KR102186464B1 - Display module and display apparatus having the same - Google Patents

Abstract

The display module includes a light guide plate that changes the path of the generated light and emits it through an emission surface, a QD (Quantum Dot) sheet corresponding to the emission surface to improve color reproducibility of light emitted from the light guide plate, and is fixed in the chassis. Thus, it is configured to include at least one guide member for supporting the light guide plate and the QD sheet. Through this configuration, color reproducibility of the display module can be improved, and the light guide plate and the QD sheet can be fixed together.

Description

A display module and a display device having the same {DISPLAY MODULE AND DISPLAY APPARATUS HAVING THE SAME}

The present invention relates to a display device, and more particularly, to a display module with improved color reproduction and a device employing the same.

A display device is a device that displays a screen, and includes a monitor or a television. As the display device, a self-luminous display panel such as an organic light-emitting diode (OLED) and a light-receiving display panel such as a liquid crystal display (LCD) panel are used.

The present invention relates to a display module and a display device to which a light-receiving display panel is applied. A display device to which a light-receiving display panel is applied includes a display panel on which a screen is displayed made of a liquid crystal panel, and a backlight unit that supplies light to the display panel, and the backlight unit receives light from a light source and a light source to display It includes a plurality of optical sheets that guide to the panel. In this case, the optical sheet may include a reflective sheet, a light guide plate or a diffusion sheet, a prism sheet, and a polarizing sheet.

The present invention is to provide a display module with improved color reproducibility in a liquid crystal display device that displays an image using light incident from a backlight unit.

The present invention is to provide an optimal arrangement design between a quantum dot sheet and a plurality of optical sheets capable of improving color reproducibility in a liquid crystal display device.

The present invention is to provide a display module having a structure for easily fixing a quantum dot sheet, which can be applied to improve color reproducibility, to a backlight unit, and a display device employing the same.

An object of the present invention is to provide a display module that can be implemented as a narrow bezel and a display device employing the same when applying a quantum dot sheet.

The display module of the present invention includes a display panel; A chassis disposed to support the display panel; A light source disposed on at least one side surface of the chassis; A light guide plate for emitting light generated from the light source through an exit surface; A QD (Quantum Dot) sheet disposed to correspond to the exit surface of the light guide plate; And at least one guide member fixed in the chassis and capable of supporting the light guide plate and the QD sheet.

The at least one guide member may support the light guide plate and the QD sheet together.

The at least one guide member may be provided to be detachable from the chassis.

The at least one guide member may include a first guide part supporting a side surface of the light guide plate; And a second guide part extending from the first guide part and supporting a side surface of the QD sheet.

The second guide portion may be formed to protrude from the first guide portion.

The first guide part may include a first position guide part for determining a support position of the light guide plate; And a first seating portion guided by the first position guide portion and on which the light guide plate is seated.

The second guide part may include a second position guide part for determining a support position of the QD sheet; It may be characterized in that it comprises a; guided by the second position guide portion, a second seating portion on which the QD sheet is seated.

The first position guide portion and the second position guide portion may be provided in a protruding shape.

The second location guide may be formed to be stepped from the first location guide.

When the light guide plate is mounted on the first guide part, the first guide part may be provided so as not to protrude from the front surface of the light guide plate.

The chassis further includes a bottom chassis provided at the rear of the light guide plate, wherein the at least one guide member is a member fixing part that fixes the guide member to the bottom chassis, and is spaced apart from the first guide part. And a member fixing part provided to fix the guide member to the rear of the light guide plate.

The at least one guide member may further include a positioning part spaced apart from the member fixing part and provided to temporarily fix the guide member when the guide member is coupled to the bottom chassis.

The light guide plate may include a light guide plate body; A light guide plate seating portion protruding from the light guide plate body on the same surface; And a light guide plate groove formed in a groove shape on the light guide plate seating portion so that the light guide plate is supported by the first guide portion, wherein the QD sheet includes: a QD sheet body; A QD sheet seating portion protruding from the QD sheet body on the same surface; And a QD sheet groove formed in a groove shape in the second seating portion so that the QD sheet is supported by the second guide portion.

The light source includes a plurality of blue LEDs; And a circuit board for supplying power to the plurality of blue LEDs, wherein the QD sheet includes a yellow QD sheet provided to convert blue light emitted from the plurality of blue LEDs into white light; You can do it.

The at least one guide member may be provided so as to support two positions above the light guide plate and the QD sheet.

The at least one guide member may be provided to support one place under the light guide plate and the QD sheet.

The chassis further includes a bottom chassis provided on a rear surface of the light guide plate, wherein the display module further includes a middle mold coupled to the bottom chassis and having a pressing member for pressing the light guide plate and the QD sheet together. It can be characterized.

The guide member may be formed in a black color to reduce reflection of light emitted from the plurality of light sources.

The QD sheet may be provided in surface contact with the exit surface of the light guide plate.

It may be characterized in that it further comprises a; a middle mold coupled to the chassis and having a pressing member for pressing the light guide plate and the QD sheet together.

An optical sheet disposed to correspond to the exit surface of the QD sheet and having optical properties; It may further include a display panel disposed to correspond to the emission surface of the optical sheet.

The middle mold may include a middle body coupled to the chassis; It may be characterized in that it comprises a; is formed extending from the middle body, a pressing rib for pressing the sheet member and the light guide plate.

A display device according to the inventive concept includes: a housing; A display module supported by the housing and configured to display an image, wherein the display module includes: a display panel; A backlight unit that irradiates light to the display panel, wherein the backlight unit includes: a light source including a plurality of blue LEDs emitting blue light; A light guide plate guiding the light emitted from the light source toward the display panel; A quantum dot sheet converting the blue light into white light and emitting the blue light onto the exit surface of the light guide plate; And a chassis for accommodating the light source, the light guide plate, and the quantum dot sheet.

It may be characterized in that it further comprises a; a middle mold coupled to the chassis and having a pressing member for pressing the light guide plate and the QD sheet together.

The middle mold may include a middle body coupled to the chassis; It may be characterized in that it comprises a; is formed extending from the middle body, a pressing rib for pressing the sheet member and the light guide plate.

The pressing rib may be characterized in that the entire area is formed along the circumference of the sheet member.

The display unit of the present invention improves the structure, thereby improving the color reproducibility of the display.

In addition, the structure for guiding the light guide plate and the QD sheet can be improved, thereby simplifying the internal structure. In addition, by improving and maintaining the adhesion between the light guide plate and the QD sheet, color reproducibility of the image displayed on the display can be improved.

In addition, by improving the guide structure of the QD sheet, the bezel part can be minimized.

That is, the display module according to the present invention and the display device employing the same can improve color reproducibility by using a QD sheet, while minimizing the bezel of the display device and making the thickness slimmer.

1 is a perspective view showing a display device according to an embodiment of the present invention.
2A and 2B are exploded perspective views of a display module and a display device according to an embodiment of the present invention.
2C is a lateral cross-sectional view of a part of the display module according to an embodiment of the present invention.
3 is an enlarged view of a part of a display device according to an embodiment of the present invention.
4 is a cross-sectional view of a guide member and a configuration adjacent to the guide member of the display device according to an embodiment of the present invention.
5 is an exploded perspective view of a guide member, a light guide plate, and a QD sheet according to an embodiment of the present invention.
6 is a perspective view of a guide member according to an embodiment of the present invention.
7 is a front view of a guide member according to an embodiment of the present invention.
8 to 10 are diagrams illustrating a process of assembling a display device according to an embodiment of the present invention.
11 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another embodiment of the present invention.
12 is a perspective view illustrating a configuration adjacent to a guide member of a display device according to another exemplary embodiment of the present invention.
13 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another embodiment of the present invention.
14 is a perspective view illustrating a configuration adjacent to a guide member of a display device according to another exemplary embodiment of the present invention.
15 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another embodiment of the present invention.
16 is a perspective view illustrating a configuration adjacent to a guide member of a display device according to another embodiment of the present invention.
17 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another embodiment of the present invention.
18 is a perspective view showing a configuration adjacent to a guide member of a display device according to another embodiment of the present invention.
19 is a cross-sectional view in which a configuration adjacent to a guide member of a display device according to another embodiment of the present invention is disposed.
20 is a perspective view of a partial configuration of a display device according to another embodiment of the present invention.
21 is a cross-sectional view in which a configuration adjacent to a guide member of a display device according to another embodiment of the present invention is disposed.
22 is a cross-sectional view in which a configuration adjacent to a guide member of a display device according to another embodiment of the present invention is disposed.
23 is a cross-sectional view in which a configuration adjacent to a guide member of a display device according to another embodiment of the present invention is disposed.
24 is a diagram illustrating a combination of some components of a display device according to another embodiment of the present invention.

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

Although illustrated based on a curved display device as an embodiment of the present invention, it is applicable to a flat display device.

In addition, the display device of the present invention may be a device to which a light-receiving display panel is applied, such as a television, a monitor, an electronic blackboard, an electronic signboard, and a tablet.

1 is a perspective view showing a display device according to an embodiment of the present invention, FIGS. 2A and 2B are an exploded perspective view of a display module and a display device according to an embodiment of the present invention, and FIG. 2C is an exploded perspective view showing a display device according to an embodiment of the present invention. It is a lateral cross-sectional view of a part of the display module.

The display device 1 to which the present invention is applied is formed to have a curvature as shown in FIG. 1 so that both sides thereof have a curved shape protruding forward compared to the central part, so that the curved display device has a curvature of the display panel itself. Or, the display panel can be implemented in such a way that the flat panel or the chassis 80 supporting the flat panel has a curvature and the flat panel display panel is supported, and the user's immersion when an image is displayed can be improved.

Although the description of the present invention describes the curved display device 1 as an example, it can be applied to a flat display device or a bendable or flexible display device in which a curved state and a flat state are variable.

In addition, regardless of the screen size, it can be applied to both the light guide plate 40 and the display device 1 to which the QD sheet 50 is applied. For example, it can be applied to products that can be installed on tables, walls, ceilings, such as smart TVs and monitors, or portable products such as tablets, notebooks, smart phones, and ebooks.

Such a display device 1 includes a display module 10 including a QD sheet and capable of displaying an image, at least one or more circuit boards electrically connected to the display module 10, and supporting the display module 10. It includes a housing 12.

At least one circuit board includes a power board on which circuit elements for supplying power to the display module are arranged, and circuit elements for connection to external devices or for receiving and processing external signals, respectively, are used to drive the signal processing board and the display module. A driving substrate or the like may be included, and each of the substrates may be disposed independently or may be merged with each other.

The display module 10 may include a display panel 20 on which an image is displayed, a backlight unit, and a chassis. The backlight unit may include a light source and an optical member such as a light guide plate and a sheet member.

That is, the display module according to the embodiment of the present invention is an edge type backlight unit, and guides the light source 30 disposed behind the display panel 20 and the light emitted from the light source 30 to guide the display panel 20. It may include a light guide plate 40 provided to guide to. A light guide plate (LGP) may serve to convert light emitted from a light source into a surface light source and direct it to the display panel 20.

The backlight unit may further include a sheet member. The sheet member may include an optical sheet 60 having optical properties and a quantum dot (QD) sheet 50 provided to improve color reproducibility.

The chassis 80 may include a top chassis 82 and a bottom chassis 84 disposed behind the top chassis 82. The top chassis 82 and the bottom chassis 84 may be fitted and fastened through screwing. The chassis 80 may be disposed to support the display panel 20.

In the present embodiment, since the curved display device 1 is formed in a curved shape, the display module 10 built in the curved display device 1 is also formed to have a curvature in the left and right directions. Therefore, the display panel 20, the light guide plate 40, the middle mold 70, the top chassis 82, and the bottom chassis 84 forming the display module 10 are each formed to have a curvature in the left and right directions, Both side ends protrude forward compared to the central part. In this case, the curvature of each component may be the same, but may be individually designed differently depending on the design.

As an example, at least one of the display panel 20, the light guide plate 40, and the sheet member may be provided flat, or may be provided to maintain curvature by the chassis 82 and 84.

The light source 30 may be provided on at least a part of the circumference of the light guide plate 40 to irradiate light. The light source 30 may be disposed along the short side or along the long side of the light guide plate 40. The position of the light source 30 is not limited, and it is satisfied if it is disposed along at least a portion of the circumference of the light guide plate 40 to irradiate light to the light guide plate 40. In addition, the light source 30 may be disposed on at least one side surface of the chassis 80. For example, the light source 30 may be disposed on one side of the display module 10 as shown in FIG. 2A, or a pair may be disposed on both sides of the display module 10 as shown in FIG. 2B.

The display module 10 may include a middle mold 70 provided so that at least some of the internal components of the chassis can be seated together with the chassis.

The middle mold 70 may have a display panel 20 and a top chassis disposed at the front side, and a bottom chassis 84 disposed at the rear side to support each component. In addition, the middle mold 70 keeps the display panel 20 and the bottom chassis 84 spaced apart from each other, so that heat generated from a light source or the like through the bottom chassis can be minimized from being conducted to the display panel.

The top chassis includes a bezel portion 82a covering the front outer side of the display panel 20 and a top side portion 82b that is bent rearward from the end of the bezel portion 82a to cover the side of the middle mold 70 .

The bottom chassis 84 includes a rear portion 84a forming a rear surface of the display module 10 and a bottom side portion 84b extending from the circumference of the rear portion to the front side and coupled to the middle mold 70.

Since the bottom chassis 84 is formed in a curved shape in which both side ends protrude from the central portion, the rear portion of the bottom chassis 84 is also formed in a curved surface with both side ends protruding forward compared to the central portion.

Accordingly, the light generated from the light emitting diode is reflected by the reflective portion 45 provided on the rear portion 84a of the bottom chassis 84 having a curved surface and guided to the display panel 20 side. That is, the reflector 45 serves to guide the light irradiated from the light emitting diode to the display panel 20. 3 is a partially enlarged view of a display device according to an embodiment of the present invention, FIG. 4 is a cross-sectional view of a guide member and a configuration adjacent to the guide member of the display device according to an embodiment of the present invention, and FIG. An exploded perspective view of a guide member, a light guide plate, and a QD sheet according to an embodiment, FIG. 6 is a perspective view of a guide member according to an embodiment of the present invention, and FIG. 7 is a front view of the guide member according to an embodiment of the present invention.

The light source 30 includes a light emitting diode (LED) 30a. A plurality of light emitting devices may be arranged at regular intervals to form one module. Each module may be disposed at an edge portion of the light guide plate 40. The light-emitting device includes a blue light-emitting device. The light source 30 may further include a circuit board 30b, and the circuit board 30b may be provided to turn on/off the light emitting device 30a by sending an electrical signal to the light emitting device 30a. According to an embodiment of the present invention, the light emitting devices 30a are arranged in a line on the circuit board 30b and operated. The light source 30 is disposed on both sides of the space between the light guide plate 40 and the inner surface of the bottom chassis 84, that is, on the side portion 84b of the bottom chassis 84. Accordingly, light generated from the light source 30 is irradiated to the rear portion of the bottom chassis 84 through the space between the light guide plate 40 and the rear portion of the bottom chassis 84.

The light guide plate 40 may include a reflective portion 45 on its rear surface. In detail, the light guide plate 40 may include a light guide part 40a and a reflective part 45. The reflective part 45 may be provided on the rear surface of the light guide plate 40 so that the light generated from the light source can face the front side. In detail, the reflector 45 may be provided to reflect light generated from the light source in the direction of the display panel 20.

The reflective part 45 may be provided in the shape of a reflecting plate or may be provided in the shape of a reflecting sheet. In addition, it may be configured separately from the light guide plate 40 and disposed on the rear surface of the light guide plate 40, or may be formed integrally with the light guide plate 40. In addition, by reflecting coating on the rear surface of the light guide plate 40, the same effect as the above effect may be obtained.

The light guide plate 40 is provided to transmit light generated from a light source. The light guide plate 40 may be formed of a transparent resin material for this purpose. It may be arranged spaced apart from the light source by a certain distance so as to minimize deformation due to heat generated from the light source.

The display device 1 may include a sheet member.

The sheet member may include an optical sheet 60 having optical properties and a quantum dot (QD) sheet 50 provided to improve color reproducibility.

The optical sheet 60 may include a diffuser sheet 61 for diffusing incident light and a Dual Brightness Enhancement Film (DBEF) sheet 62 that is a high-brightness prism sheet. The optical sheet 60 may include a polarizing sheet and a prism sheet.

The optical sheet 60 is disposed between the light guide plate 40 and the display panel, so as to change optical properties of light emitted from the light guide plate 40.

The QD sheet 50 is provided for color reproducibility. Color reproduction is a measure of how close it is to natural colors, and how wide areas can be expressed in color coordinates. Compared to the existing technology for converting white LEDs to color filters, the color purity of white light is high, so the efficiency of passing through the color filters is increased, and the power efficiency of the overall display can be increased. The QD sheet 50 may also be referred to as a quantum dot sheet.

QD (Quantum dot) will be described. Normally, when an electron receives energy, the electron in the valence band is excited to the conduction band. After that, it loses energy again and falls to the valence band, which has the property of radiating energy as light. Quantum dots generate strong fluorescence in a narrow wavelength range. Depending on the size of this quantum dot, all colors of visible light can be generated. In addition, since it generates natural color by itself, there is no color loss and it is a material with high color reproducibility. Quantum dots generate shorter wavelength light as the particle size is smaller, and longer wavelength light is generated as the particle size increases. It may be a compound such as quantum dot cadmium selenide (Cdse), cadmium sulfide (Cds), cadmium teleride (Cdte), zinc selenide (ZnSe), zinc telenide (ZnTe), zinc sulfide (ZnS).

The QD sheet 50 may be provided so that light passing through the light guide plate 40 is emitted through the QD sheet 50. The QD sheet 50 may be provided in close contact with the light guide plate 40 on the front surface of the light guide plate 40. The QD sheet 50 is provided in close contact with the front surface of the light guide plate 40 so that light emitted from the light guide plate 40 passes.

Since the light of the LED reaches the QD sheet 50 through the light guide plate 40, the QD sheet 50 is less affected by heat from the LED, and it is easy to secure reliability.

The QD sheet 50 may correspond to a blue light emitting device and may include a yellow QD sheet 50. The blue light emitted from the blue light emitting device passes through the yellow QD sheet 50 and is converted into white light.

As described above, according to the present invention, the light guide plate 40 may include a light guide part 40a and a reflective part 45. At this time, it is natural that the reflector 45 may be formed as a separate sheet.

The light guide portion 40a may include a light guide plate body 41 and a light guide plate groove 43 formed in the light guide plate body 41 and formed in a groove shape so as to be supported by the first guide portion 110 in a groove shape. . The light guide plate body 41 may include a light guide plate seating portion 42 protruding from the light guide plate body 41 on the same surface. The light guide plate groove part 43 may be formed in the light guide plate seating part 42.

The display device 1 may include a guide member 100.

The guide member 100 is provided so that the light guide plate 40 and the QD sheet 50 are disposed in a correct position inside the chassis 80. In order to emit white light through the QD sheet 50, the light emitted from the light guide plate 40 must be provided to pass through the QD sheet 50. For this purpose, the light guide plate 40 and the QD sheet 50 are simultaneously guided. A guide member 100 is provided in order to stably maintain close contact with each other.

The guide member 100 may be fixed within the chassis 80. In detail, it may be fixed to the bottom chassis 84. At least one guide member 100 is provided, and is provided to guide or seat the internal structure of the chassis 80.

The shape of the guide member 100 is not limited, but in order to prevent the position of the light guide plate 40 and the QD sheet 50 from being displaced, a cross section perpendicular to the front and rear directions may be provided in a rectangular shape. Accordingly, the light guide plate groove 43 of the light guide plate 40 and the QD sheet groove 53 formed at the edge of the QD sheet 50 may also be provided to correspond to the guide member 100. A cross section perpendicular to the front and rear directions of the guide member 100 may be provided so that each vertex is rounded on a square, and may be formed in a polygonal shape, not limited to a square. It may also be provided in a circular or oval shape.

The guide member 100 may include a guide portion provided to correctly arrange the components within the chassis 80. The guide units 110 and 120 may guide or seat the components in the chassis 80.

The guide portion may include a first guide portion 110 and a second guide portion 120.

As an example of the present invention, a configuration in which the first guide part 110 and the second guide part 120 are integrally formed is provided, but may be formed separately, and the light guide plate and the QD are separated from each other at different positions. You can also guide the sheet.

The first guide part 110 is provided to be coupled to and guided by the light guide plate groove 43 of the light guide plate 40, and the second guide part 120 is coupled to the QD sheet groove 53 of the QD sheet 50 to guide It is prepared to do.

The first guide part 110 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the light guide plate 40 can be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are combined as the front and rear chassis of the display module 10, respectively, the front and rear directions can be referred to as the front and rear directions of the top chassis 82 and the bottom chassis 84. have. The first guide unit 110 may include a first position guide unit 112 and a first seating unit 114.

The first position guide 112 is provided to determine the position of the light guide plate 40. At least one guide member 100 is provided on the chassis 80 to guide the light guide plate 40 and the QD sheet 50 at the same time. That is, the first position guide portion 112 of the guide member 100 is provided to guide the light guide plate 40 to the mounting position when the light guide plate 40 is mounted on the bottom chassis 84, and the second guide portion 12 is a QD sheet 50 is provided to guide to the mounting position.

The light guide plate groove 43 corresponding to the first guide part 110 is formed in the light guide plate seating part 42 protruding from the edge of the light guide plate body 41 so that the movement of light in the light guide plate body 41 is not obstructed. have.

In addition, the light guide plate groove 43 may be formed in a groove shape at the edge of the light guide plate body 41.

In addition, the light guide plate 40 may be divided into a long side and a short side according to the formation of a rectangular parallelepiped. As the display device is installed vertically, the light guide plate may be skewed downward according to gravity. It may be guided by the guide member 100 installed in ).

In addition, the light guide plate groove 43 may be formed in a portion where the light source is not disposed so that the light path of the light source disposed at the edge of the light guide plate 40 is not obstructed. That is, in the embodiment of the present invention, the light guide plate 40 is formed. Since the light source is disposed at the edge of the short side and the guide member 100 is formed in two places at the upper and one lower side, which is the long side of the light guide plate 40, the position of the three points of the light guide plate 40 is guided. You decide the location. In this embodiment, three guide members 100 are applied, but the number of guide members 100 is not limited.

The first seating portion 114 is provided so that the light guide plate 40 guided by the first position guide portion 112 can be seated. The first seating portion 114 may be formed separately by extending from the first positioning portion 112, or may be formed on the surface of the first positioning portion 112 as in the embodiment of the present invention. When the first seating portion 114 is formed separately by extending from the first positioning portion 112, the first seating portion (in the first guide portion 110) than the cross-sectional area of the first positioning portion 112 114) is provided to be formed to be larger in cross-sectional area.

In the embodiment of the present invention, the cross section of the first guide part 110 is formed in a rectangular shape, and the cross-sectional area may be formed to gradually increase. Through this configuration, the light guide plate groove 43 of the light guide plate 40 to be described later is provided to be seated on the first seating portion 114 through the first position guide 112.

The shape of the first seating portion 114 is not limited, but in an embodiment of the present invention, the surface may include a first seating surface 117 whose cross-sectional area gradually increases toward the bottom chassis 84 while forming a flat surface. have. The first seating surface 117 may be formed to gradually increase in cross-sectional area from the first seating portion 114 toward the bottom chassis 84. In addition, the first seating portion 114 may include a first seating curved surface 115 whose surface forms a curved surface so that the cross-sectional area gradually increases toward the bottom chassis 84. In addition, the first mounting portion 114 may include a first supporting surface 116 formed in a plane perpendicular to the first position guide 112 so that one surface of the light guide plate 40 is mounted.

The first seating part 114 may be provided to include at least one of the first seating curved surface 115, the first seating surface 117, and the first support surface 116. In the present embodiment, the light guide plate 40 is shown to be seated on the first seating surface 117, but it may be seated on the first seating curved surface 115 or the first support surface 116.

The light guide plate 40 seated on the guide member 100 is provided to be seated in the first seating portion 114 by determining a seating position by the first positioning portion 112. In detail, the light guide plate groove portion 43 is provided to be seated in the first seating portion 114 by determining a seating position by the first position guide portion 112.

The second guide part 120 may be provided to extend from the first guide part 110. The second guide part 120 may be provided to support the QD sheet 50.

The second guide part 120 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the QD sheet 50 can be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the bottom chassis 84 is disposed behind the top chassis 82, the front and rear directions may be defined through this.

The second guide part 120 may include a second position guide part 122 and a second seating part 124.

The second position guide 122 is provided to determine the support position of the QD sheet 50. At least one guide member 100 is provided to guide and support the light guide plate 40 and the QD sheet 50. The second position guide part 122 of the guide member 100 is provided to guide the QD sheet 50 to the mounting position when the QD sheet 50 is mounted on the bottom chassis 84.

The QD sheet 50 includes a QD sheet body 51 and a QD sheet groove 53 formed in a groove shape so as to be supported by the second guide portion 120 in a groove shape and formed on the QD sheet body 51 can do. The QD sheet body 51 may include a QD sheet seating portion 52 protruding from the QD sheet body 51 on the same surface. As the QD sheet groove part 53 is formed in the QD sheet seating part 52, the movement of light in the QD sheet body 51 is not prevented by the second guide part 120 disposed in the QD sheet groove part 53. can do. The QD sheet groove 53 may be formed in the QD sheet seating portion 52 or may be formed in the QD sheet body 51.

In the embodiment of the present invention, since the guide member 100 is formed in two places at the top and one at the bottom of the QD sheet 50, by guiding the positions of the three points of the QD sheet 50, the QD sheet 50 You decide the location.

The second seating portion 124 is provided so that the QD sheet 50 guided by the second position guide portion 122 can be seated. The second seating portion 124 may be formed on the surface of the second position guide portion 122 or may be formed separately from the second position guide portion 122.

The second seating portion 124 includes a second support surface 126 formed in a plane perpendicular to the second position guide portion 122 so that one surface of the QD sheet 50 is seated, and a second position guide portion 122 ) May also include a second seating surface 127 formed on the surface. However, the shape of the second seating portion 124 is not limited thereto, and the second seating portion 124 has a second seating curved surface, a second seating surface 127, and a second support surface like the first seating portion 114 It may be formed to include at least one of (126). The shape of the second seating curved surface, which is not described, is the same as the shape of the first seating curved surface 115. In the embodiment of the present invention, the second seating surface 127 and the second support surface 126 are applied, and this is illustrated.

The QD sheet 50 seated on the guide member 100 is provided so that the seating position is determined by the second position guide part 122 and seated in the second seating portion 124. In detail, the QD sheet groove 53 is provided to be seated in the second seating portion 124 by determining the seating position by the second position guide portion 122.

The second guide part 120 may be formed to be stepped from the first guide part 110. In detail, the vertical cross-sectional area of the second position guide part 122 in the longitudinal direction may be smaller than the vertical cross-sectional area of the first position guide part 112 in the longitudinal direction. In addition, when the light guide plate 40 is mounted on the first guide part 110, the first guide part 110 may be provided so that the first guide part 110 does not protrude higher than the light guide plate 40. That is, the height of the first guide part 110 may be provided to correspond to the thickness of the light guide plate 40.

In this way, the first guide portion 110 and the second guide portion 120 may be formed to be stepped, and the first guide portion 110 is provided so as not to protrude higher than the light guide plate 40, so that the first guide portion The light guide plate 40 mounted on the 110 and the QD sheet 50 mounted on the second guide part 120 are provided to be independently mounted on the guide member 100 while maintaining close contact with each other. Through this, when the light guide plate 40 is mounted on the first guide part 110 and the QD sheet 50 is mounted on the second guide part 120, there is no space between the light guide plate 40 and the QD sheet 50. Instead, the light guide plate 40 and the QD sheet 50 are provided to be in close contact with each other.

The second position guide part 122 of the second guide part 120 is formed to be stepped in all directions along the circumference of the first position guide part 112 of the first guide part 110, so that a relatively guide A portion of the QD sheet 50 mounted on the member 100 may be formed to be wider than a portion of the light guide plate 40 mounted on the guide member 100. Through this, it is provided so that light passing through the light guide plate 40 can stably pass through the QD sheet 50 even at a portion adjacent to the guide member 100.

The guide member 100 may include a member fixing part 130.

The member fixing part 130 is formed so that the guide member 100 can be fixed to the bottom chassis 84. The member fixing part 130 may be extended from the first guide part 110 and provided to be fixed to the bottom chassis 84. In detail, a coupling groove is formed in the member fixing part 130, and the coupling groove and the bottom chassis 84 may be screwed together to be coupled. However, the method of combining the member fixing unit 130 is not limited.

The member fixing part 130 may be disposed under the light guide plate 40. That is, the member fixing part 130 to which the guide member 100 is fixed to the bottom chassis 84 may be provided to be disposed between the light guide plate 40 and the bottom chassis 84. In detail, the longitudinal direction of the guide part is referred to as the support shaft (100a), and the direction in which the member fixing part 130 is fixed to the bottom chassis 84 by being spaced apart from the support shaft (100a) is referred to as the coupling shaft (130a). The shaft 130a may be provided to penetrate the inside of the light guide plate 40 or the QD sheet 50 than the support shaft 100a.

Through this configuration, a separate space is required by the guide member 100 supporting the light guide plate 40 and the QD sheet 50, so that the width of the display device 1 can be prevented from being widened. That is, space utilization can be improved by the guide member 100.

In addition, when the equipment is aging or the coupling is not perfect and loose coupling is made in the member fixing part 130, the guide member 100 is shaken about the coupling shaft 130a with respect to the bottom chassis 84. . However, as the member fixing part 130 is disposed between the light guide plate 40 and the bottom chassis 84, even in this case, the guide member 100 can be prevented from being spaced apart from the light guide plate 40 and the QD sheet 50. have.

In addition, as the member fixing part 130 is disposed between the light guide plate 40 and the bottom chassis 84, a portion fixing the guide member 100 can be prevented from being exposed to the outside.

The guide member 100 may include a positioning unit 140 that determines the mounting position of the guide member 100.

The positioning unit 140 may be provided to extend from the first guide unit 110. The positioning unit 140 protrudes from the first guide unit 110 and is provided to be coupled to the bottom chassis 84. In detail, it is provided to be inserted into the positioning groove 142 of the rear portion of the bottom chassis 84. That is, the guide member 100 is provided so that the coupling position is determined to the bottom chassis 84 by the positioning unit 140 and fixed to the bottom chassis 84 by the member fixing unit 130. The positioning unit 140 functions as a temporary fix when the guide member 100 is coupled to the bottom chassis 84, and after being coupled, the guide member 100 is fixed so that the guide member 100 is firmly fixed to the bottom chassis 84. It serves as an aid.

The arrangement of the positioning unit 140 is not limited, but is arranged to be spaced apart from the coupling shaft 130a of the member fixing part 130. By separating the portion temporarily fixed to the bottom chassis 84 by the positioning unit 140 and the coupling shaft 130a, the guide member 100 can be more firmly fixed to the bottom chassis 84. That is, the guide member 100 is coupled to the bottom chassis 84 by the member fixing part 130, and even if the member fixing part 130 is loose, the positioning part 140 disposed spaced apart from the member fixing part 130 ) Is provided to be supported by two points together with the member fixing unit 130.

The manufacturing method of the guide member 100 is not limited, but the guide member 100 may be formed integrally by injection molding. In addition, the guide member 100 may be formed of a plastic material. However, the material of the guide member 100 is not limited thereto, and may be applied as a material having elasticity. For example, the guide member 100 may be formed of a rubber material.

In addition, when heat is generated in the display module 10 by the light source 30, the light guide plate 40 or the QD sheet 50 may be expanded, but is primarily supported by the guide member 100, and the light guide plate 40 ) And the QD sheet 50 are provided so as not to be distorted.

In addition, the guide member 100 may be formed in black to prevent reflection of light emitted from a plurality of light sources in the guide member 100.

The display device 1 may include a middle mold 70.

In an embodiment of the present invention, the middle mold 70 is disposed by being coupled to the bottom chassis 84 at the front edge of the light guide plate 40, thereby fixing the light guide plate 40 and the QD sheet 50 while fixing the optical sheet 60 and /Or may be provided to support the display panel 20.

The middle mold 70 includes a middle body 72 and a pressure rib 74.

The middle body 72 is provided to be coupled to the bottom chassis 84. The middle body 72 is formed to be coupled along the outer surface of the bottom chassis 84.

In detail, the middle body 72 includes a first body coupling portion 72a coupled to the inside of the side portion 84b of the bottom chassis 84, and a second body coupled to the outside of the side portion 84b of the bottom chassis 84. It includes a coupling portion (72b). Through this configuration, the middle mold 70 is coupled to the bottom chassis 84 so that the side portion 84b of the bottom chassis 84 is positioned between the first body coupling portion 72a and the second body coupling portion 72b. do.

The pressing rib 74 is formed to extend from the middle body 72 and is provided so that its ends are positioned in front of the light guide plate 40 and the QD sheet 50. The pressure rib 74 is provided to press the QD sheet 50 and the light guide plate 40 together in the bottom chassis 84 direction when the middle mold 70 is coupled to the bottom chassis 84. Through this, the QD sheet 50 and the light guide plate 40 may be in close contact. In addition, the light guide plate 40 and the QD sheet 50 mounted on the guide member 100 are provided to be fixed.

At least a portion of the pressure rib 74 may be formed along the circumference of the QD sheet 50 and the light guide plate 40. Since the middle mold 70 may be formed along the circumference of the bottom chassis 84, the pressing rib 74 may be formed in the entire area along the circumference of the QD sheet 50 and the light guide plate 40.

In addition, since the pressure rib 74 is formed extending from the middle body 72, its end is formed to the front of the QD sheet 50, so that the pressure rib 74 is not exposed to the outside of the guide member 100 can do. That is, the guide member 100 is not exposed to the outside by the pressure rib 74, so that the guide member 100 is not affected by the outside.

Hereinafter, a method of assembling the display device 1 according to an embodiment of the present invention will be described.

8 to 10 are diagrams illustrating a process of assembling a display device according to an embodiment of the present invention.

The guide member 100 is temporarily fixed to the bottom chassis 84 through the positioning part 140 of the guide member 100. After temporarily fixing the guide member 100 to the bottom chassis 84, the member fixing portion 130 and the bottom chassis 84 are screwed together to fix the guide member 100 to the bottom chassis 84.

After the guide member 100 is coupled to the bottom chassis 84, the light guide plate 40 is mounted on the first guide portion 110. In detail, the light guide plate groove 43 is guided along the first position guide unit 112 of the first guide unit 110 and is seated on the first seating unit 114.

After the light guide plate 40 is seated on the first guide portion 110, the QD sheet 50 is seated on the second guide portion 120. In detail, the QD seat groove portion 53 is guided along the second position guide portion 122 of the second guide portion 120 and is seated on the second seating portion 124.

The guide member 100 is provided in two places to correspond to the upper portion of the light guide plate 40 and the QD sheet 50 in the embodiment of the present invention, and one place to correspond to the lower portion of the light guide plate 40 and the QD sheet 50 Is provided, and mounts the light guide plate 40 and the QD sheet 50.

The arrangement position and arrangement number of the guide member 100 are not limited to the above-described positions. For example, the guide member 100 may be provided in one place on the upper part of the light guide plate 40 and the QD sheet 50 and two places in the lower part, or may be disposed in a portion where the light source is disposed, and the light guide plate 40 and A plurality of QD sheets 50 may be arranged along the periphery.

When the light guide plate 40 and the QD sheet 50 are seated on the guide member 100, the middle mold 70 is coupled to the bottom chassis 84. When the middle body 72 is coupled to the bottom chassis 84, the pressing rib 74 presses the light guide plate 40 and the QD sheet 50 in the direction of the bottom chassis 84, that is, backwards.

In this way, the light guide plate 40 and the QD sheet 50 can be seated together through the guide member 100, and the light guide plate 40 and the QD sheet 50 can be pressed together by the pressing rib 74. .

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

FIG. 11 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another exemplary embodiment of the present invention, and FIG. 12 is a perspective view illustrating a configuration adjacent to the guide member of the display device according to another exemplary embodiment of the present invention.

The display device 1 may include a guide member 200. The guide member 200 is provided to fix the light guide plate 40 and the QD sheet 50. In order to improve the color reproducibility through the QD sheet 50, the light emitted from the light guide plate 40 must pass through the QD sheet 50, and for this purpose, a guide member 200 is provided to fix both components. do.

The guide member 200 may be fixed within the chassis 80. In detail, it may be fixed to the bottom chassis 84. At least one guide member 200 is provided, and is provided to fix or seat the internal structure of the chassis 80.

The guide member 200 may include a guide portion provided to fix or seat a component in the chassis 80.

The first guide part 210 is provided to support the light guide plate 40, and the second guide part 220 is provided to support the QD sheet 50.

The first guide portion 210 is formed in a longitudinal direction from the side portion 84b of the bottom chassis 84 toward the inside of the bottom chassis 84, and is provided so that one side of the light guide plate 40 can be seated. Since the first guide part 210 is formed in a direction from the side part 84b of the bottom chassis 84 toward the inside of the bottom chassis 84, it is provided to support the light guide plate groove 43 of the light guide plate 40 from the side. I can.

The shape of the first guide part 210 is not limited, but in an embodiment of the present invention, it may be provided to have a cylindrical shape.

The first guide part 210 may include a first position guide part 212 and a first seating part 214.

The first position guide 212 is provided to determine a support position of the light guide plate 40. At least one guide member 200 is provided to support the light guide plate 40 and the QD sheet 50. The first position guide 212 of the guide member 200 is provided to guide the light guide plate 40 to the mounting position when the light guide plate 40 is mounted on the bottom chassis 84.

The first mounting part 214 is provided so that the light guide plate 40 guided by the first position guide 212 may be mounted. The first seating portion 214 may be formed separately by extending from the first position guide 212, or may be formed on the surface of the first position guide 212 as in the embodiment of the present invention.

In the exemplary embodiment of the present invention, the first position guide 212 may be formed as a curved surface forming a front surface of the first guide part 210 having a cylindrical shape or a curved surface provided at an end of the first guide part. Here, the front surface of the first guide unit 210 refers to a surface facing the front of the display device 1. The first seating portion 214 may be formed as a curved surface forming a side portion of the first guide portion 210 or a curved surface formed at an end portion of the first guide portion. That is, the curved surface provided at the end of the first guide part 210 may function as the first position guide part 212 and the first seating part 214.

The second guide part 220 may be provided to extend from the first guide part 210. The second guide part 220 may be provided to support the QD sheet 50.

The second guide portion 220 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the QD sheet 50 can be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are coupled as front and rear chassis of the display device 1, respectively, the front and rear directions may be defined as the top chassis 82 and the bottom chassis 84 directions.

The shape of the second guide part 220 is not limited, but in the embodiment of the present invention, it may be formed longer in the left-right direction than in the vertical direction. Based on the view of the display device 1 from the front, the second guide unit 220 is formed longer in the left and right direction than in the vertical direction, so that the QD sheet 50 can be stably supported in the direction of gravity. It is possible to prevent the position from shifting in the direction.

The second guide unit 220 may include a second position guide unit 222 and a second seating unit 224.

The second position guide 222 is provided to determine the support position of the QD sheet 50. At least one guide member 200 is provided to support the light guide plate 40 and the QD sheet 50. The second position guide 222 of the guide member 200 is provided to guide the QD sheet 50 to the mounting position when mounting the QD sheet 50 to the bottom chassis 84.

The second seating portion 224 is provided so that the QD sheet 50 guided by the second position guide 222 can be seated. The second seating portion 224 may be formed on the surface of the second position guide 222 or may be formed separately from the second position guide 222.

The QD sheet 50 seated on the guide member 200 is provided so that the seating position is determined by the second position guide 222 and seated in the second seating portion 224. In detail, the QD sheet groove 53 is provided so that the seating position is determined by the second position guide 222 and seated in the second seating portion 224.

The second guide part 220 may be formed to be stepped from the first guide part 210. In detail, a cross-sectional area of the second position guide part 222 in the longitudinal direction may be smaller than that of the first position guide part 212. In addition, when the light guide plate 40 is mounted on the first guide part 210, the first guide part 210 may be provided so that the first guide part 210 does not protrude higher than the light guide plate 40.

In this way, the first guide part 210 and the second guide part 220 are formed to be stepped, and the first guide part 210 is provided so as not to protrude higher than the light guide plate 40, so that the first guide part 210 The light guide plate 40 mounted on) and the QD sheet 50 mounted on the second guide unit 220 are each provided to be mounted on the guide member 200 without interfering with each other. Through this, when the light guide plate 40 is mounted on the first guide part 210 and the QD sheet 50 is mounted on the second guide part 220, there is no space between the light guide plate 40 and the QD sheet 50. Instead, the light guide plate 40 and the QD sheet 50 are provided to be in close contact with each other.

The second position guide part 222 of the second guide part 220 is formed to be stepped in all directions along the circumference of the first position guide part 212 of the first guide part 210, so that A portion of the QD sheet 50 mounted on the member 200 may be formed to be wider than a portion of the light guide plate 40 mounted on the guide member 200. Through this, it is provided so that light passing through the light guide plate 40 can stably pass through the QD sheet 50 even at a portion adjacent to the guide member 200.

The guide member 200 may include a member fixing part 230.

The member fixing part 230 is formed so that the guide member 200 can be fixed to the bottom chassis 84. The member fixing part 230 may be extended from the first guide part 210 and provided to be fixed to the bottom chassis 84. In detail, a coupling groove is formed in the member fixing part 230, and the coupling groove and the bottom chassis 84 may be screwed together to be coupled. However, the method of coupling the member fixing unit 230 is not limited.

The member fixing part 230 may be provided to correspond to the side portion 84b of the bottom chassis 84. That is, the member fixing part 230 provided so that the guide member 200 is fixed to the bottom chassis 84 is provided to correspond to the side portion 84b of the bottom chassis 84. Through this configuration, the light emitted from the light source 30 passes through the light guide plate 40 and passes through the QD sheet 50, thereby minimizing the interference of light by the guide member 200.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

13 is a diagram illustrating a coupling of a guide member and a chassis of a display device according to another embodiment of the present invention, and FIG. 14 is a perspective view showing a configuration adjacent to the guide member of the display device according to another embodiment of the present invention. .

The display device 1 may include a guide member 300. The guide member 300 is provided to fix the light guide plate 40 and the QD sheet 50. In order to improve the color reproducibility through the QD sheet 50, the light emitted from the light guide plate 40 must be provided to pass through the QD sheet 50. For this purpose, a guide member 300 is provided to fix both components. do.

The guide member 300 may be fixed within the chassis 80. In detail, it may be fixed to the bottom chassis 84. At least one guide member 300 is provided, and is provided to fix or seat the internal structure of the chassis 80.

The guide member 300 may include a guide portion provided to fix or seat a component in the chassis 80.

The first guide part 310 is provided to support the light guide plate 40, and the second guide part 320 is provided to support the QD sheet 50.

The first guide part 310 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the light guide plate 40 may be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are coupled as front and rear chassis of the display device 1, respectively, the front and rear directions may be defined as the top chassis 82 and the bottom chassis 84 directions.

The first guide part 310 may include a first position guide part 312 and a first seating part 314.

The first position guide 312 is provided to determine a support position of the light guide plate 40. At least one guide member 300 is provided to support the light guide plate 40 and the QD sheet 50. The first position guide 312 of the guide member 300 is provided to guide the light guide plate 40 to the mounting position when the light guide plate 40 is mounted on the bottom chassis 84.

The first mounting part 314 is provided so that the light guide plate 40 guided by the first position guide 312 may be mounted. The first seating part 314 may be formed on the surface of the first position guide 312.

The light guide plate 40 seated on the guide member 300 is provided to be seated in the first seating portion 314 by determining a seating position by the first position guide 312. In detail, the light guide plate groove portion 43 is provided to be seated on the first seating portion 314 by determining a seating position by the first position guide portion 312.

The second guide part 320 may be provided to extend from the first guide part 310. The second guide part 320 may be provided to support the QD sheet 50.

The second guide part 320 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the QD sheet 50 may be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are coupled as front and rear chassis of the display device 3, respectively, the front and rear directions may be defined as the top chassis 82 and the bottom chassis 84 directions.

The second guide part 320 may include a second position guide part 322 and a second seating part 324.

The second position guide 322 is provided to determine the support position of the QD sheet 50. At least one guide member 300 is provided to support the light guide plate 40 and the QD sheet 50. The second position guide 322 of the guide member 300 is provided to guide the QD sheet 50 to the mounting position when mounting the QD sheet 50 to the bottom chassis 84.

The QD sheet 50 seated on the guide member 300 is provided so that the seating position is determined by the second position guide 322 and seated in the second seating portion 324. In detail, the QD seat groove 53 is provided to be seated in the second seating portion 324 by determining a seating position by the second position guide 322.

The second guide part 320 may be formed to be stepped from the first guide part 310. In detail, the cross-sectional area of the second position guide part 322 in the longitudinal direction may be smaller than the cross-sectional area of the first position guide part 312 in the longitudinal direction. In addition, when the light guide plate 40 is mounted on the first guide part 310, the first guide part 310 may be provided so that the first guide part 310 does not protrude higher than the light guide plate 40.

In this way, the first guide part 310 and the second guide part 320 are formed to be stepped, and the first guide part 310 is provided so as not to protrude higher than the light guide plate 40, so that the first guide part 310 The light guide plate 40 mounted on) and the QD sheet 50 mounted on the second guide part 320 are each provided to be mounted on the guide member 300 without interfering with each other. Through this, when the light guide plate 40 is mounted on the first guide part 310 and the QD sheet 50 is mounted on the second guide part 320, there is no space between the light guide plate 40 and the QD sheet 50. Instead, the light guide plate 40 and the QD sheet 50 are provided to be in close contact with each other.

The second position guide part 322 of the second guide part 320 is formed to be stepped in all directions along the circumference of the first position guide part 312 of the first guide part 310, A portion of the QD sheet 50 mounted on the member 300 may be formed to be wider than a portion of the light guide plate 40 mounted on the guide member 300. Through this, it is provided so that light passing through the light guide plate 40 can stably pass through the QD sheet 50 even at a portion adjacent to the guide member 300.

The guide member 300 may include a member fixing part 330.

The member fixing part 330 is formed so that the guide member 300 can be fixed to the bottom chassis 84. The member fixing part 330 may be extended from the first guide part 310 and provided to be fixed to the bottom chassis 84. In detail, a coupling groove is formed in the member fixing part 330, and the coupling groove and the bottom chassis 84 may be screwed together to be coupled. However, the method of combining the member fixing part 330 is not limited.

The member fixing part 330 may be provided to correspond to the rear portion 84a of the bottom chassis 84. That is, the member fixing part 330 provided so that the guide member 300 is fixed to the bottom chassis 84 is provided to correspond to the rear part 84a of the bottom chassis 84. Through this configuration, it is possible to minimize the interference of light by the guide member 300 while the light emitted from the light source passes through the light guide plate 40 and passes the QD sheet 50. The first guide part 310 and the second guide part 320 described above may be provided to extend from the member fixing part 330 in the front-rear direction.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

15 is a diagram illustrating a coupling of a guide member and a chassis of a display device according to another embodiment of the present invention, and FIG. 16 is a perspective view showing a configuration adjacent to the guide member of the display device according to another embodiment of the present invention. .

The display device 1 may include a guide member 400. The guide member 400 is provided to fix the light guide plate 40 and the QD sheet 50. In order to improve color reproducibility through the QD sheet 50, the light emitted from the light guide plate 40 must be provided to pass through the QD sheet 50, and for this purpose, a guide member 400 is provided to fix both components. do.

The guide member 400 may be integrally formed with the bottom chassis 84. In detail, the guide member 400 may be provided to extend from the rear portion 84a of the bottom chassis 84.

In the embodiment of the present invention, the guide member 400 is formed integrally with the rear portion 84a of the bottom chassis 84, and is part of the rear portion 84a of the bottom chassis 84, and the rear portion 84a of the bottom chassis 84 It may be provided to be bent from ).

The guide member 400 may include a guide portion provided to fix or seat a component in the chassis 80.

The first guide part 410 is provided to support the light guide plate 40, and the second guide part 420 is provided to support the QD sheet 50.

The first guide part 410 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the light guide plate 40 can be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are coupled as front and rear chassis of the display device 1, respectively, the front and rear directions may be defined as the top chassis 82 and the bottom chassis 84 directions.

The first guide portion 410 may be formed integrally with the rear portion 84a of the bottom chassis 84 to extend from the rear portion 84a of the bottom chassis 84 to be bent. In addition, the first guide portion 410 may be formed to be perpendicular to the rear portion 84a of the bottom chassis 84.

Since the first guide part 410 is formed as a part of the rear part 84a of the bottom chassis 84, the first guide part 410 may be provided to have a plate shape.

The first guide part 410 may include a first position guide part 412 and a first seating part 414.

The first position guide 412 is provided to determine a support position of the light guide plate 40. At least one guide member 400 is provided to support the light guide plate 40 and the QD sheet 50. The first position guide 412 of the guide member 400 is provided to guide the light guide plate 40 to the mounting position when the light guide plate 40 is mounted on the bottom chassis 84.

The first mounting part 414 is provided so that the light guide plate 40 guided by the first position guide 412 may be mounted. The first seating portion 414 may be formed separately by extending from the first positioning portion 412, or may be formed on the surface of the first positioning portion 412 as in the embodiment of the present invention.

The light guide plate 40 seated on the guide member 400 is provided to be seated in the first seating portion 414 by determining a seating position by the first position guide 412. In detail, the light guide plate groove portion 43 is provided to be seated in the first seating portion 414 by determining a seating position by the first position guide portion 412.

The second guide part 420 may be provided to extend from the first guide part 410. The second guide part 420 may be provided to support the QD sheet 50.

The second guide part 420 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the QD sheet 50 may be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are coupled as front and rear chassis of the display device 1, respectively, the front and rear directions may be defined as the top chassis 82 and the bottom chassis 84 directions.

The second guide part 420 may include a second position guide 422 and a second seating part 424.

The second position guide 422 is provided to determine the support position of the QD sheet 50. At least one guide member 400 is provided to support the light guide plate 40 and the QD sheet 50. The second position guide portion 422 of the guide member 400 is provided to guide the QD sheet 50 to the mounting position when the QD sheet 50 is mounted on the bottom chassis 84.

The QD sheet 50 seated on the guide member 400 is provided so that the seating position is determined by the second position guide 422 and seated in the second seating portion 424. In detail, the QD seat groove 53 is provided so that the seating position is determined by the second position guide 422 and seated in the second seating portion 424.

The second guide part 420 may be formed to be stepped from the first guide part 410. In detail, the cross-sectional area of the second position guide part 422 in the longitudinal direction may be smaller than the cross-sectional area of the first position guide part 412 in the longitudinal direction. In addition, when the light guide plate 40 is mounted on the first guide part 410, the first guide part 410 may be provided so that the first guide part 410 does not protrude higher than the light guide plate 40.

In this way, the first guide portion 410 and the second guide portion 420 are formed to be stepped, and the first guide portion 410 is provided so as not to protrude higher than the light guide plate 40, so that the first guide portion 410 The light guide plate 40 mounted on) and the QD sheet 50 mounted on the second guide part 420 are each provided to be mounted on the guide member 400 without interfering with each other. Through this, when the light guide plate 40 is mounted on the first guide part 410 and the QD sheet 50 is mounted on the second guide part 420, there is no space between the light guide plate 40 and the QD sheet 50. Instead, the light guide plate 40 and the QD sheet 50 are provided to be in close contact with each other.

The second position guide part 422 of the second guide part 420 is formed to be stepped in all directions along the circumference of the first position guide part 412 of the first guide part 410, so that a relatively guide A portion of the QD sheet 50 mounted on the member 400 may be formed to be wider than a portion of the light guide plate 40 mounted on the guide member 400. Through this, it is provided so that light passing through the light guide plate 40 can stably pass through the QD sheet 50 even at a portion adjacent to the guide member 400.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

FIG. 17 is a diagram illustrating a combination of a guide member and a chassis of a display device according to another embodiment of the present invention, and FIG. 18 is a perspective view showing a configuration adjacent to the guide member of the display device according to another embodiment of the present invention. .

The display device 1 may include a guide member 500. The guide member 500 is provided to fix the light guide plate 40 and the QD sheet 50. In order to improve the color reproducibility through the QD sheet 50, the light emitted from the light guide plate 40 must be provided to pass through the QD sheet 50, and for this purpose, a guide member 500 is provided to fix both components. do.

The guide member 500 may be fixed within the chassis 80. In detail, it may be fixed to the bottom chassis 84. At least one guide member 500 is provided, and is provided to fix or seat the internal structure of the chassis 80.

The guide member 500 may include a guide portion provided to fix or seat a component in the chassis 80.

The first guide part 510 is provided to support the light guide plate 40, and the second guide part 520 is provided to support the QD sheet 50.

The configurations of the first guide portion 510 and the second guide portion 520 of the guide member 500 in this embodiment are similar to those in the third embodiment.

However, the guide member 500 in this embodiment may be integrally formed with the bottom chassis 84. In detail, the guide member 510 may be provided to extend from the rear portion 84a of the bottom chassis 84.

In the embodiment of the present invention, the guide member 510 is formed integrally with the rear portion 84a of the bottom chassis 84, and is part of the rear portion 84a of the bottom chassis 84, and the rear portion 84a of the bottom chassis 84 ) May be provided to have a protrusion shape protruding from.

The guide member 500 may include a guide portion provided to fix or seat a component in the chassis 80.

The first guide part 510 is provided to support the light guide plate 40, and the second guide part 520 is provided to support the QD sheet 50.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

19 is a cross-sectional view illustrating a configuration adjacent to a guide member of a display device according to another embodiment of the present invention, and FIG. 20 is a perspective view of a partial configuration of a display device according to another embodiment of the present invention.

The display device 1 may include a middle mold 70.

The middle mold 70 is provided to support the light guide plate 40. The middle mold 70 may be coupled to the bottom chassis 84 and provided to support the light guide plate 40 and the QD sheet 50.

The middle mold 70 includes a middle body 72 and a pressure rib 74.

The middle body 72 is provided to be coupled to the bottom chassis 84. The middle body 72 is formed to be coupled along the outer surface of the bottom chassis 84.

In detail, the middle body 72 includes a first body coupling portion 72a coupled to the inside of the side portion 84b of the bottom chassis 84, and a second body coupled to the outside of the side portion 84b of the bottom chassis 84. It includes a coupling portion (72b). Through this configuration, the middle mold 70 is coupled to the bottom chassis 84 so that the side portion 84b of the bottom chassis 84 is positioned between the first body coupling portion 72a and the second body coupling portion 72b. do.

The pressing rib 74 is formed to extend from the middle body 72 and is provided so that its ends are positioned above the light guide plate 40 and the QD sheet 50. The pressure rib 74 is provided to press the QD sheet 50 and the light guide plate 40 together in the bottom chassis 84 direction when the middle mold 70 is coupled to the bottom chassis 84. Through this, the QD sheet 50 and the light guide plate 40 may be in close contact. In addition, the light guide plate 40 and the QD sheet 50 mounted on the guide member 100 are provided to be fixed.

At least a portion of the pressure rib 74 may be formed along the circumference of the QD sheet 50 and the light guide plate 40. Since the middle mold 70 may be formed along the circumference of the bottom chassis 84, the pressing rib 74 may be formed in the entire area along the circumference of the QD sheet 50 and the light guide plate 40.

In addition, since the pressure rib 74 is formed extending from the middle body 72, its end is formed to the front of the QD sheet 50, so that the pressure rib 74 is not exposed to the outside of the guide member 100 can do. That is, the guide member 100 is not exposed to the outside by the pressure rib 74, so that the guide member 100 is not affected by the outside. The middle mold 70 may include a seat guide part 76. The seat guide part 76 is provided in front of the middle body 72 and provided so that the optical sheet 60 is seated. The seat guide portion 76 is formed extending forward from the middle body 72 and is provided so that the optical sheet 60 can be seated. The shape of the seat guide part 76 is not limited, and may be provided in a protrusion shape extending from the middle body 72.

Sheet guide grooves 61a and 62a may be formed in the optical sheet 60 to correspond to the sheet guide portion 76. The sheet guide grooves 61a and 62a of the optical sheet 60 are seated on the sheet guide portion 76 of the middle mold 70 so that the optical sheet 60 can be guided by the middle mold 70. It is prepared. The shape of the seat guide grooves 61a and 62a is not limited, and any configuration capable of being supported or guided by the seat guide portion 76 is satisfied.

At least one seat guide part 76 may be provided in the middle mold 70. The number of the sheet guide portions 76 is not limited, and a plurality of the middle body 72 may be spaced apart from each other so as to stably support the optical sheet 60.

The seat guide portion 76 of the middle mold 70 may be disposed to be spaced apart from the guide member 600. That is, as shown in FIG. 20, the seat guide portion 76 that is spaced apart from the middle body 72 is provided to be spaced apart from the plurality of guide members 600. That is, the arrangement of the at least one seat guide part 76 may be arranged to be displaced from the at least one guide member.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

21 is a cross-sectional view illustrating a configuration adjacent to a guide member of a display device according to another exemplary embodiment of the present invention.

The display device 1 may include a guide member 700.

The guide member 700 may be fixed within the chassis 80. In detail, it may be fixed to the bottom chassis 84. At least one guide member 700 is provided, and is provided to fix or seat the internal structure of the chassis 80.

The guide member 700 may include a guide portion provided to fix or seat a component in the chassis 80. That is, the guide portion is provided so that the light guide plate 40, the QD sheet 50, and the optical sheet 60 can be seated or guided on the chassis 80.

The guide part may include a first guide part 710, a second guide part 720, and a third guide part 750.

The first guide part 710 is provided to guide the light guide plate 40, the second guide part 720 is provided to guide the QD sheet 50, and the third guide part 750 is provided to guide the optical sheet 60. It can be provided to guide.

The first guide part 710 may include a first position guide part 712 and a first seating part 714.

The second guide part 720 may be provided to extend from the first guide part 710. The second guide part 720 may be provided to support the QD sheet 50. The second guide part 720 may include a second position guide 722 and a second seating part 724.

The first guide part 710 and the second guide part 720 are the same as the first guide part 110 and the second guide part 120 in the embodiment of the present invention.

The third side portion 750 may be provided to extend from the second guide portion 720. The third guide part 750 may be provided to support the optical sheet 60. The third guide part 750 may include a third position guide part 752 and a third seating part 754.

The third position guide 752 is provided to determine the support position of the optical sheet 60. The optical sheet 60 is provided with a sheet guide groove, and the position of the optical sheet 60 is guided so that the third position guide 752 is inserted into the sheet guide groove of the optical sheet 60.

The third seating portion 754 is provided so that the optical sheet 60 guided by the third position guide portion 752 can be seated. The third seating portion 754 may be formed on the surface of the third position guide portion 752 or may be formed separately from the third position guide portion 752.

Since the third position guide 752 and the third seating portion 754 correspond to the second and second seating portions, respectively, descriptions of the second and second seating portions may be applied.

The third guide part 750 may be formed to be stepped from the second guide part 720. In detail, a cross-sectional area perpendicular to the longitudinal direction of the third position guide portion 752 may be formed to be smaller than a cross-sectional area perpendicular to the longitudinal direction of the second position guide portion 722. In addition, when the QD sheet 50 is mounted on the second guide part 720, the second guide part 720 may be provided so that the second guide part 720 does not protrude higher than the QD sheet 50. That is, the height of the second guide part 720 may be provided to correspond to the thickness of the QD sheet 50.

In this way, the second guide part 720 and the third guide part 750 are formed to be stepped, and the second guide part 720 is provided so as not to protrude higher than the QD sheet 50, so that the second guide part ( The QD sheet 50 mounted on the 720 and the optical sheet 60 mounted on the third guide part 750 are each provided to be mounted on the guide member 700 without interfering with each other. Through this, when the QD sheet 50 is mounted on the second guide part 720 and the optical sheet 60 is mounted on the third guide part 750, a space between the QD sheet 50 and the optical sheet 60 This does not occur, and the QD sheet 50 and the optical sheet 60 are provided so as to be in close contact.

In this embodiment, the third guide part 750 is formed to be stepped with respect to the second guide part 720, but is not limited thereto, and is extended from the second guide part 720 to guide or seat the optical sheet 60 If it can be configured to satisfy the function of the third guide unit 750.

The light guide plate 40, the QD sheet 50, and the optical sheet 60 are provided to be guided by a guide member 700 in front of the bottom chassis 84, and a display panel in the front of the optical sheet 60 20 can be placed. In addition, a top chassis 82 corresponding to the bottom chassis 84 is disposed in front of the display panel 20. That is, the light guide plate 40, the QD sheet 50, the optical sheet 60, and the display panel 20 may be disposed between the bottom chassis 84 and the top chassis 82. In this embodiment, the middle mold 70 in the first embodiment is omitted, and the light guide plate 40, the QD sheet 50, the optical sheet 60, and the display panel 20 are inside the chassis 80. It is provided to be guided or seated. However, the present invention is not limited thereto, and the middle mold 70 may be added.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

22 is a cross-sectional view illustrating a configuration adjacent to a guide member of a display device according to another exemplary embodiment of the present invention.

The display device 1 may include a middle mold 870.

The middle mold 870 may be provided to support the light guide plate 40, the QD sheet 50, and the optical sheet 60. The middle mold 870 may be coupled to the bottom chassis 84 and provided to support the light guide plate 40, the QD sheet 50, and the optical sheet 60.

The middle mold 870 includes a middle body 872 and a pressure rib 874.

The middle body 872 is provided to be coupled to the bottom chassis 84. The middle body 872 is formed to be coupled along the outer surface of the bottom chassis 84.

In detail, the middle body 872 is a first body coupling portion 872a coupled to the inside of the side portion 84b of the bottom chassis 84, and a second body coupled to the outside of the side portion 84b of the bottom chassis 84. It includes a coupling portion 872b. Through this configuration, the middle mold 870 is coupled to the bottom chassis 84 so that the side portion 84b of the bottom chassis 84 is positioned between the first body coupling portion 872a and the second body coupling portion 872b. do.

The pressing rib 874 is formed to extend from the middle body 872, and its ends are provided to be positioned above the light guide plate 40, the QD sheet 50, and the optical sheet 60. When the middle mold 870 is coupled to the bottom chassis 84, the pressing rib 874 presses the light guide plate 40, the QD sheet 50, and the optical sheet 60 together in the direction of the bottom chassis 84. It is prepared. Through this, the light guide plate 40, the QD sheet 50, and the optical sheet 60 may be in close contact. In addition, the light guide plate 40, the QD sheet 50, and the optical sheet 60 mounted on the guide member 100 are provided to be fixed.

The arrangement order of the light guide plate 40, the QD sheet 50, and the optical sheet 60 is not limited, and in the embodiment of the present invention, the light guide plate 40, the QD sheet 50, and the optical sheet 60 are sequentially It is placed close to the chassis 84.

At least a portion of the pressure rib 874 may be formed along the circumference of the QD sheet 50 and the light guide plate 40. Since the middle mold 870 may be formed along the circumference of the bottom chassis 84, the pressing rib 874 may be formed in the entire area along the circumference of the QD sheet 50 and the light guide plate 40.

In addition, since the pressing rib 874 is formed extending from the middle body 872, the end thereof is formed to the front of the optical sheet 60, so that the pressing rib 874 does not expose the guide member 100 to the outside. can do. That is, the guide member 100 is not exposed to the outside by the pressing rib 874, so that the guide member 100 is not affected by the outside.

The display panel 20 may be disposed in front of the middle mold 870, and the top chassis 82 may be disposed in front of the display panel 20 to correspond to the bottom chassis 84.

The light guide plate 40, the QD sheet 50, and the optical sheet 60 may be provided with the guide member 700 in FIG. 21 to guide the configuration.

Hereinafter, a display device according to another embodiment of the present invention will be described.

In the description of the present embodiment, descriptions of configurations that overlap with the previous description will be omitted.

FIG. 23 is a cross-sectional view illustrating a configuration adjacent to a guide member of a display device according to another embodiment of the present invention, and FIG. 24 is a diagram illustrating a combination of some components of a display device according to another embodiment of the present invention.

The top chassis 82 includes a bezel part 82a covering the front outer side of the display panel 20, and a top side part 82b that is bent rearward from the end of the bezel part 82a to cover the side of the middle mold 70 Includes.

The bottom chassis 84 includes a rear portion 84a forming a rear surface of the display module 10 and a bottom side portion 84b extending from the circumference of the rear portion to the front side and coupled to the middle mold 70.

The display device 1 may include a guide member 900.

The guide member 900 is provided to guide or seat the light guide plate 40. The guide member 900 may include a guide portion provided to fix or seat a component in the chassis 80.

The guide part 910 is provided to guide the light guide plate 40. The guide part 910 is formed in a longitudinal direction from the bottom chassis 84 in a longitudinal direction, and is provided so that one side of the light guide plate 40 may be seated. The front-rear direction may be defined as a vertical direction of the bottom chassis 84. In addition, since the top chassis 82 and the bottom chassis 84 are combined as the front and rear chassis of the display module 10, respectively, the front and rear directions can be referred to as the front and rear directions of the top chassis 82 and the bottom chassis 84. have.

The guide part 910 may include a location guide part 912 and a seating part 914. The location guide unit 912 and the seating portion 914 may have the same configuration as the first location guide portion 112 and the first seating portion 114 in one embodiment.

The bottom chassis 84 may include a side guide portion 85 for guiding the QD sheet 50. The side guide portion 85 is formed to extend from the bottom side portion 84b and is provided to guide the QD sheet 50.

The side guide portion 85 may include a seat position guide portion 85a and a seat seating portion 85b.

The seat position guide 85a is provided to determine the support position of the QD sheet 50. The side guide portion 85 is provided to guide the QD sheet 50 to the mounting position when the QD sheet 50 is mounted on the bottom chassis 84. The seat position guide portion 85a may be extended from the bottom side portion 84b and may be provided to protrude from the adjacent bottom side portion 84b. That is, the sheet position guide portion 85a may be formed integrally with the bottom side portion 84b, and may be provided in the shape of a protrusion protruding from the bottom side portion 84b. However, the present invention is not limited thereto, and as a separate configuration from the bottom side portion 84b, it may be provided detachably on the bottom side portion 84b.

The QD sheet 50 includes a QD sheet body 51 and a QD sheet groove 53 formed in the QD sheet body 51 and formed in a groove shape so as to be supported by the side guide portion 85 in a groove shape. I can. The QD sheet body 51 may include a QD sheet seating portion 52 protruding from the QD sheet body 51 on the same surface. The QD sheet groove 53 is formed in the QD sheet seating portion 52 so that the movement of light in the QD sheet body 51 is not obstructed by the side guide portion 85 disposed in the QD sheet groove 53. I can. The QD sheet groove 53 may be formed in the QD sheet seating portion 52 or may be formed in the QD sheet body 51.

At least one side guide portion 85 may be provided along the bottom side portion 84b. In this embodiment, as an example, a plurality of side guide portions 85 may be disposed to be spaced apart along the bottom side portion 84b.

The seat seating portion 85b is provided so that the QD sheet 50 guided by the seat position guide portion 85a can be seated. The seat seating portion 85b may be formed on the surface of the seat position guide portion 85a, or may be formed separately from the seat position guide portion 85a. In this embodiment, the seat seating portion 85b may be formed along the bottom side portion 84b from the side portion of the seat position guide portion 85a.

The display device 1 may include a middle mold 70.

The middle mold 70 is provided to support the light guide plate 40. The middle mold 70 may be coupled to the bottom chassis 84 and provided to support the light guide plate 40 and the QD sheet 50. The middle mold 70 includes a middle body 72 and a pressure rib 74. The middle body 72 is provided to be coupled to the bottom chassis 84. The middle body 72 is formed to be coupled along the outer surface of the bottom chassis 84.

A top chassis 82 may be disposed in front of the middle mold 70.

In the above, specific embodiments have been illustrated and described. However, it is not limited only to the above-described embodiments, and those of ordinary skill in the technical field to which the invention pertains will be able to perform various changes without departing from the gist of the technical idea of the invention described in the following claims. .

1: display device 10: display module
20: display panel 30: light source
40: light guide plate 50: QD sheet
60: optical sheet 70: middle mold
80: chassis 100: guide member
110: first guide portion 120: second guide portion
130: absence fixing unit 140: location determination unit

Claims (25)

Display panel;
A chassis disposed to support the display panel by a top chassis disposed in front of the display panel and a bottom chassis disposed at the rear and having a plurality of positioning grooves formed at at least one of an upper end or a lower end thereof;
A light source disposed on at least one side surface of the chassis;
A light guide plate disposed in front of the bottom chassis to emit light generated from the light source through an emission surface;
A QD (Quantum Dot) sheet disposed to correspond to the exit surface of the light guide plate;
A first guide part supporting a side surface of the light guide plate, a second guide part extending from the first guide part and supporting the side surface of the QD sheet, and a rearward from the first guide part to be inserted into the positioning groove. Includes; at least one guide member including a protruding positioning portion,
And the positioning unit is inserted into the positioning groove so that the guide member is temporarily fixed to the bottom chassis. The method of claim 1,
The at least one guide member,
A display module, characterized in that supporting the light guide plate and the QD sheet together. The method of claim 1,
The at least one guide member,
Display module, characterized in that provided to be detachable from the chassis. delete The method of claim 1,
The second guide part,
Display module, characterized in that protruding from the first guide portion. The method of claim 1,
The first guide part,
A first position guide for determining a support position of the light guide plate;
And a first seating portion guided by the first position guide and on which the light guide plate is seated. The method of claim 6,
The second guide part,
A second position guide for determining a support position of the QD sheet;
And a second seating portion guided by the second position guide to seat the QD sheet. The method of claim 7,
The first location guide and the second location guide,
A display module, characterized in that provided in a protruding shape. The method of claim 7,
The second location guide unit,
The display module, characterized in that formed to be stepped from the first position guide portion. The method of claim 1,
When the light guide plate is mounted on the first guide,
The display module, wherein the first guide portion is provided so as not to protrude from the front surface of the light guide plate. The method of claim 1,
The at least one guide member,
And a member fixing part for fixing the guide member to the bottom chassis, the member fixing part spaced apart from the first guide part and provided to fix the guide member to the rear of the light guide plate. The method of claim 11,
The at least one guide member,
The display module, characterized in that when the guide member is coupled to the bottom chassis, the positioning part is provided to be spaced apart from the member fixing part. The method of claim 7,
The light guide plate,
Light guide plate body;
A light guide plate seating portion protruding from the light guide plate body on the same surface;
And a light guide plate groove formed in a groove shape on the light guide plate seating part so that the light guide plate is supported by the first guide part,
The QD sheet,
QD sheet body;
A QD sheet seating portion protruding from the QD sheet body on the same surface;
And a QD sheet groove formed in a groove shape on the second seating portion so that the QD sheet is supported by the second guide portion. The method of claim 1,
The light source,
A plurality of blue LEDs;
Includes; a circuit board for supplying power to the plurality of blue LEDs,
The QD sheet,
And a yellow QD sheet provided to convert blue light emitted from the plurality of blue LEDs into white light. The method of claim 1,
The at least one guide member,
The display module, characterized in that provided to support two places on the light guide plate and the QD sheet. The method of claim 15,
The at least one guide member,
The display module, characterized in that provided to support one place under the light guide plate and the QD sheet. The method of claim 1,
The display module,
And a middle mold coupled to the bottom chassis and having a pressing member for pressing the light guide plate and the QD sheet together. The method of claim 1,
The guide member,
The display module, characterized in that formed in black to reduce reflection of light emitted from the light source. The method of claim 1,
The QD sheet is a display module, characterized in that provided to make surface contact with the exit surface of the light guide plate. The method of claim 1,
And a middle mold coupled to the chassis and having a pressing member for pressing the light guide plate and the QD sheet together. The method of claim 20,
The middle mold,
A middle body coupled to the chassis;
And a pressing rib extending from the middle body and pressing the QD sheet and the light guide plate. The method of claim 21,
The pressure rib,
Display module, characterized in that the entire area is formed along the circumference of the QD sheet.
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