KR102516814B1 - Display device - Google Patents

Abstract

The present invention includes a display panel having a pad part provided on one edge, a panel driver connected to the pad part, and a backlight unit disposed under the display panel, wherein the backlight unit is disposed on the other edge of the display panel opposite to the one edge. It has a light source overlapping with.

Description

Display device {DISPLAY DEVICE}

The present invention relates to a display device, and more particularly, to a display device having a thin thickness and improved aesthetics.

As a flat panel display device that replaces the cathode ray tube, which is an early display device, liquid crystal display devices, plasma display panels, and light emitting display devices have been developed. has been

Such a flat panel display device has made it possible to increase the size of the device by reducing the weight and volume, and research and development are continuously conducted in terms of response speed and image quality.

In recent years, the need for research and development in terms of product design that can appeal more to consumers has been particularly highlighted along with such research and development in terms of technology. Accordingly, efforts to minimize the thickness of the display device are steadily progressing, and the demand for a design with improved aesthetic sense that can stimulate purchase by appealing to the aesthetic sense of the consumer is gradually increasing.

However, in conventional display devices, since the light source unit of the backlight unit and the panel driver unit for driving the display panel are disposed at the same location, there is a limitation in reducing the thickness or changing the design of the display device. In addition, as the heat-sensitive panel driving unit is disposed at the same position as the light source unit, a means for preventing heat transfer such as an insulating pad is formed, resulting in an increase in the thickness of the display device. In addition, conventional display devices have a problem in that the width of a bezel, which is an edge of the display panel, increases as the guide frame supporting the display panel and the storage case supporting the guide frame are fastened from the side.

The present invention has been made to solve the above problems, and a technical task is to provide a display device having a thin bezel and improving aesthetics.

In addition to the technical problems of the present invention mentioned above, other features and advantages of the present invention will be described below, or will be clearly understood by those skilled in the art from such description and description.

The present invention for achieving the above technical problem includes a display panel having a pad portion provided on one edge, a panel driving unit connected to the pad portion, and a backlight unit disposed under the display panel, wherein the backlight unit is disposed on the one edge. Provided is a display device having a light source unit overlapping with the other edge of the display panel opposite to the display panel.

According to the present invention, since the light source unit disposed on one side and the data driving integrated circuit disposed on the other side of the display device are separately disposed, the thickness of the bezel on each side can be reduced.

In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required.

In addition, since the guide frame and the storage case are not fastened on the side of the display device but on the upper side of the display device on the other side of the display device, the side area of the display device can be minimized and the thickness of the bezel can be reduced.

The effects obtainable in the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below. .

1 is a perspective view of a display device according to an example of the present invention.
2 is an exploded perspective view for specifically explaining a display device according to an embodiment of the present invention.
3 is a cross-sectional view taken along line AA of FIG. 1 according to a first example of the present invention.
4 is a cross-sectional view along line BB of FIG. 1 according to a second example of the present invention.
5 is a perspective view of a line CC of FIG. 1 according to a third example of the present invention.
6 is a cross-sectional view taken along line DD of FIG. 5 .
7 is a perspective view of a line CC of FIG. 1 according to a fourth example of the present invention.
8 is a cross-sectional view taken along line EE of FIG. 7 .
9 is a perspective view of a line CC of FIG. 1 according to a fifth example of the present invention.
10 is a cross-sectional view taken along line FF of FIG. 9 .
11 is a cross-sectional view along line GG of FIG. 9 .
12 is an exploded perspective view of line CC of FIG. 1 according to a sixth example of the present invention.
13 is a perspective view of a line CC of FIG. 1 according to a sixth example of the present invention.
14 is a cross-sectional view taken along line HH of FIG. 13;

The meaning of terms described in this specification should be understood as follows.

Singular expressions should be understood to include plural expressions unless the context clearly defines otherwise, and terms such as “first” and “second” are used to distinguish one component from another, The scope of rights should not be limited by these terms. It should be understood that terms such as "comprise" or "having" do not preclude the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof. The term “at least one” should be understood to include all possible combinations from one or more related items. For example, "at least one of the first item, the second item, and the third item" means not only the first item, the second item, or the third item, respectively, but also two of the first item, the second item, and the third item. It means a combination of all items that can be presented from one or more. The term "on" means not only the case where a certain component is formed directly on top of another component, but also the case where a third component is interposed between these components.

Hereinafter, a preferred example of a display device according to the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to components of each drawing, the same components may have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description may be omitted.

1 is a perspective view of a display device according to an example of the present invention, and FIG. 2 is an exploded perspective view for explaining the display device according to an example of the present invention in detail.

Referring to FIGS. 1 and 2 , the display device 100 according to an example of the present invention has one side S1 and the other side S2, and includes a display panel 110, a panel support unit 120, and a panel driving unit 130. ), a backlight unit 140, and an exterior case 150.

The display panel 110 displays an image by adjusting the light transmittance of a liquid crystal layer, and includes a lower substrate, an upper substrate, a lower polarizing member, and an upper polarizing member bonded to each other with a liquid crystal layer (not shown) interposed therebetween. can do. As described above, the display panel 110 displays a predetermined color image according to the light transmittance of the liquid crystal layer by driving the liquid crystal layer according to the electric field formed for each pixel by the data voltage and the common voltage applied to each pixel.

The panel support part 120 includes a guide frame 124 and a storage case 126 . The guide frame 124 supports the display panel 110 , and the storage case 126 accommodates the backlight unit 140 and supports the guide frame 124 .

The panel driver 130 is connected to a pad provided on the lower substrate and displays a predetermined color image on the display panel 110 by driving each pixel of the display panel 110 . The panel driver 130 according to an example includes a plurality of circuit films 132 connected to the pad part of the display panel 110, a data driving integrated circuit 136 mounted on each of the plurality of circuit films 132, and a plurality of circuits. It is configured to include a printed circuit board 134 coupled to each of the films 132, and a timing controller 138 mounted on the printed circuit board 134.

Each of the circuit films 132 is attached between the pad part of the lower substrate and the gate printed circuit board by a film attaching process, and may be made of TCP (Tape Carrier Package) or COF (Chip On Flexible Board or Chip On Film). there is. Each of these circuit films 132 is bent along one side, that is, the lower side, of the display panel 110 and disposed on the rear side of the guide frame 124 .

The data driving integrated circuit 136 is mounted on each of the plurality of circuit films 132 and connected to the pad unit through the circuit films 132 . The data driving integrated circuit 136 receives pixel data and a data control signal for each pixel supplied from the timing controller 138, converts the pixel data for each pixel into an analog data signal according to the data control signal, It is supplied to the corresponding data line.

The printed circuit board 134 is connected to a plurality of circuit films 132 . The printed circuit board 134 serves to provide signals necessary for displaying an image on each pixel of the display panel 110 to the data driving integrated circuit 136 and the gate driving circuit. To this end, various signal wires, various power circuits (not shown), and memory elements (not shown) are mounted on the printed circuit board 134 .

The timing control unit 138 is mounted on the printed circuit board 134 and converts digital image data input from the driving system in response to a timing synchronization signal supplied from an external driving system (not shown) to the pixel arrangement of the display panel 110. By arranging to suit the structure, pixel data for each pixel is generated, and the generated pixel data for each pixel is provided to the data driving integrated circuit 136 . Also, the timing controller 138 generates a data control signal and a gate control signal, respectively, based on the timing synchronizing signal to control driving timings of the data driving integrated circuit 136 and the gate driving circuit.

Additionally, the timing controller 138 may individually control the luminance of each region of the display panel 110 by controlling the backlight unit 140 through edge-type local dimming technology.

The backlight unit 140 is housed in the storage case 126 and emits light to the lower surface of the display panel 110 . Accordingly, the display panel 110 is disposed on the backlight unit 140 . The backlight unit 140 according to an example may include a reflective sheet 142 , a light guide plate 144 , a light source unit 146 , and an optical sheet member 148 .

The reflective sheet 142 is disposed on the lower surface of the light guide plate 144 to reflect light incident from the light guide plate 144 toward the light guide plate 144, thereby minimizing loss of light traveling to the rear surface of the light guide plate 144.

The light guide plate 144 is formed in a flat plate (or wedge) shape to have a light incident surface provided on at least one side surface, so that light incident from the light source unit 146 through the light incident surface proceeds toward the display panel 110 .

The light source unit 146 radiates light to a light input unit provided on one side of the light guide plate 144 . The light source unit 146 according to an example may include a plurality of light emitting diode packages that are mounted on an array substrate and emit white light by emitting light in response to a light source driving signal supplied from a backlight driver (not shown).

The optical sheet member 148 is disposed on the light guide plate 144 and may include, but is not limited to, a lower diffusion sheet, a prism sheet, and an upper diffusion sheet, but is not limited thereto, and includes a diffusion sheet, a prism sheet, and double luminance enhancement. It may be made of a laminated combination of two or more selected from a film (dual brightness en-hancement film) and a lenticular sheet.

The exterior case 150 forms an exterior by covering the side surface of the guide frame 124 while accommodating the storage case 126 .

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1, and is a cross-sectional view of one side (S1) of the display device according to the first example of the present invention.

Referring to FIG. 3 , the display device 100 according to the first example of the present invention includes a display panel 110, a panel support unit 120, a panel driving unit 130, a backlight unit 140, and an exterior case 150. includes

The display panel 110 displays a predetermined image using light emitted from the backlight unit 140 . The display panel 110 includes an upper substrate 112 and a lower substrate 114 bonded to each other with a liquid crystal layer (not shown) therebetween, an upper polarizing member 116 attached to the upper substrate 112, and a lower substrate. A lower polarizing member 118 attached to 114, and a side sealing member 119 attached to the side surface of the upper substrate 112.

The upper substrate 112 is a thin film transistor array substrate and includes a plurality of pixels (not shown) disposed in each region crossed by a plurality of gate lines (not shown) and a plurality of data lines (not shown). Each pixel may include a thin film transistor (not shown) connected to the gate line and the data line, a pixel electrode connected to the thin film transistor, and a common electrode disposed adjacent to the pixel electrode to which a common voltage is supplied. In this case, the common electrode may be disposed on the lower substrate 114 according to the driving method of the liquid crystal layer. The upper substrate 112 controls the light transmittance of color light passing through the lower substrate 112 and the liquid crystal layer by forming an electric field corresponding to the difference between the data voltage and the common voltage applied to each pixel, thereby controlling the display panel 110. ) to display a predetermined color image.

As such, a pad part P to which various signals for driving each pixel are supplied is provided on the lower side of the upper substrate 112 . At this time, the panel driver 130 for driving the display panel 110 is connected to the pad part P.

The lower substrate 114 is a color filter array substrate and is formed to have a relatively smaller area than the upper substrate 112 . The lower substrate 114 is bonded to the upper substrate 112 with the liquid crystal layer interposed therebetween so as to overlap the remaining area of the upper substrate 112 except for the pad portion P. At this time, the lower substrate 114 includes horizontal and vertical light blocking layers (not shown) for defining pixel areas corresponding to respective pixels formed on the upper substrate 112, and an edge blocking layer formed on the edge of the lower substrate 114. (not shown), and a color filter (not shown) formed for each pixel area. The color filter filters light incident from the backlight unit 140 through the lower substrate 114 and proceeding toward the upper substrate 112 into light of a predetermined color. As such, a common electrode (not shown) to which a common voltage is supplied may be disposed on the lower substrate 114 according to a driving method of the liquid crystal layer.

On the other hand, the specific configuration of the upper substrate 112 and the lower substrate 114 is a drive mode of the liquid crystal layer, for example, TN (Twisted Nematic) mode, VA (Vertical Alignment) mode, IPS (In plane switching) mode, and Depending on a fringe field switching (FFS) mode, etc., it may be formed in various shapes known in the art.

The upper polarizing member 116 is attached to the upper surface of the upper substrate 112 and polarizes color light emitted to the outside through the upper substrate 112 .

The lower polarizing member 118 is attached to the rear surface of the lower substrate 114 and is disposed except for an end of the lower substrate 114 . The lower polarization member 118 polarizes light incident from the backlight unit 140 .

The side sealing member 119 is disposed to cover the side surfaces of the upper substrate 112 and the upper polarizing member 116 to prevent light leakage and side protection of the upper substrate 112 . The side sealing member 119 may be made of a thermosetting or photocurable resin.

The panel support part 120 includes a guide frame 124 and a storage case 126 .

The guide frame 124 is coupled to the display panel 110 through a panel coupling member 122 . At this time, the panel coupling member 122 is preferably combined with the lower substrate 114 of the display panel 110 in consideration of the bonding strength and thickness of the guide frame 124 and the display panel 110, but is not limited thereto. Alternatively, it may be coupled to the lower polarizing member 118 of the display panel 110. For example, the panel coupling member 122 may be a double-sided tape, a thermosetting adhesive, a photocurable adhesive, or a foam tape, but a double-sided tape or foam tape having a certain elastic force for shock absorption is preferable. desirable. Additionally, the panel coupling member 122 may include a hollow portion, and in this case, the hollow portion buffers pressure applied to the display panel 110 while the display panel 110 flows, allowing the panel coupling member 122 and the display panel to The peeling phenomenon of (110) is prevented.

The guide frame 124 includes a panel coupling portion 124a and a guide side wall 124b.

The panel coupling portion 124a is coupled to the rear edge portion of the display panel 110 through the panel coupling member 122 . At this time, the panel coupling portion 124a is coupled to the rear edge portion of the lower substrate 114 by the panel coupling member 122, but is not limited thereto and the lower polarizing film 118 attached to the entire rear surface of the lower substrate 114. ) may be coupled to the edge portion of the

The guide side wall 124b is vertically bent from the panel coupling portion 124a and coupled to the storage case 126 . At this time, the guide sidewall 124b may be coupled with the storage case 126 by providing a case coupling groove 124c.

The storage case 126 accommodates the backlight unit 140 . The storage case 126 includes a bottom surface 126a and a case side wall 126b.

The bottom surface 126a supports the backlight unit 140, and only ends thereof may be bent to support the backlight unit 140.

The case sidewall 126b is vertically bent from one end of the bottom surface 126a and coupled to the guide sidewall 124b of the guide frame 124 . At this time, the case sidewall 126b may be provided with a frame coupling protrusion 126c and coupled to the case coupling groove 124c provided on the guide sidewall 124b, and may be coupled to each other by a fastening member such as a screw. .

The panel driver 130 includes a circuit film 132 connected to the pad part P, and a printed circuit board 134 connected to the circuit film 132.

The circuit film 132 includes a data driving integrated circuit 136 for supplying data signals to data lines formed on the upper substrate 112 . The circuit film 132 is attached to the pad part P and the printed circuit board 134 by a Tape Automated Bonding (TAB) process, and is a Tape Carrier Package (TCP) or Chip On Flexible Board or Chip On Film (COF) process. ) can be made. Accordingly, the display panel 110 is electrically connected to the printed circuit board 134 through the plurality of circuit films 132 .

The printed circuit board 134 is electrically connected to the plurality of circuit films 132 and provides various signals to display an image on the display panel 110 . A timing controller (not shown) for controlling driving of the display panel 110 , various power circuits (not shown), and memory devices (not shown) are mounted on the printed circuit board 134 .

The data driving integrated circuit 136 converts a digital data signal provided from the timing controller through the circuit film 132 into an analog data signal and supplies it to a corresponding data line. Meanwhile, the data driving integrated circuit 136 may not be mounted on the circuit film 132 but may be directly mounted on a chip mounting area provided in the pad part P according to a COG (Chip On Glass) method.

The backlight unit 140 is accommodated in the panel support 120 and radiates light to the entire rear surface of the display panel 110 . The backlight unit 140 includes a reflective sheet 142 , a light guide plate 144 , and an optical sheet member 148 .

The reflective sheet 142 is disposed on the rear surface of the light guide plate 144 to reflect light incident from the light guide plate 144 toward the display panel 110 .

The light guide plate 144 is formed in a flat (or wedge) shape to have a light incident surface provided on at least one side surface.

The optical sheet member 148 is disposed on the light guide plate 144 to improve luminance characteristics of light traveling from the light guide plate 144 toward the display panel 110 . The optical member 148 may include a diffusion sheet and a prism sheet of at least one of a lower diffusion sheet, a lower prism sheet, an upper prism sheet, and an upper diffusion sheet.

The exterior case 150 constitutes the outermost rear and side surfaces of the display device 100 .

As such, a light source unit is not disposed on one side S1 of the display device 100 according to the first example of the present invention. Since the light source unit is not disposed on one side S1 of the display device 100 according to the first example of the present invention, the bezel on one side S1 may be reduced by the space for disposing the light source unit. In addition, in the display device 100 according to the first example of the present invention, since the light source unit disposed on one side S1 and the data driving integrated circuit 136 disposed on the other side S2 are separately disposed, each bezel on each side thickness can be reduced. In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required.

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 1 and is a side cross-sectional view of a display device according to a second example of the present invention. This is the same as the cross-sectional view along line A-A shown in FIG. 3 except for the shape of the display panel, and the panel driver and outer cover are omitted. Accordingly, in the following description, only the display panel will be described, and redundant description of the same configuration will be omitted.

The display panel 110 includes an upper substrate 112 and a lower substrate 114 bonded to each other with a liquid crystal layer (not shown) therebetween, an upper polarizing member 116 attached to the upper substrate 112, and a lower substrate ( 114) and a side sealing member 119 attached to a side surface of the upper substrate 112. In this case, the upper substrate 112 and the lower substrate 114 are formed to have the same area, and the lower polarizing member 118 is disposed except for an end of the lower substrate 114 .

As described above, since the light source unit, the panel driving unit, and the outer cover of the side surface B-B of the display device according to the second example of the present invention are omitted, the thickness of the bezel can be formed thin.

FIG. 5 is a perspective view taken along line C-C of FIG. 1 and is a perspective view of the other side (S2) of a display device according to a third example of the present invention, and FIG. 6 is a cross-sectional view taken along line D-D of FIG. This is the same as the drawing shown in FIG. 2 except for the panel support. Accordingly, in the following description, only the panel support portion will be described, and redundant description of the same configuration will be omitted.

The panel support part 120 includes a guide frame 124, a storage case 126, and a frame coupling member 128.

The guide frame 124 is coupled to the display panel 110 through a panel coupling member 122 . The guide frame 124 includes a panel support surface 124d and a case coupling surface 124e.

The panel support surface 124d is coupled to the rear edge portion of the display panel 110 through a panel coupling member 122 . At this time, the panel support surface 124d is coupled to the rear edge portion of the lower substrate 114 by the panel coupling member 122, but is not limited thereto and the lower polarizing film 118 attached to the entire rear surface of the lower substrate 114. ) may be coupled to the edge portion of the

The case coupling surface 124e is bent vertically from one end of the panel support surface 124d toward the backlight unit 140 and coupled to the storage case 126 . At this time, the case coupling surface 124e may be vertically bent toward the backlight unit 140 from one end and the other end of the panel support surface 124d and coupled thereto.

The storage case 126 accommodates the backlight unit 140 . The storage case 126 includes a bottom surface 126a, a case side wall 126b, and a frame support surface 126d.

The bottom surface 126a supports the backlight unit 140, and only ends thereof may be bent to support the backlight unit 140.

The case sidewall 126b is disposed on the rear surface of the light source unit 146 and is bent vertically from one end of the bottom surface 126a.

The frame support surface 126d is vertically bent from one end of the case sidewall 126b toward the backlight unit 140 and coupled to the guide frame 124 . In this case, the frame coupling member 128 may be disposed between the frame support surface 126d and the panel support surface 124d to increase the coupling force between the frame support surface 126d and the panel support surface 124d. The frame coupling member 128 may be a double-sided tape, a thermosetting adhesive, or a photocurable adhesive.

Meanwhile, in this way, the storage case 126 includes a frame support surface 126d, and the frame support surface 126d passes through the panel support surface 124d of the guide frame 124 and the frame coupling member 128. The coupled structure may also be applied to a cross section of one side S1 of the display device along the line A-A of FIG. 1 including the panel driver 130 .

As such, the panel driver is not disposed on the other side S2 of the display device 100 according to the third example of the present invention. Since the panel driving unit is not disposed on the other side S2 of the display device 100 according to the third example of the present invention, the bezel of the other side S2 can be reduced by the space for disposing the panel driving unit. In addition, in the display device 100 according to the third example of the present invention, since the light source unit disposed on one side S1 and the data driving integrated circuit 136 disposed on the other side S2 are separately disposed, each bezel on each side thickness can be reduced. In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required. In addition, in the other side S2 of the display device 100 according to the third example of the present invention, the side area of the display device is minimized because the guide frame and the storage case are not fastened on the side of the display device but on the upper side of the display device. Thus, the thickness of the bezel can be reduced.

FIG. 7 is a perspective view taken along line C-C of FIG. 1 and is a perspective view of the other side (S2) of a display device according to a fourth example of the present invention, and FIG. 8 is a cross-sectional view taken along line E-E of FIG. This is the same as the drawings shown in FIGS. 5 and 6 except that the light blocking member is additionally configured. Accordingly, in the following description, only the light blocking member will be described, and redundant description of the same configuration will be omitted.

The light blocking member 149 is disposed between the frame support surface 126d and the light source unit 146 to overlap the end of the light guide plate 144 . In this case, the upper surface of the light blocking member 149 may be attached to the frame support surface 126d, and the lower surface of the light blocking member 149 may be attached to the light guide plate 144. The light blocking member 149 prevents the light emitted from the light source unit 146 from being directly incident to the display panel 110 without passing through the light mixing area at the edge of the light guide plate 144 and being viewed.

In addition, the panel driver is not disposed on the other side S2 of the display device 100 according to the fourth example of the present invention. Since the panel driving unit is not disposed on the other side S2 of the display device 100 according to the fourth example of the present invention, the bezel of the other side S2 can be reduced by the space for disposing the panel driving unit. In addition, in the display device 100 according to the fourth example of the present invention, since the light source unit disposed on one side S1 and the data driving integrated circuit 136 disposed on the other side S2 are separately disposed, each bezel on each side thickness can be reduced. In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required. In addition, in the other side S2 of the display device 100 according to the fourth example of the present invention, the side area of the display device is minimized because the guide frame and the storage case are not fastened from the side of the display device but from the upper side of the display device. Thus, the thickness of the bezel can be reduced.

FIG. 9 is a perspective view taken along line C-C of FIG. 1 and is a perspective view of the other side (S2) of a display device according to a fifth example of the present invention, FIG. 10 is a cross-sectional view taken along line F-F of FIG. 9, and FIG. 11 is a view of FIG. It is a cross section along line G-G. This is the same as the drawings shown in FIGS. 5 and 6 except for the guide frame and the storage case. Accordingly, in the following description, only the guide frame and the storage case will be described, and redundant description of the same configuration will be omitted.

Referring to FIG. 10 , the guide frame 124 is coupled to the display panel 110 through a panel coupling member 122 . The guide frame 124 includes a case fixing protrusion 124f and a case fastening groove 124g.

The case fixing protrusion 124f is bent vertically from one end of the guide frame 124 toward the display panel 110 and is disposed. That is, the case fastening groove 124g is disposed on one side of the case fixing protrusion 124f. The case fixing protrusions 124f are repeatedly disposed on the guide frame 124 to fix the storage case 126 .

The case fastening groove 124g is a groove provided at the center of the guide frame 124 and is provided between the case fixing protrusion 124f and the other end of the guide frame 124 . The case fastening groove 124g is coupled to the storage case 126 to fasten the guide frame 124 and the storage case 126 together.

The storage case 126 includes a bottom surface 126a supporting the backlight unit 140, a case sidewall 126b disposed on the rear surface of the light source unit 146, a frame fastening part 126e, and a frame fastening groove 126e. includes

The frame fastening part 126e is vertically bent from one end of the storage case 126 toward the backlight unit 140 and disposed. In this case, the frame fastening part 126e may be formed to surround the case fixing protrusion 124f. The frame fastening part 126e is coupled to the case fastening groove 124g to fasten the guide frame 124 and the storage case 126 to each other.

The frame fastening groove 126e is provided in the center of the frame fastening part 126e. The frame fastening groove 126e is coupled to the case fixing protrusion 124f to fasten the guide frame 124 and the storage case 126 to each other. In this case, the frame fastening groove 126e may be larger than the case fixing protrusion 124f.

As such, the fastening structure of the guide frame 124 and the storage case 126 of the display device 100 according to FIG. 10 is such that when the storage case 126 is pushed into the guide frame 124 in the Y-axis direction, the storage case 126 The frame fastening part 126e of the case 126 is coupled to the case fastening groove 124g of the guide frame 124, and the frame fastening part 126e is caught on the case fixing protrusion 124f of the guide frame 124. The guide frame 124 and the storage case 126 are fastened without being separated.

Since the structure of the display device 100 shown in FIG. 11 is the same as the display device 100 according to the third example of the present invention shown in FIG. 6 except for omitting a coupling member, redundant description will be omitted.

In this way, in the display device 100 according to the fifth example of the present invention, the guide frame 124 and the storage case 126 disposed on the other side S2 are intersected and coupled to each other, and are firmly fastened from the upper side without a coupling member. can do. That is, in the display device 100 according to the fifth example of the present invention, on one side of the other side (S2), the guide frame 124 is coupled to the lower side of the storage case 126 by providing a case fastening groove 124g, and the other side (S2). On the side, while the guide frame 124 is coupled to the upper side of the storage case 126, the guide frame 124 and the storage case 126 are repeatedly staggered and firmly fastened. Therefore, the other side (S2) of the display device 100 according to the fifth example of the present invention minimizes the side area of the display device because the guide frame and the storage case are not fastened on the side of the display device but on the upper side of the display device. The thickness of the bezel can be reduced. In addition, the panel driver is not disposed on the other side S2 of the display device 100 according to the fifth example of the present invention. Since the panel driving unit is not disposed on the other side S2 of the display device 100 according to the fifth example of the present invention, the bezel of the other side S2 can be reduced by the space for disposing the panel driving unit. In addition, in the display device 100 according to the fifth example of the present invention, since the light source unit disposed on one side S1 and the data driving integrated circuit 136 disposed on the other side S2 are separately disposed, each bezel on each side thickness can be reduced. In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required.

FIG. 12 is an exploded perspective view taken along line C-C in FIG. 1, and is a perspective view of the other side (S2) of a display device according to a sixth example of the present invention, FIG. 13 is a perspective view taken along line C-C in FIG. 1, and FIG. 14 is FIG. It is a cross-sectional view along line H-H of This is the same as the drawings shown in FIGS. 5 and 6 except for the omitted guide frame and light blocking member. Accordingly, in the following description, only the guide frame and the light blocking member will be described, and redundant description of the same components will be omitted.

In the display device 100 according to the sixth example of the present invention, the guide frame 124 is omitted only on the other side S2. That is, the guide frame 124 is configured only on one side (S1) and both sides. Accordingly, the display panel 110 disposed on the other side S2 of the display device 100 is supported by the frame support surface 126d of the storage case 126 through the panel coupling member 122 .

The light blocking member 129 is disposed between the frame supporting surface 126d and the light source unit 146 to overlap the end of the optical sheet member 148 . In this case, the upper surface of the light blocking member 129 may be attached to the frame support surface 126d, and the lower surface of the light blocking member 129 may be attached to the optical sheet member 148. The light blocking member 129 prevents the light emitted from the light source unit 146 from being directly incident to the display panel 110 without passing through the light mixing area at the edge of the light guide plate 144 and being viewed.

In addition, the panel driver is not disposed on the other side S2 of the display device 100 according to the sixth example of the present invention. Since the panel driving unit is not disposed on the other side S2 of the display device 100 according to the sixth example of the present invention, the bezel of the other side S2 can be reduced by the space for disposing the panel driving unit. In addition, in the display device 100 according to the sixth example of the present invention, since the light source unit disposed on one side S1 and the data driving integrated circuit 136 disposed on the other side S2 are separately disposed, each bezel on each side thickness can be reduced. In addition, since the heat-sensitive data driving integrated circuit 136 is not affected by the light source unit, defects can be reduced, and costs can be reduced because a means for preventing heat transfer such as an insulating pad is not required.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and may be variously modified and implemented without departing from the technical spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The protection scope of the present invention should be construed according to the scope of the claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: display device 110: display panel
120: panel support unit 130: panel driving unit
140: backlight unit 150: exterior case

Claims (10)

delete delete delete delete delete delete delete A display panel having a pad portion provided on one edge;
a panel driving unit connected to the pad unit; and
a backlight unit disposed under the display panel; and
A storage case accommodating the backlight unit;
The backlight unit has a light source unit overlapping the other edge of the display panel opposite to the one edge,
Further comprising a guide frame at an edge of the display panel except for the other edge of the display panel having the light source unit,
The storage case,
One side disposed on the rear surface of the light source unit; and
A frame support surface bent vertically from one end of the one side toward the backlight unit,
A frame support surface of the storage case disposed at the other edge of the display panel having the light source unit supports the display panel. delete According to claim 8,
The display device further comprises a light blocking member between the frame support surface and the light source unit to overlap an end of the backlight unit.

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