KR101975214B1 - Liquid crystal display module, method and apparatus for assembliing the same - Google Patents

Abstract

The present invention relates to a liquid crystal display module having a thin bezel width and thickness, a method of assembling the same, and a method of assembling the same, and a method of assembling the liquid crystal display module according to the present invention is a method of assembling a liquid crystal display panel Placing the liquid crystal display panel on the stage such that the lower surface of the liquid crystal display panel faces upward; Forming a panel bonding member made of an adhesive resin on an edge portion of the lower substrate; Bonding the panel support frame supporting the liquid crystal display panel to the panel adhesive resin; Bonding the panel support frame and the lower substrate by curing the panel bonding member; And attaching a reflective sheet on the lower surface of the panel support frame.

Description

TECHNICAL FIELD [0001] The present invention relates to a liquid crystal display (LCD) module, a method of assembling the same,

The present invention relates to a liquid crystal display, and more particularly, to a liquid crystal display module having a thin bezel width and thickness, a method of assembling the same, and an assembling apparatus.

2. Description of the Related Art In recent years, various types of flat panel display devices capable of reducing weight and volume, which are disadvantages of cathode ray tubes (CRTs), have been developed. As a flat panel display device, a liquid crystal display device, a plasma liquid crystal display panel, a field emission display device, a light emitting display device, However, liquid crystal display devices are attracting attention due to advantages such as mass production technology, ease of driving means, and realization of high image quality.

A liquid crystal display uses a thin film transistor (TFT) as a switching element to display an image. The liquid crystal display device is used as a display device of a notebook computer, a tablet computer, a navigation device, a smart phone, or various portable information devices in addition to a display device of a television or a monitor.

The liquid crystal display device includes a liquid crystal display module for displaying an image, a rear cover covering a rear surface of the liquid crystal display module, and a front cover covering a front edge portion corresponding to a non-display area except a display area of the liquid crystal display module .

1 is a cross-sectional view schematically showing a part of a conventional liquid crystal display module.

Referring to FIG. 1, a conventional liquid crystal display module includes a liquid crystal display panel 10, a backlight unit 20, a panel support frame 30, a lower case 40, and an upper case 50.

The liquid crystal display panel 10 displays an image corresponding to a data signal by controlling the transmittance of light emitted from the backlight unit 20 by driving the liquid crystal layer according to a data signal and a scan signal provided from a panel driver do. To this end, the liquid crystal display panel 10 includes a lower substrate 12, an upper substrate 14, a lower polarizing film 16, and an upper polarizing film 18.

A gate line and a data line are cross-formed in the lower substrate 12 to define a pixel region. A thin film transistor is formed in a region where the gate line and the data line cross each other. A pixel electrode connected to the thin- Respectively. The non-display area and the pad portion on one side of the lower substrate 12 are exposed to the outside so as to be connected to the panel driver for applying a signal to the gate line and the data line.

The upper substrate 14 is configured to include a color filter corresponding to the pixel region of the lower substrate 112 and is adhered to the lower substrate 12 with a liquid crystal layer (not shown) therebetween. At this time, the upper substrate 14 is formed to have a relatively smaller area than the lower substrate 12, and is attached to the lower substrate 12 except for the pad portion of the lower substrate 12.

The lower polarizing film 16 is attached to the lower surface of the lower substrate 12 to polarize the light irradiated to the lower substrate 12. [

The upper polarizing film 18 is attached to the upper surface of the upper substrate 14 to polarize light emitted to the outside through the upper substrate 14. The lower polarizing film 16 and the upper polarizing film 18 generally have mutually perpendicular polarization axes.

The backlight unit 20 is disposed below the liquid crystal display panel 10 and irradiates light to the lower surface of the liquid crystal display panel 10. [ The backlight unit 20 includes a light guide plate 21 for advancing light incident from a light source (not shown) toward the lower surface of the liquid crystal display panel 10, a reflection sheet 23 disposed below the light guide plate 21, And a plurality of optical sheets 25 disposed on the light guide plate 21 for improving luminance characteristics of light emitted from the light guide plate 21 to the liquid crystal display panel 10. [

The panel support frame 30 accommodates the backlight unit 20 and supports the rear edge portion of the liquid crystal display panel 10 and surrounds the side surfaces of the liquid crystal display panel 10.

The lower case 40 accommodates the panel support frame 30 to enclose the lower surface and one side of the panel support frame 30.

The upper case 50 covers the front edge portion of the liquid crystal display panel 10 corresponding to the non-display region except for the display region of the liquid crystal display panel 10 and the side surface of the panel support frame 30 and the lower case 40 ). The upper case 50 is coupled to the side surface of the lower case 40 to prevent the liquid crystal display panel 10 supported by the panel supporting frame 30 from being separated.

In the conventional liquid crystal display module, the upper case 50 must be provided to prevent the liquid crystal display panel 10 supported by the panel supporting frame 30 from separating from the liquid crystal display panel 10, The bezel width W is increased and the thickness T is increased because the bezel is disposed above the edge of the base 10.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a liquid crystal display module having a thin bezel width and thickness, a method of assembling the same, and an assembling apparatus.

According to another aspect of the present invention, there is provided a method of assembling a liquid crystal display module, comprising: vertically inverting a liquid crystal display panel on which an upper substrate and a lower substrate are assembled together and arranging the liquid crystal display panel on a stage such that a lower surface of the liquid crystal display panel faces upward; ; Forming a panel bonding member made of an adhesive resin on an edge portion of the lower substrate; Bonding the panel support frame supporting the liquid crystal display panel to the panel adhesive resin; Bonding the panel support frame and the lower substrate by curing the panel bonding member; And attaching a reflective sheet on the lower surface of the panel support frame.

The method of assembling the liquid crystal display module may further include a step of sequentially arranging a plurality of optical sheets and a light guide plate on a lower surface of the liquid crystal display panel before the step of forming the panel adhesive member, And a light source array is coupled to the side portion.

According to an aspect of the present invention, there is provided a liquid crystal display (LCD) module including: a liquid crystal display panel having an upper substrate and a lower substrate bonded together; A panel support frame coupled to a bottom edge portion of the lower substrate to support the liquid crystal display panel; A reflective sheet covering the lower surface of the panel support frame; And a panel bonding member which is applied to the bottom edge portion of the lower substrate and hardened to couple the lower substrate and the panel support frame to each other.

According to another aspect of the present invention, there is provided an apparatus for assembling a liquid crystal display module, including: a stage supporting a liquid crystal display panel on which an upper substrate and a lower substrate are bonded; A panel inserting unit for inserting the liquid crystal display panel into the stage such that the liquid crystal display panel is turned upside down so that the lower surface of the liquid crystal display panel faces upward; A resin coating unit for forming a panel adhesive resin on an edge portion of the lower substrate; A frame bonding unit for bonding the panel support frame supporting the liquid crystal display panel to the panel adhesive resin; A resin curing unit for curing the panel adhesive resin to join the panel joining part of the panel support frame and the lower substrate; And a reflective sheet attaching unit attaching a reflective sheet to a lower surface of the panel support frame, wherein the stage sequentially moves the supported liquid crystal display panel to each of the units.

Wherein the liquid crystal display module further includes an optical sheet arrangement unit and a light guide plate arrangement unit provided between the panel input unit and the resin application unit, And the light guide plate arrangement unit arranges the light guide plate on the plurality of optical sheets.

The apparatus for assembling the liquid crystal display module further comprises an optical sheet arranging unit provided between the panel inserting unit and the resin coating unit and arranging a plurality of optical sheets on the lower surface of the liquid crystal display panel .

According to a preferred embodiment of the present invention, a liquid crystal display module according to the present invention includes a panel attachment member made of an adhesive resin, and the lower surface of the liquid crystal display panel and the panel support member are coupled to each other, The case can be omitted and can have a thin bezel width and thickness.

A method and an apparatus for assembling a liquid crystal display module according to the present invention are characterized in that a panel bonding member is applied to a lower substrate of a liquid crystal display panel and then the panel support frame is bonded to the lower surface of the lower substrate, By increasing the bonding force, the bonding area between the liquid crystal display panel and the panel support frame can be reduced, thereby reducing the width of the bezel of the liquid crystal display module.

1 is a cross-sectional view schematically showing a part of a conventional liquid crystal display module.
2 is an exploded perspective view schematically showing a liquid crystal display module according to a first embodiment of the present invention.
3 is a cross-sectional view schematically showing a cross-section of I-I 'shown in Fig.
4 is a cross-sectional view schematically showing a cross section taken along a line I-I 'shown in FIG. 2 for explaining a liquid crystal display module according to a second embodiment of the present invention.
5 is an exploded perspective view schematically showing a liquid crystal display module according to a third embodiment of the present invention.
6 is a cross-sectional view schematically showing a cross-section of II-II 'shown in FIG.
7A to 7F are views for schematically explaining a method of assembling the liquid crystal display module according to the first embodiment of the present invention.
8A to 8E are views for schematically explaining a method for assembling the liquid crystal display module according to the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 2 is an exploded perspective view schematically showing a liquid crystal display module according to a first embodiment of the present invention, and FIG. 3 is a cross-sectional view schematically showing a cross section of I-I 'shown in FIG.

2 and 3, the liquid crystal display module according to the first embodiment of the present invention includes a liquid crystal display panel 110, a backlight unit 120, a panel support frame 130, and a panel adhesive member 140, .

The liquid crystal display panel 110 drives a liquid crystal layer according to a data signal and a scan signal provided from the panel driver 150 to adjust the transmittance of light emitted from the backlight unit 120 to generate a two- And displays a three-dimensional image. The liquid crystal display panel 110 includes a lower substrate 112, an upper substrate 114, a lower polarizing member 116, and an upper polarizing member 118.

The lower substrate 112 is a thin film transistor array substrate, and has a display region and a non-display region.

The lower substrate 112 includes a plurality of gate lines (not shown), a plurality of data lines (not shown), and a plurality of pixels (not shown) formed at intersections of the gate lines and the data lines . Each pixel may include a thin film transistor (not shown) connected to a gate line and a data line, a pixel electrode connected to the thin film transistor, and a common electrode formed adjacent to the pixel electrode and supplied with a common voltage. At this time, the common electrode may be formed on the upper substrate 114 according to the liquid crystal driving method of the liquid crystal layer. The lower substrate 112 controls the light transmittance of the liquid crystal layer by forming an electric field corresponding to a difference voltage between a data voltage and a common voltage applied to each pixel.

A plurality of pads (not shown) connected to the respective signal lines are provided on one edge of the lower substrate 1112, and the panel driver 150 is electrically connected to the plurality of pads.

A gate driving circuit (not shown) for supplying a gate (or scan) signal to the gate line is formed in one side short side of the lower substrate 112 or in a non-display region of both short sides. A gate drive circuit is formed together with the thin film transistor manufacturing process of each pixel described above so as to be connected to each gate line.

The upper substrate 114 is a color filter array substrate and is adhered to the lower substrate 112 with a liquid crystal layer (not shown) interposed therebetween by a panel sealing member (not shown).

The upper substrate 114 defines a pixel region corresponding to each pixel formed on the lower substrate 112, a light shielding layer (not shown) formed at the edge portion, and a color filter (not shown) formed in each pixel region . The color filter is emitted from the backlight unit 120 and transmits the light incident on the lower substrate 112 and the liquid crystal layer to filter the incident light with predetermined color light. A common electrode (not shown) to which a common voltage is supplied may be formed on the upper substrate 114 according to the driving method of the liquid crystal.

The lower polarizing member 116 is attached to a lower surface of the lower substrate 112 to polarize light emitted from the backlight unit 120 to the liquid crystal display panel 110. [

The upper polarizing member 118 may be a polarizing film attached to the upper surface of the upper substrate 114 to polarize color light transmitted through the upper substrate 114 and emitted to the outside.

The upper polarizing member 118 of another embodiment is an upper polarizing film (not shown) attached to the upper surface of the upper substrate 114 to polarize the color light emitted to the outside through the upper substrate 114, And a retarder film (not shown) attached to the upper surface of the liquid crystal display panel 110 and separating the three-dimensional image, that is, the left eye image and the right eye image, into different polarized states.

The panel driver 150 is connected to a plurality of pads provided on the lower substrate 112 and displays a predetermined two-dimensional image or a three-dimensional image on the liquid crystal display panel 110 by driving the liquid crystal display panel 110 . To this end, the panel driving unit 150 includes a driving integrated circuit 151, a flexible circuit film 153, and a flexible printed circuit board 155.

The driving integrated circuit 151 is mounted on the lower substrate 112 and is electrically connected to a plurality of pad portions to supply a data signal and a scan signal to a plurality of pad portions. To this end, the plurality of pad portions comprise an input pad portion and an output pad portion.

The input pad portion is composed of a plurality of input pads connected to the input terminal of the driving integrated circuit 151. The output pad portion extends from the signal line formed in the display region of the lower substrate 112, And a plurality of output pads connected to the output pad.

The flexible circuit film 153 is attached to the lower substrate 112 by a TAB (Tape Automated Bonding) process and is connected to the input pad portion.

The flexible printed circuit board 155 is connected to the flexible circuit film 153 by the TAB process. The flexible printed circuit board 155 receives image data, various power supplies, a timing synchronization signal, and the like from the system circuit portion and supplies the image data, the power supply, and the timing synchronization signal to the driving integrated circuit 151 through the flexible circuit film 153.

The backlight unit 120 is disposed on the panel support frame 130 to irradiate the liquid crystal display panel 110 with light. To this end, the backlight unit 120 includes a light guide plate 121, a light source array 123, a reflection sheet 125, and a plurality of optical sheets 127.

The light guide plate 121 is formed in a flat plate shape (or a wedge shape) so as to advance the light incident from the light source array 123 through the light incident surface toward the liquid crystal display panel 110.

The light source array 123 is arranged to face the light incident surface provided on at least one side surface of the light guide plate 121 and irradiate light to the light guide plate 121. For example, the light source array 123 includes an LED driving circuit film 123a and a plurality of LED packages 123b.

The LED driving circuit film 123a is disposed on the upper surface of one side of the panel supporting frame 130 so as to be adjacent to the light incident surface of the light guide plate 121. [ The LED driving circuit film 123a is provided with a connection connector connected to an LED driving unit (not shown) and an LED driving line for supplying LED driving power supplied from the LED driving unit to each LED package 123b through the connection connector Respectively.

Each of the plurality of LED packages 123b is connected in series or parallel to the LED driving line and emits light according to the LED driving power to irradiate the light incident surface of the light guide plate 121 with light. At this time, each of the plurality of LED packages 123b is disposed to face the light-incoming surface of the light guide plate 121 to emit light in the lateral direction.

The light source array 123 may be disposed to face the light incidence surface of the light guide plate 121 by a light source fixing member 124 made of an adhesive tape. The light source fixing member 124 is attached to one side upper edge portion of the light guide plate 121 and is attached to the LED driving circuit film 123a so that the light source array 123 is disposed to face the light entrance surface of the light guide plate 121 . That is, the light source fixing member 124 covers the gap space between the light source array 123 and the light guide plate, thereby preventing light leakage in the gap space.

The reflective sheet 125 is attached to the lower surface of the panel support frame 130 to support the lower surface of the light guide plate 121 and reflect the light incident from the light guide plate 121 toward the liquid crystal display panel 110.

The plurality of optical sheets 127 are disposed on the light guide plate 121 to improve the brightness characteristics of light traveling from the light guide plate 121 toward the liquid crystal display panel 110. To this end, the plurality of optical sheets 127 may be configured to include at least one diffusion sheet and a prism sheet.

The panel support frame 130 supports the lower surface of the liquid crystal display panel 110, that is, the bottom edge of the lower substrate 112. The panel support frame 130 houses the light guide plate 121, the light source array 123, and the plurality of optical sheets 127. To this end, the panel support frame 130 includes a panel coupling portion 131, and a side wall portion 133.

The panel coupling portion 131 is formed in a rectangular frame shape to have a rectangular opening to support the bottom edge portion of the lower substrate 112. A light guide plate 121, a light source array 123, and a plurality of optical sheets 127 are accommodated in the opening of the panel coupling portion 131.

The above-described reflective sheet 127 is attached to the lower surface 131a of the panel coupling portion 131. Accordingly, the reflective sheet 127 supports the lower surface of the light guide plate 121 accommodated in the opening of the panel coupling portion 131. [

A plurality of LED insertion grooves 134 into which the plurality of LED packages 123b are inserted are formed on one side of the panel coupling portion 131. Each of the plurality of LED packages 123b described above is inserted into each of the plurality of LED insertion grooves 134 so as to prevent the flow of the LEDs, and the LED driving circuit film 123a is mounted on the plurality of LED insertion grooves 134 Lt; / RTI >

The side wall part 133 is vertically protruded from the upper edge part of the panel coupling part 131 to have a predetermined height to cover the side surfaces of the liquid crystal display panel 110. The upper surface 133a of the side wall part 133 does not protrude from the upper surface of the liquid crystal display panel 110, that is, the upper surface of the upper polarizing member 118.

The panel bonding member 140 is formed on the lower surface of the lower substrate 112 of the liquid crystal display panel 110 so that the lower edge of the lower substrate 112 and the panel connecting portions of the panel supporting frame 130 (131). At this time, the panel bonding member 140 may be selected from a white color and a black color, and may be made of a photo-curable adhesive resin, a thermosetting adhesive resin, or a natural curable adhesive resin. For example, when the panel bonding member 140 is made of a photocurable adhesive resin, the panel bonding member 140 is bonded to the lower end of the lower substrate 112 by a bonding resin coating unit (not shown) Is first applied with a predetermined height and a predetermined amount between the polarizing members 116 and then adhered to the upper surface of the panel coupling portion 131 first and then cured by a resin curing process using a resin curing unit (not shown) The lower substrate 112 and the panel coupling portion 131 of the panel support frame 130 are coupled to each other.

In the liquid crystal display module according to the first embodiment of the present invention as described above, the lower surface of the liquid crystal display panel 110 and the panel supporting member 130 are coupled to each other by using the panel adhesive member 140 made of an adhesive resin, It is possible to omit a conventional upper case (see FIG. 1) for preventing the panel 110 from being separated from the panel 110 and to have a thin bezel width W and a thickness T, The conventional lower case (see FIG. 1) for supporting the panel support frame 110 by attaching to the lower surface of the support frame 110 can be omitted, and the thinner thickness T can be obtained.

4 is a cross-sectional view schematically showing a cross section taken along a line I-I 'shown in FIG. 2 for explaining a liquid crystal display module according to a second embodiment of the present invention. This is a modification of the structure of the panel support frame 130 . Hereinafter, only different configurations will be described.

The panel support frame 130 is formed only of the panel coupling portion 131 that supports the bottom surface of the liquid crystal display panel 110, that is, the bottom edge portion of the lower substrate 112.

The panel coupling portion 131 is formed in a rectangular frame shape to have a rectangular opening to support the bottom edge portion of the lower substrate 112. A light guide plate 121, a light source array 123, and a plurality of optical sheets 127 are accommodated in the opening of the panel coupling portion 131.

The above-described reflective sheet 125 is attached to the lower surface 131a of the panel coupling portion 131.

The upper surface 131a of the panel coupling part 131 is adhered to the panel bonding member 140 applied to the bottom edge of the liquid crystal display panel 110, that is, the bottom edge of the lower substrate 112, 140 to the lower edge of the lower substrate 112. Accordingly, the panel coupling part 131 exposes each side of the liquid crystal display panel 110 to the outside of the liquid crystal display module 110 without covering each side of the liquid crystal display panel 110. Therefore, the liquid crystal display module according to the second embodiment of the present invention can have a thinner bezel width because there is no structure to cover each side of the liquid crystal display panel 110.

FIG. 5 is an exploded perspective view schematically showing a liquid crystal display module according to a third embodiment of the present invention, and FIG. 6 is a cross-sectional view schematically showing a section of II-II 'shown in FIG. The light guide plate and the panel support frame 130 are integrally formed as a single body. Hereinafter, only different configurations will be described.

The panel support frame 130 is formed to include a light guide plate 121 of a flat plate shape by an injection molding method. Specifically, the panel support frame 130 includes a light guide plate 121, a panel coupling portion 135, a plurality of LED package insertion holes 137, and a light leakage prevention member 139.

The light guide plate 121 is formed in a flat plate shape so as to overlap the lower surface of the liquid crystal display panel 110, that is, the lower surface of the lower substrate 112. The reflective sheet 125 of the above-described backlight unit 120 is attached to the lower surface of the light guide plate 121.

The panel coupling portion 135 is formed (or protruded) to have a predetermined height from the upper surface edge portion of the light guide plate 121. The upper surface 135a of the panel attachment portion 135 is adhered to the panel adhesive member 140 applied to the lower edge of the liquid crystal display panel 110, that is, the lower edge portion of the lower substrate 112, 140 to the lower edge of the lower substrate 112.

The panel coupling part 135 exposes each side of the liquid crystal display panel 110 to the outside of the liquid crystal display module 110 without covering each side of the liquid crystal display panel 110. Accordingly, the liquid crystal display module according to the third embodiment of the present invention can have a thin bezel width as the liquid crystal display module of the second embodiment described above.

Each of the plurality of LED package insertion holes 137 is formed to penetrate one side of the light guide plate 121, which overlaps with one side non-display region of the lower substrate 112, at regular intervals. In each of the plurality of LED package insertion holes 137, the LED package 123b of the light source array 123 is inserted. The LED driving circuit film 123a of the light source array 123 described above is seated on the plurality of LED package insertion holes 137. The LED driving circuit film 123a is a light source fixing member 124, respectively.

The light-preventing member 139 prevents or prevents light leakage of light emitted from the light guide plate 121 on the respective side surfaces of the light guide plate 121 and the outer surface of the panel coupling portion 135 in an undesired direction. The light-preventing member 139 may be a coating layer, a vinyl tape, a metal thin film tape, or the like.

The liquid crystal display module according to the embodiment of the present invention as described above can be configured as a display device of a television, a computer monitor, a tablet computer, various portable information devices, or a notebook computer in addition to a portable terminal such as a smart phone. In this case, the display means may further include a rear cover (not shown) for housing the liquid crystal display module, and a front cover (not shown) formed to surround the front edge portion and the side surface of the liquid crystal display module and coupled to the rear cover .

7A to 7F are views for schematically explaining a method for assembling the liquid crystal display module according to the first embodiment of the present invention, and a method for assembling the liquid crystal display module according to the first embodiment of the present invention will be described Then, In the following description of the assembling method, a detailed description of each constitution will be given with reference to FIG. 2 and FIG. 3.

The lower substrate 112 and the upper substrate 114 are bonded to each other and the lower polarizer 116 and the upper polarizer 118 are formed on the lower surface of the lower substrate 112 and the upper surface of the upper substrate 114, And a liquid crystal display panel 110 to which the panel driving unit 150 is attached is provided on the lower substrate 112.

7A, the liquid crystal display panel 110 is vertically inverted to be disposed on the stage 200 such that the lower surface of the liquid crystal display panel 110, that is, the lower polarizing member 116, faces upwardly .

7B, the optical sheets 127 of the backlight unit described above are disposed on the lower surface of the liquid crystal display panel disposed on the stage 200, that is, on the lower polarizing member 116. [

Then, as shown in Fig. 7C, the light guide plate 121 of the backlight unit described above is disposed on the optical sheet 127. Fig. At this time, a light source array 123 (see FIG. 2) of the above-described backlight unit is coupled to one side of the light guide plate 121 disposed on the upper surface of the optical sheet 127.

7D, the panel adhesive member 140 is applied along the bottom edge portion of the lower substrate 112 by using the adhesive resin application unit 142. Then, as shown in Fig. At this time, the adhesive resin application unit 142 applies a panel adhesive member 140 having a predetermined width and a predetermined amount to the bottom edge portion of the lower substrate 112 adjacent to the side surface of the lower polarizing member 116.

7E, the above-described panel support frame 130 is adhered to the panel bonding member 140. Then, as shown in Fig. The panel attachment portion 131 of the panel support frame 130 is bonded to the panel adhesive member 140 to cover the side surfaces of the plurality of optical sheets 127 and the light guide plate 127. The side wall 133 of the panel support frame 130 surrounds the side surface of the liquid crystal display panel 100.

Subsequently, the panel bonding portion 131 of the panel supporting frame 130 and the lower substrate 112 of the liquid crystal display panel 110 are bonded to each other by curing the panel bonding member 140 using light or heat. Accordingly, the panel supporting frame 130 is coupled to the bottom edge of the LCD panel 110 and covers the side surface of the LCD panel 110 and the side surface of the backlight unit.

7F, the lower surface of the panel supporting frame 130 coupled to the liquid crystal display panel 110, that is, the lower surface 131a of the panel connecting portion 131, The sheet 125 is attached. At this time, the reflective sheet 125 is disposed on the lower surface of the panel support frame 130 to support the light guide plate 121.

After completing the final liquid crystal display module through the process of attaching the reflective sheet 125, the completed liquid crystal display module is unloaded from the stage 200 to complete the assembling process of the liquid crystal display module.

The method of assembling the liquid crystal display module according to the first embodiment of the present invention includes applying the panel bonding member 140 to the lower substrate 112 of the liquid crystal display panel 110, The coupling strength between the liquid crystal display panel 110 and the panel support frame 130 can be increased by bonding the liquid crystal display panel 110 to the substrate 112 to optimize the coupling area between the liquid crystal display panel 110 and the panel support frame 130, The bezel width of the display module can be reduced.

4, except that the structure of the panel support frame 130 is changed as described above, the liquid crystal display module according to the second embodiment of the present invention shown in FIG. The method of assembling the liquid crystal display module according to the second embodiment of the present invention may be the same as the assembling method of the liquid crystal display module according to the first embodiment of the present invention described above.

8A to 8E are views for schematically explaining a method of assembling the liquid crystal display module according to the third embodiment of the present invention, and a method of assembling the liquid crystal display module according to the third embodiment of the present invention will be described Then, In the following description of the assembling method, a detailed description of each constitution will be given with reference to FIG. 5 and FIG. 6.

The lower substrate 112 and the upper substrate 114 are bonded to each other and the lower polarizer 116 and the upper polarizer 118 are formed on the lower surface of the lower substrate 112 and the upper surface of the upper substrate 114, And a liquid crystal display panel 110 to which the panel driving unit 150 is attached is provided on the lower substrate 112.

8A, the liquid crystal display panel 110 is vertically inverted to be disposed on the stage 200 such that the lower surface of the liquid crystal display panel 110, that is, the lower polarizing member 116, faces upwardly .

8B, the optical sheets 127 of the backlight unit described above are disposed on the lower surface of the liquid crystal display panel disposed on the stage 200, that is, on the lower polarizing member 116. [

Then, as shown in Fig. 8C, the panel adhesive member 140 is applied along the bottom edge portion of the lower substrate 112 by using the adhesive resin application unit 142. Fig. At this time, the adhesive resin application unit 142 applies a panel adhesive member 140 having a predetermined width and a predetermined amount to the bottom edge portion of the lower substrate 112 adjacent to the side surface of the lower polarizing member 116.

Then, as shown in Fig. 8D, the above-described panel support frame 130 is bonded to the panel bonding member 140. Next, as shown in Fig. Accordingly, the light guide plate 121 of the panel support frame 130 is disposed to cover the optical sheet 127. The panel attachment portion 131 of the panel support frame 130 is adhered to the panel adhesive member 140 so as to cover the side surfaces of the plurality of optical sheets 127 and the light guide plate 127, ) Are adhered to the edge portions of the lower surface of the lower surface. 5) is formed on one side of the light guide plate 121 corresponding to a plurality of LED package insertion holes 137 (see FIG. 5) provided at one side of the light guide plate 121. The light source array 123 Respectively.

Subsequently, the panel bonding portion 131 of the panel supporting frame 130 and the lower substrate 112 of the liquid crystal display panel 110 are bonded to each other by curing the panel bonding member 140 using light or heat. Accordingly, the panel supporting frame 130 is coupled to the bottom edge of the LCD panel 110 and covers the side surface of the LCD panel 110 and the side surface of the backlight unit.

8E, the bottom surface of the panel support frame 130 coupled to the liquid crystal display panel 110, that is, the bottom surface 121a of the light guide plate 121, 125) is attached.

After completing the final liquid crystal display module through the process of attaching the reflective sheet 125, the completed liquid crystal display module is unloaded from the stage 200 to complete the assembling process of the liquid crystal display module.

The method of assembling the liquid crystal display module according to the third embodiment of the present invention provides the same effect as the assembling method of the liquid crystal display module according to the third embodiment described above, It is possible to simplify the assembling process.

9 is a view schematically showing an assembling apparatus of a liquid crystal display module according to a first embodiment of the present invention. This assemblies the constitutions of the liquid crystal display module of the first and second embodiments shown in Figs. 2 to 4 Lt; / RTI >

9, the apparatus for assembling a liquid crystal display module according to the first embodiment of the present invention includes a stage 200, a panel input unit 310, an optical sheet arrangement unit 320, a light guide plate arrangement unit 330, A frame bonding unit 350, a resin hardening unit 360, and a reflective sheet placing unit 370,

The stage 200 is formed in the shape of a circular table and is rotatably installed in the middle of the units. In the stage 200, a plurality of panel receiving portions 210 having a predetermined interval are formed to support the liquid crystal display panel 110. The stage 200 rotates at a predetermined angle in a predetermined direction (for example, counterclockwise) so that the assembling process of the liquid crystal display module is sequentially performed by each of the units.

The panel input unit 310 is installed on the side of the panel input area set on the stage 200 and inverts the liquid crystal display panel 110 so that the lower surface of the liquid crystal display panel 110, 116 are upwardly housed in the panel housing part 210 of the stage 200. As a result, the panel input unit 310 stores the liquid crystal display panel 110 in each panel housing part 210 moved to the panel input area in synchronization with the rotation of the stage 200.

The optical sheet arranging unit 320 is disposed on the side of the optical sheet arrangement region set on the stage 200 so as to be adjacent to the panel input unit 310. [ The optical sheet arranging unit 320 is disposed on the lower surface of the liquid crystal display panel 110 that is moved to the optical sheet arrangement region in accordance with the rotation of the stage 200, The sheet 127 is disposed.

The light guide plate arranging unit 330 is provided on the side of the light guide plate arrangement area set on the stage 200 so as to be adjacent to the optical sheet arranging unit 320. [ The light guide plate disposing unit 330 is disposed on the lower surface of the liquid crystal display panel 110 that is moved to the light guide plate disposition area according to the rotation of the stage 200, ). At this time, the light source array is coupled to the light guide plate 121 as described above.

The resin coating unit 340 is provided on the side of the resin application region set on the stage 200 so as to be adjacent to the light guide plate placement unit 330. [ The resin coating unit 340 is formed on the bottom edge of the liquid crystal display panel 110 that has moved to the resin application region in accordance with the rotation of the stage 200, (140). That is, the resin coating unit 340 applies the panel bonding member 140 made of an adhesive resin to the edge portion of the lower substrate 112 adjacent to the side of the lower polarizing member with a predetermined width and a predetermined amount.

The frame bonding unit 350 is provided on the side of the frame bonding area set on the stage 200 so as to be adjacent to the resin coating unit 340. [ The frame bonding unit 350 attaches the panel bonding member 140 applied to the lower substrate 112 of the liquid crystal display panel 110 moved to the frame bonding region in accordance with the rotation of the stage 200, (130). The panel attachment portion 131 of the panel support frame 130 is bonded to the panel adhesive member 140 to cover the side surfaces of the plurality of optical sheets 127 and the light guide plate 127. The side wall 133 of the panel support frame 130 surrounds the side surface of the liquid crystal display panel 100.

The resin curing unit 360 is provided on the side of the resin curing region set in the stage 200 so as to be adjacent to the frame bonding unit 350. The resin curing unit 360 may be disposed between the lower substrate 112 of the liquid crystal display panel 110 and the panel coupling portion of the panel support frame 130 The panel bonding member 140 formed between the first and second substrates 131 and 131 is irradiated with light or heat is applied to harden the panel bonding member 140. The panel bonding member 140 is coupled to the panel connecting portion 131 of the panel supporting frame 130 and the lower substrate 112 of the liquid crystal display panel 110, Is coupled to the bottom edge portion of the liquid crystal display panel 110 and covers the side surface of the liquid crystal display panel 110 and the side surface of the backlight unit.

The reflective sheet arranging unit 370 is provided on the side of the reflective sheet arrangement region set in the stage 200 so as to be adjacent to the resin curing unit 360. [ The reflective sheet arranging unit 370 is disposed on the lower surface of the panel supporting frame 130 coupled to the liquid crystal display panel 110 that has been moved to the reflective sheet arranging region according to the rotation of the stage 200, The reflective sheet 125 of the above-described backlight unit is attached to the lower surface 131a. When the reflective sheet 125 is disposed, the assembled liquid crystal display module is disposed in the panel housing part 210 of the stage 200.

The module unloading unit 380 is installed on the side of the module unloading area set in the stage 200 so as to be positioned between the reflective sheet arranging unit 370 and the panel input unit 310. The module unloading unit 380 picks up the liquid crystal display module 100 from the panel housing part 210 moved to the module unloading area according to the rotation of the stage 200 and unloads the liquid crystal display module 100 to the outside.

The liquid crystal display module assembling apparatus according to the first exemplary embodiment of the present invention automatically assembles the liquid crystal display panel 110, the backlight unit, and the panel support frame 130 sequentially according to the rotation of the stage 200 And the assembled liquid crystal display module 100 is unloaded to the outside.

10 is a view schematically showing an assembling apparatus of a liquid crystal display module according to a second embodiment of the present invention, which is an apparatus for assembling the respective components of the liquid crystal display module of the third embodiment shown in Figs. 5 and 6 .

10, an apparatus for assembling a liquid crystal display module according to a second embodiment of the present invention includes a stage 200, a panel input unit 410, an optical sheet arrangement unit 420, a resin application unit 430, An adhesive unit 440, a resin curing unit 450, and a reflective sheet arranging unit 460, and a module unloading unit 470.

The stage 200 is formed in the shape of a circular table and is rotatably installed in the middle of the units. In the stage 200, a plurality of panel receiving portions 210 having a predetermined interval are formed to support the liquid crystal display panel 110. The stage 200 rotates at a predetermined angle in a predetermined direction (for example, counterclockwise) so that the assembling process of the liquid crystal display module is sequentially performed by each of the units.

The panel input unit 410 is installed on the side of the panel input area set on the stage 200 to vertically invert the liquid crystal display panel 110 so that the lower surface of the liquid crystal display panel 110, 116 are upwardly housed in the panel housing part 210 of the stage 200. As a result, the panel input unit 410 stores the liquid crystal display panel 110 in each panel housing part 210 moved to the panel input area in synchronization with the rotation of the stage 200.

The optical sheet arranging unit 420 is provided on the side of the optical sheet arrangement area set on the stage 200 so as to be adjacent to the panel input unit 410. [ The optical sheet arranging unit 420 is disposed on the lower surface of the liquid crystal display panel 110 that is moved to the optical sheet arrangement region according to the rotation of the stage 200, The sheet 127 is disposed.

The resin coating unit 430 is provided on the side of the resin application region set on the stage 200 so as to be adjacent to the optical sheet placement unit 420. [ As described above, the resin coating unit 430 is mounted on the bottom edge of the liquid crystal display panel 110, that is, the edge of the lower substrate 112, which is moved to the resin application region in accordance with the rotation of the stage 200, The adhesive member 140 is applied.

The frame bonding unit 440 is provided on the side of the frame bonding area set on the stage 200 so as to be adjacent to the resin coating unit 430. [ The frame bonding unit 440 is attached to the panel bonding member 140 applied to the lower substrate 112 of the liquid crystal display panel 110 moved to the frame bonding region in accordance with the rotation of the stage 200, The light guide plate 121 adheres the panel support frame 130 (see Figs. 5 and 6), which are integrated with each other. Accordingly, the light guide plate 121 of the panel support frame 130 is disposed to cover the optical sheet 127. The panel attachment portion 131 of the panel support frame 130 is adhered to the panel adhesive member 140 so as to cover the side surfaces of the plurality of optical sheets 127 and the light guide plate 127, ) Are adhered to the edge portions of the lower surface of the lower surface. 5) is formed on one side of the light guide plate 121 corresponding to a plurality of LED package insertion holes 137 (see FIG. 5) provided at one side of the light guide plate 121. The light source array 123 Respectively.

The resin curing unit 450 is provided on the side of the resin curing region set in the stage 200 so as to be adjacent to the frame bonding unit 440. The resin curing unit 450 is disposed between the lower substrate 112 of the liquid crystal display panel 110 and the panel coupling portion of the panel support frame 130 The panel bonding member 140 formed between the first and second substrates 131 and 131 is irradiated with light or heat is applied to harden the panel bonding member 140. The panel bonding member 140 is coupled to the panel connecting portion 131 of the panel supporting frame 130 and the lower substrate 112 of the liquid crystal display panel 110, Is coupled to the bottom edge portion of the liquid crystal display panel 110 and also covers the side surface of the backlight unit.

The reflective sheet arranging unit 460 is provided on the side of the reflective sheet arrangement region set on the stage 200 so as to be adjacent to the resin curing unit 450. The reflective sheet arranging unit 460 may be disposed on the lower surface of the panel support frame 130 coupled to the liquid crystal display panel 110 that is moved to the reflective sheet arrangement region according to the rotation of the stage 200, The reflective sheet 125 of the backlight unit described above is attached to the lower surface 121a. When the reflective sheet 125 is disposed, the assembled liquid crystal display module is disposed in the panel housing part 210 of the stage 200.

The module unloading unit 470 is installed on the side of the module unloading area set in the stage 200 so as to be adjacent to the reflective sheet arranging unit 460. The module unloading unit 470 picks up the liquid crystal display module 100 from the panel housing part 210 moved to the module unloading area according to the rotation of the stage 200 and unloads the liquid crystal display module 100 to the outside.

The apparatus for assembling the liquid crystal display module according to the second embodiment of the present invention can provide the same effect as the apparatus for assembling the liquid crystal display module according to the first embodiment described above.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: liquid crystal display module 110: liquid crystal display panel
112: lower substrate 114: upper substrate
120: backlight unit 121: light guide plate
123: light source array 125: reflective sheet
127: optical sheet 130: panel support frame
140: Panel bonding member 150: Panel driving part

Claims (13)

Disposing the liquid crystal display panel in which the upper substrate and the lower substrate are adhered vertically, and arranging the liquid crystal display panel so that the lower surface of the liquid crystal display panel faces upward;
Sequentially arranging a plurality of optical sheets and a light guide plate on a lower surface of the liquid crystal display panel disposed on the stage;
Applying a panel adhesive resin to a bottom edge portion of the lower substrate disposed on the stage;
Adhering the plurality of optical sheets and a panel support frame for supporting the liquid crystal display panel to the panel adhesive resin while surrounding the light guide panel;
Curing the panel adhesive resin to bond the panel support frame and the lower substrate to each other; And
And attaching a reflective sheet to the lower surface of the panel support frame,
Wherein the panel support frame is not overlapped with the plurality of optical sheets and the light guide plate, respectively. The method according to claim 1,
And a light source array is coupled to one side of the light guide plate. The method according to claim 1,
The panel support frame includes:
A panel coupling portion for supporting a bottom edge portion of the lower substrate; And
And a sidewall portion protruding vertically from a top edge portion of the panel coupling portion to surround a side surface of the liquid crystal display panel,
Wherein the reflective sheet is attached to a lower surface of the panel coupling portion to support the lower surface of the light guide plate. Disposing the liquid crystal display panel in which the upper substrate and the lower substrate are adhered vertically, and arranging the liquid crystal display panel so that the lower surface of the liquid crystal display panel faces upward;
Disposing a plurality of optical sheets on a lower surface of the liquid crystal display panel disposed on the stage;
Applying a panel adhesive resin to a bottom edge portion of the lower substrate disposed on the stage;
Adhering a panel support frame for supporting the liquid crystal display panel to the panel adhesive resin;
Curing the panel adhesive resin to bond the panel support frame and the lower substrate to each other; And
And attaching a reflective sheet to the lower surface of the panel support frame,
The panel support frame includes:
A light guide plate superposed on a lower surface of the lower substrate;
A panel coupling part vertically protruding from a top edge of the light guide plate and coupled to a lower edge of the lower substrate by the panel adhesive resin; And
And a light leakage prevention member formed on a side surface of the light guide plate and an outer side surface of the panel connection portion,
A light source array is coupled to one side of the light guide plate,
In the step of attaching the reflective sheet, the reflective sheet is further attached to the lower surface of the light guide plate,
Wherein the panel connecting portion is not overlapped with each of the light source array and the plurality of optical sheets. A liquid crystal display panel having an upper substrate and a lower substrate bonded together;
A panel support frame coupled to a bottom edge portion of the lower substrate via a panel adhesive member to support the liquid crystal display panel; And
And a reflective sheet attached to a lower surface of the panel support frame,
The panel support frame includes:
A light guide plate superposed on a lower surface of the lower substrate;
A panel coupling portion vertically protruded from a top edge portion of the light guide plate and coupled to a bottom edge portion of the lower substrate by the panel adhesive member; And
And a light leakage prevention member formed on a side surface of the light guide plate and an outer side surface of the panel connection portion,
A light source array is coupled to one side of the light guide plate,
A plurality of optical sheets are disposed between the light guide plate and the liquid crystal display panel,
The reflective sheet is further attached to the lower surface of the light guide plate,
And the panel coupling portion is not overlapped with the light source array and the plurality of optical sheets, respectively. delete delete delete delete delete delete delete delete

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