KR101941882B1 - Multi-display system - Google Patents

Abstract

The present invention relates to a multi-display system in which a plurality of display devices are combined, wherein each of the plurality of display devices comprises: a display module for displaying an image; A backlight module disposed on one side of the display module and having a plurality of light sources; A housing for supporting the display module and the backlight module together, the housing including: a side wall vertically formed; A bezel formed at one end of the side wall and extending a predetermined area to support a rim area of the display module; A plurality of coupling hooks formed on the inner wall surface of the side wall in a "?" Shape along the height direction; A plurality of coupling brackets formed in a shape corresponding to the plurality of coupling hooks and fitted into the plurality of coupling hooks and having a coupling screw insertion hole into which a coupling screw for fixing the display module and the backlight module is inserted, And the thickness of the side wall is smaller than the diameter of the fastening screw.

Description

Multi-display system {MULTI-DISPLAY SYSTEM}

The present invention relates to a multi-display system, and more particularly, to a multi-display system capable of maintaining continuity of a screen by minimizing a width of a bezel area when a plurality of display devices are coupled together.

Various types of display devices are used for information transmission and advertising purposes. The display device may be used in the form of a flat panel display such as an LED, an OLED, or the like, or may be installed in the form of an entrance board such as an LED electric signboard, or installed on a roof or an outer wall of a building.

In recent years, a multi-display system in which a plurality of display devices are combined is used in order to increase the effect of advertisement or improve the visibility.

1 is an exemplary view showing an example of a conventional multi-display system 20. As shown in the drawing, in the conventional multi-display system 20, a plurality of display devices 10, 10a and 10b are stacked and combined horizontally or vertically to display one image.

Here, the respective display devices 10, 10a and 10b are arranged so as to be separated from each other by the bezel region 11. [ The bezel area 11 is formed by adding the width of the housing of each display device 10, 10a, 10b and the width of the bezel.

Each display device 10, 10a, 10b uses a fastening screw to couple the display panel and internal components to the housing. As a result, the thickness of the housing is at least greater than the screw head (typically 3 mm to 5 mm) of the fastening screw. This limits the minimization of the thickness of the housing.

When the plurality of display devices 10, 10a, and 10b are coupled to each other, the bezel area 11 of the pair of display devices 10, 10a, and 10b disposed adjacent to each other has a width of two bezels and two housings It is difficult to reduce the thickness of the bezel region 11 to less than 10 mm.

Accordingly, when an image is displayed in the conventional multi-display system, there is a problem that a short circuit phenomenon occurs in which the image is not connected to the bezel region 11 and is broken.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a multi-display system capable of significantly reducing the width of a bezel region between neighboring display devices by significantly reducing the width of a housing.

It is another object of the present invention to provide a multi-display system capable of reducing a width of a bezel area to solve a short-circuit problem between neighboring display devices.

It is still another object of the present invention to provide a multi-display system in which a plurality of structures coupled to each other can be simply coupled to the housing in the same fastening manner.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The object of the present invention can be achieved by a multi-display system in which a plurality of display devices are combined and formed. Each of the plurality of display devices includes a display module for displaying an image; A backlight module disposed on one side of the display module and having a plurality of light sources; A housing for supporting the display module and the backlight module together, the housing including: a side wall vertically formed; A bezel formed at one end of the side wall and extending a predetermined area to support a rim area of the display module; A plurality of coupling hooks formed on the inner wall surface of the side wall in a "?" Shape along the height direction; A plurality of coupling brackets formed in a shape corresponding to the plurality of coupling hooks and fitted into the plurality of coupling hooks and having a coupling screw insertion hole into which a coupling screw for fixing the display module and the backlight module is inserted, And the thickness of the side wall is smaller than the diameter of the fastening screw.

According to one embodiment, the coupling hook includes a horizontal end protruding a predetermined length inward from an inner wall surface of the side wall, and a vertical end bent perpendicularly at an end of the horizontal end, A bracket main body formed in a rod shape having a corresponding length and having an upper surface of the fastening screw insertion hole; An insertion end extending from the bracket body and inserted and supported between the inner wall surface of the housing and the vertical end; And a vertical end inserting trench formed at a predetermined depth between the bracket body and the insertion end to insert the vertical end.

According to an embodiment of the present invention, the backlight module further includes a heat dissipation module disposed on a back surface of the backlight module to discharge heat generated from the light source to the outside using a Peltier effect, To the side wall.

According to one embodiment, the neighboring pair of display devices may be provided to share a sidewall in a border region adjacent to each other.

In the multi-display system of the present invention, all the structures are fastened through the coupling structure of the coupling hook and the coupling bracket in each display device. At this time, since the fastening screw is coupled to the engagement bracket, it is not directly coupled to the side wall, so that the thickness of the side wall can be minimized.

In addition, since the thickness of the side wall is reduced, the width of the bezel region where the two display devices are contacted can be significantly reduced. This minimizes short-circuiting of the image in the bezel area, so that the image can be smoothly connected.

1 is a schematic view showing a front configuration of a conventional multi-display system,
2 is a schematic view schematically showing a frontal configuration of a multi-display system according to the present invention,
3 is a perspective view showing a combined structure of a multi-display system according to the present invention,
4 is a cross-sectional view showing a cross-sectional structure of a display device according to line AA in FIG. 3,
5 is an exploded perspective view showing a coupling structure of a display device according to the present invention,
6 is a cross-sectional view illustrating a cross-sectional configuration of a display device according to another embodiment of the present invention,
7 is a cross-sectional view showing a cross-sectional configuration of a multi-display system according to another embodiment of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

2 is a schematic view showing the frontal configuration of the multi-display system 1 according to the present invention. As shown in the figure, the multi-display system 1 according to the present invention is formed by combining a plurality of display devices 100, 100a and 100b.

At this time, a bezel area a exists between neighboring display devices 100, 100a, and 100b. The display system 1 according to the present invention is configured such that the width of the bezel 121a of each display device 100, 100a, 100b is 2 mm to 5 mm so that the width of the bezel area a in which the two bezels 121a are overlapped is 4 mm To 10 mm.

Accordingly, when compared with the conventional multi-display system shown in FIG. 1, the width of the bezel area a can be remarkably reduced to minimize a short-circuit phenomenon in the bezel area a so that the images can be smoothly connected.

3 is a perspective view showing a combined structure of the multi-display system 1 of the present invention. The multi-display system 1 of the preferred embodiment of the present invention is provided so that a plurality of display devices 100, 100a and 100b having independent structures are stacked horizontally and vertically to display one image.

Each of the display devices 100, 100a, and 100b is provided in a direct-type type in which the light source 133 is disposed on the lower surface of the display panel 111. [ The plurality of display devices 100, 100a, and 100b have the same configuration.

4 is a cross-sectional view showing a cross-sectional configuration taken along the line A-A of the display device 100 of Fig. 1, the display device 100 includes a display module 110 for displaying an image, a housing 120 for supporting a border area of the display module 110, a housing 120 housed in the housing 120, A backlight module 130 disposed on the rear surface of the backlight module 130 and adapted to irradiate light to the display module 110; And a rear cover 150 covering an end of the opened housing 120.

The display module 110 displays an image processed in an image processing unit (not shown) under the control of a control unit (not shown). The plurality of display devices 100, 100a and 100b may combine to display one image or display the same image.

The display module 110 includes a display panel 111 and a protection plate 113 positioned on the front surface of the display panel 111 to protect the display panel 111 and a polarizing sheet 115 and a protective sheet 117 positioned on the back surface of the polarizing sheet 115. [

The display modules 110 are sequentially stacked and held in contact with the bezel 121a of the housing 120. A protective tape 113a is disposed in a contact area between the bezel 121a and the shield plate 113. [ A sealing member 113b is provided in a space between the protection plate 113 and the inner wall surface of the housing 120. [ The sealing member 113b seals the space inside the housing 120 so that the vacuum pressure is maintained.

Since the configuration of the display module 110 is the same as that of the known display module, detailed description is omitted.

The housing 120 supports the display module 110, the backlight module 130, the heat dissipation module 140, and the rear cover 150. The housing 120 is formed to have a minimum thickness so that the plurality of display devices 100, 100a, Thereby minimizing a short-circuit in the bezel area (a) when the image is displayed.

5 is an exploded perspective view showing a coupling structure of the housing 120, the module fixing plate 122, and the backlight supporting substrate 131. As shown in FIG.

The housing 120 is formed in the shape of a housing having open top and bottom. A display module 110 including a protection plate 113 is coupled to the open lower portion of the housing 120, and a rear cover 150 is coupled to the upper portion. A seal member is coupled to a region where the protection plate 113 and the rear cover 150 are coupled with the housing 120 so that the inside of the housing 120 is maintained in a vacuum state.

The housing 120 includes a vertically disposed side wall 121, a plurality of hooks 123, 124, 126, 128 coupled along the height direction of the side wall 121, and a plurality of engagement brackets 123, 124, 126, 128 detachably coupled to the plurality of hooks 123, (123a, 125, 127, 129).

A bezel 121a is formed at a lower portion of the side wall 121 to extend and support the display module 110. Here, the bezel 121a according to the present invention is formed to have a minimum width of 2 mm to 5 mm which can support the edge region of the display module 110. Accordingly, the width of the bezel area a in which the bezel 121a of the two neighboring display devices 100 and 100a shown in FIG. 2 are combined can be 4 mm to 10 mm.

The side wall 121 is formed to have a height enough to support the display panel 111 and the rear cover 150. The thickness of the sidewall 121 is formed to a minimum thickness within a range that can have durability to support the structures.

To this end, the side wall 121 may be manufactured by drawing aluminum or magnesium alloy by extrusion and then cutting and machining according to the specifications of the display devices 100, 100a, 100b, followed by welding and surface treatment. At this time, the width d3 of the side wall 121 is formed in the range of 0.5 mm to 3 mm.

The reason why the width d3 of the side wall 121 of the present invention can be minimized to 0.5 mm to 3 mm is that the fastening screws f and g are not directly fastened to the side wall 121. That is, since the display device 100, 100a, 100b according to the present invention fastens the conventional fastening screw directly to the housing, the problem that the thickness of the housing has to be widened by the fastening screw is that the fastening screw is fastened to the engagement brackets 123a, 125, 127, And the engagement brackets 123a, 125, 127, and 129 are detachably coupled to the hooks 123, 124, 126, and 128. [

4, a module connecting hook 124, a backlight connecting hook 126, a heat dissipating module connecting hook 128, and a rear cover connecting hook 123 are sequentially and integrally formed on the side wall 121, . The module coupling bracket 125, the backlight coupling bracket 127, the heat dissipating module coupling bracket 129, and the rear cover coupling bracket 123a are provided correspondingly.

The module coupling hook 124 and the module coupling bracket 125 are coupled to each other through the backlight coupling hook 126 and the backlight coupling bracket 127, the heat dissipating module coupling hook 128 and the heat dissipating module coupling bracket 129, The module coupling hook 124 and the module coupling bracket 125 will be described in detail since the same is applied to the cover coupling bracket 123a and the rear cover coupling bracket 123a.

As shown in Fig. 5, the module coupling hook 124 is formed to protrude inward from the wall surface of the side wall 121. As shown in Fig. The module coupling hook 124 includes a first horizontal end 124a projecting horizontally in the inward direction and a first vertical end 124b bent perpendicularly at the end of the first horizontal end 124a. Here, the thickness of the first horizontal end 124a and the thickness of the first vertical end 124b are minimized in the range of 0.3 mm to 3 mm, like the side wall 121.

The first vertical end 124a and the first vertical end 124b are bent in the shape of a letter so that an insertion space c is formed between the first vertical end 124b and the side wall 121. [

The module coupling bracket 125 is provided corresponding to the length of the side wall 121 to couple the module coupling hook 124 and the module fixing plate 122 and fix the display module 110 between the bezels 121a.

The module coupling bracket 125 includes a first bracket main body 125a having a length corresponding to the side wall 121 and a first insertion portion 124b which is bent and extended from the first bracket main body 125a and is inserted into the insertion space c. A first vertical end inserting trench 125b which is recessed between the first bracket main body 125a and the first insertion end 125c and into which the first vertical end 124b is inserted, And a first fastening screw insertion hole 125d formed through the body 125a and into which the first fastening screw f is inserted.

The first bracket body 125a and the first insertion end 125c are coupled to the module coupling hook 124 such that the first vertical end insertion trench 125b is fitted into the first vertical end 124b. At this time, the first insertion end 125c is inserted into the insertion space c. The first vertical end 124b and the first insertion end 125c intersect and are fitted to each other and the module fixing plate 122 is seated on the first horizontal end 124a and the upper portion of the first bracket body 125a.

The first fastening screw f is inserted through the insertion hole 122a of the module fixing plate 122 and the first fastening screw insertion hole 125d. The first fastening screw insertion hole 125d is formed through the first bracket main body 125a and the lower portion of the first fastening screw f passes through the first fastening screw insertion hole 125d, And exposed to the lower portion of the bracket body 125a. The lower portion of the first fastening screw f contacts the display module 110 as shown in FIG.

As a result, the display module 110 is restrained between the bezel 121a and the first fastening screw f to be fixed in position.

The structure and the coupling structure of the backlight coupling hook 126 and the backlight coupling bracket 127 are similar to the module coupling hook 124 and the module coupling bracket 125 described above. The backlight coupling bracket 127 is different from the backlight coupling bracket 127 in that the second fastening screw insertion hole 127d is inserted into the second bracket main body 127a at a certain depth without penetrating through the second bracket main body 127a and the second fastening screw g is inserted.

The backlight support substrate 131 of the backlight module 130 is seated on the upper surface of the second bracket main body 127a and the second horizontal end 126a and the second fastening screw g passes through the backlight support substrate 131 And is fastened to the second fastening screw insertion hole 127d of the second bracket main body 127a.

The coupling structure of the heat dissipating module coupling hook 128 and the heat dissipating module coupling bracket 129 and the rear cover coupling hook 123 and the rear cover coupling bracket 123a is the same as that of the module coupling hook 124 and the module coupling bracket 125 Do.

The backlight module 130 is provided on the back surface of the display module 110 to illuminate the display module 110 with light. The backlight module 130 includes a backlight support substrate 131, a plurality of light sources 133 provided on the backlight support substrate 131, a power supply unit 135 for supplying power to the plurality of light sources 133, And a circuit component 137 for driving the light sources 133 and the power supply 135.

The backlight support substrate 131 is fixed to the backlight coupling bracket 127 by the second fastening screw g.

The heat dissipation module 140 is provided on the back surface of the backlight module 130 to discharge the heat generated from the light source 133 to the outside. 4, the heat dissipation module 140 includes a heat dissipation plate 141 coupled to the heat dissipation module connection bracket 129, a Peltier element 143 coupled to the heat dissipation plate 141 and emitting heat by the Peltier effect, ).

The direction of the Peltier element 143 facing the light source 133 is cooled by the supply of power, and the direction opposite thereto is generated by heat, thereby cooling the light source 133.

The heat dissipation module 140 may include a heat dissipation fan, a heat dissipation plate, and a heat dissipation fin as well as the Peltier element 143 as shown in FIG.

Meanwhile, the radiator plate 141 may be provided with a plurality of pressure sensors 145 and 147 for measuring the pressure inside the housing 120. The pressure sensors 145 and 147 measure internal pressures and transmit them to a control unit (not shown), and a control unit (not shown) drives a vacuum valve 151 coupled to the rear cover 150 And the air inside the housing 120 is discharged to the outside. Whereby the inside of the housing 120 can be kept in a vacuum state.

The rear cover 150 blocks the rear end of the opened housing 120 to seal the inside of the housing 120. The rear cover 150 has a rim area coupled to the rear cover engaging bracket 123a by a second fastening screw g. The rear cover 150 is provided with a plurality of vacuum valves 151.

The assembly process of the multi-display system 1 of the present invention having such a configuration will be described with reference to Figs. 2 to 5. Fig.

In order to assemble the multi-display system 1, each of the display devices 100, 100a, and 100b is assembled as shown in FIG. 3, and the assembled display devices 100, 100a, and 100b are connected to each other .

As shown in FIG. 5, in order to assemble the display devices 100, 100a, and 100b, the operator mounts the display module 110, the backlight module 130, the heat dissipation module 140, (150).

And the display module 110 is disposed on the bezel 121a. A module coupling bracket 125 is fitted to the module coupling hook 124 protruded from the side wall 121 and the module fixing plate 122 is disposed on the upper surface of the module coupling bracket 125. Then, the first fastening screw (f) is inserted through the module fixing plate (122) and the module coupling bracket (125).

The display module 110 is restrained and fixed in position between the bezel 121a and the lower part of the first fastening screw f.

The backlight coupling bracket 127 is fitted into the backlight coupling hook 126 and the backlight support substrate 131 is disposed on the upper surface of the backlight coupling bracket 127. [ Then, the second fastening screw g is tightened to fix the backlight supporting substrate 131.

The heat dissipating module coupling bracket 129 is fitted to the heat dissipating module coupling hook 128 and the heat dissipating plate 141 is disposed on the heat dissipating module coupling bracket 129 and the second fastening screw g is fastened, 141 are fixed.

In the same manner, the rear cover coupling bracket 123a is fitted to the rear cover coupling hook 123, the rear cover 150 is disposed on the rear cover coupling bracket 123a, and the second fastening screw g is fastened Thereby fixing the rear cover 150.

The display apparatuses 100, 100a and 100b according to the present invention can prevent the fastening screws f and g from being directly fastened to the side walls 121 of the housing 120 and the coupling hooks 123, 124, 126 and 128 And the fastening screws f and g are fastened to the fastening brackets 123a, 125, 127, and 129, respectively.

The thickness d3 of the side wall 121 can be reduced to 0.3 mm to 3 mm and the width d2 of the bezel 121a can be reduced to 2 mm to 5 mm.

When the multi-display system 1 is implemented by combining the display devices 100, 100a, and 100b having the reduced widths of the side wall 121 and the bezel 121a as shown in FIG. 2, the neighboring display devices 100 and 100 the width d1 of the bezel area a between the bezel areas a and 100b can be reduced to 4 mm to 10 mm.

Accordingly, the bezel area (a) has an advantage that the image can be smoothly connected without being interrupted.

In the meantime, the multi-display system 1 according to the preferred embodiment of the present invention is formed by combining the display devices 100, 100a, and 100b in which the light source 133 is implemented as a direct type. However, this is merely an example, and the display device 100 'may be provided in an edge type in which the light source 130a is provided on one side of the display module 110 as shown in FIG.

In this case, since the backlight substrate does not need to be provided on the back surface of the display module 110, the configuration for coupling the back-life substrate is eliminated. The display module 110 may be provided with a light diffusion member 116 for diffusing the light introduced from the side and a heat radiation plate 146 for radiating the heat of the light source 130a to the outside.

In addition, the multi-display system 1 described above is formed by combining the display devices 100, 100a, and 100b having the respective housings 120. [ In this case, since the two side walls 121 and the bezel 121a overlap each other, the bezel area a is formed in the range of 4 mm to 10 mm.

However, as shown in FIG. 7, a plurality of display devices 100 and 100a may be integrally formed to share one side wall 160 in the center. In this case, coupling hooks 123, 124, 126, 128 are provided on both sides of one side wall 160.

When the single sidewall 160 is shared, the single sidewall 121 and the two bezels 121a overlap each other in the bezel region a ', thereby further reducing the overall width.

As described above, in the multi-display system of the present invention, the thickness of the housing of each display device can be reduced, and the width of the bezel region where the two display devices touch each other can be significantly reduced. This minimizes short-circuiting of the image in the bezel area, so that the image can be smoothly connected.

The embodiments of the multi-display system of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. It will be possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: Multi-display system 100: Display device
110: display module 111: display panel
113: Protective plate 113a: Protective tape
113b: sealing member 115: polarizing sheet
117: protective sheet 120: housing
121: side wall 121a: bezel
122: Module fixing plate 122a: Insertion hole
123: Rear cover engaging hook 123a: Rear cover engaging bracket
124: module coupling hook 124a: first horizontal plane
124b: first vertical end 125: module coupling bracket
125a: first bracket body 125b: first vertical end inserting trench
125c: first insertion end 125d: first fastening screw insertion hole
126: backlight coupling hook 126a: second horizontal plane
126b: second vertical stage 127: backlight coupling bracket
127a: second bracket body 127b: second vertical end insertion trench
127c: second side wall supporting wall 127d: second fastening screw insertion hole
128: heat dissipating module coupling hook 129: heat dissipating module connection bracket
130: backlight module 131: backlight support substrate
133: Light source 135: Power supply
137: Circuit component 140: Heat dissipation module
141: Radiator plate 143: Peltier element
145: Pressure sensor 146: Heat sink
150: rear cover 151: vacuum valve

Claims (4)

In a multi-display system in which a plurality of display devices are combined,
Wherein the plurality of display devices each include:
A display module for displaying an image;
A backlight module disposed on one side of the display module and having a plurality of light sources;
And a housing for supporting the display module and the backlight module together,
The housing includes:
A side wall formed vertically;
A bezel formed at one end of the side wall and extending a predetermined area to support a rim area of the display module;
A plurality of coupling hooks formed on the inner wall surface of the side wall in a "?" Shape along the height direction;
A plurality of coupling brackets formed in a shape corresponding to the plurality of coupling hooks and fitted into the plurality of coupling hooks and having a coupling screw insertion hole into which a coupling screw for fixing the display module and the backlight module is inserted, In addition,
Wherein a thickness of the side wall is smaller than a diameter of the fastening screw.
The method according to claim 1,
Wherein the coupling hook includes a horizontal end projecting a predetermined length inward from an inner wall surface of the side wall and a vertical end bent perpendicularly at an end of the horizontal end,
Wherein the engaging bracket
A bracket body formed in a bar shape having a length corresponding to the side wall and having a fastening screw insertion hole formed on an upper surface thereof;
An insertion end extending from the bracket body and inserted and supported between the inner wall surface of the housing and the vertical end;
And a vertical end insertion trench formed at a predetermined depth between the bracket main body and the insertion end to insert the vertical end.
3. The method of claim 2,
Further comprising a heat dissipation module provided on a back surface of the backlight module and emitting heat generated from the light source to the outside,
The heat dissipation module includes:
A radiator plate coupled to the side wall by a coupling structure of the coupling hook and the coupling bracket;
And a Peltier element coupled to the radiator plate.
The method according to claim 1,
Wherein the pair of neighboring display devices are provided so as to share a sidewall in a boundary region adjacent to each other.

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