a larger through-hole than the mounting hole while protecting the circuit pattern is laminated on the other side of the reflective sheet so that each through-hole and the mounting hole are in communication with each other;
Forming a soldering cream around the mounting hole inside each through-hole after seating the reflective sheet on a fixing jig for SMT;
A step of inserting a mini-LED or micro-LED into the through-hole of the protective film and mounting the mini-LED or micro-LED in a reverse manner so that the tip protrudes out of the mounting hole and is connected to the circuit pattern, and mounting the mini-LED or micro-LED in a reflow method at low temperature comprising the steps of:
A method of manufacturing a reflective sheet-integrated backlight unit, characterized in that it has a slim and improved productivity while simplifying a complicated manufacturing process and eliminating defects caused by misalignment. 6. The method of claim 5,
The reflective sheet comprises the steps of inspecting whether there is any bias or distortion of the LED;
The method of manufacturing a reflective sheet-integrated backlight unit, characterized in that it further comprises the step of inspecting whether the plurality of LEDs partitioned by the circuit pattern operate in a full-ray method for each section. delete

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