KR101696807B1 - Circular liquid crystal module and fabricating method of touch screen using the same - Google Patents

Abstract

There is provided a display device comprising: a main area including a display area having a circular shape displaying an image and a non-display area surrounding the display area; a first side in a straight line shape; And a protrusion having a third side and a fourth side in a curved line connecting the first side and the second side; A backlight unit for supplying light to the liquid crystal panel; And a mold frame surrounding and enclosing the liquid crystal panel and the backlight unit.

Description

Technical Field [0001] The present invention relates to a circular liquid crystal module and a method of manufacturing the same,

The present invention relates to a circular liquid crystal module, and more particularly, to a circular liquid crystal module in which generation of processing residue is prevented, reliability and yield are improved, and a manufacturing method thereof.

In view of the information age, the display field has also been rapidly developed. As a flat panel display device (FPD) having the advantages of thinning, light weight, and low power consumption in response to the information age, ), A plasma display panel (PDP), an electro luminescence display (ELD), and a field emission display (FED) : CRT).

Among such flat panel display devices, liquid crystal display devices are most actively used in the fields of notebook computers, monitors, and TVs because they are suitable for moving picture display and have a large contrast ratio.

The liquid crystal display device includes a liquid crystal panel that displays an image, a backlight unit that supplies light to the liquid crystal panel, and a liquid crystal module that includes a liquid crystal panel and a mold frame that surrounds the backlight unit and bundles them together. .

1 and 2 are an exploded perspective view and a plan view of a conventional liquid crystal module, respectively.

1 and 2, the liquid crystal module 10 includes a liquid crystal panel 20 for displaying an image, a backlight unit 40 disposed below the liquid crystal panel 20 for supplying light, And a mold frame 60 surrounding the panel 20 and the backlight unit 40.

The liquid crystal panel 20 includes first and second substrates 22 and 24 facing each other and a liquid crystal layer (not shown) formed between the first and second substrates 22 and 24, 2 substrate 24 is formed to be smaller in size than the first substrate 22 and exposes the edge portion of the first substrate 22. The exposed first substrate 22 is provided with a pad portion 28 Is formed.

The liquid crystal panel 20 includes an arraying step of forming array elements on a mother substrate (not shown) and a step of cutting and cutting the mother substrate corresponding to the first and second substrates 22 and 24 And then a liquid crystal is injected.

That is, a gate wiring, a data line, a thin film transistor, and a pixel electrode are formed in each of a plurality of cell regions of the first mother substrate, and a black matrix, a color filter, and a common electrode are formed in each of a plurality of cell regions of the second mother substrate After the arraying process is completed, a seal pattern (not shown) including an injection port is formed in each cell region of one of the first and second mother substrates to join the first and second mother substrates together.

After the first mother substrate and the second mother substrate are bonded together, the liquid crystal is injected between the first and second substrates 22 and 24 through the injection port.

After the liquid crystal injection is completed, the injection ports of the first and second substrates 22 and 24 are blocked by the sealing agent 26.

Although not shown, the backlight unit 40 may include a light source and a plurality of optical sheets, and may be configured as a direct type or an edge type.

As the light source, a fluorescent lamp or a light emitting diode can be used.

The mold frame 60 can be integrated with the upper frame (not shown) and the lower frame (not shown) to integrate the liquid crystal panel 20 and the backlight unit 40, And has an opening portion 62 corresponding to the sealing agent 26 for preventing defects.

However, in recent years, various types of liquid crystal display devices other than quadrature such as a clock, a mobile phone, a game machine, a digital frame and the like have arisen in need. Among them, the circular liquid crystal display device .

Fig. 3 is a plan view of a conventional circular liquid crystal module, and Fig. 4 is an enlarged view of a portion A in Fig.

3 and 4, the liquid crystal module 110 includes a liquid crystal panel 120 for displaying an image, a backlight unit (not shown) disposed under the liquid crystal panel 120 to supply light, And a mold frame 160 surrounding the liquid crystal panel 120 and the backlight unit.

The liquid crystal panel 120 includes first and second substrates 122 and 124 facing each other and a liquid crystal layer (not shown) formed between the first and second substrates 122 and 124, 2 substrate 124 is formed to have a size smaller than that of the first substrate 122 to expose an edge of the first substrate 122 and a pad portion 128 connected to an external driving circuit is formed on the exposed first substrate 122 Is formed.

The liquid crystal panel 120 includes an arraying step of forming array elements on a mother substrate (not shown), a step of attaching a mother substrate to the mother substrate, cutting the cells in units of cells corresponding to the first and second substrates 122, And then a liquid crystal is injected.

That is, a gate wiring, a data line, a thin film transistor, and a pixel electrode are formed in each of a plurality of cell regions of a first mother substrate, a black matrix, a culler filter, and a common electrode are formed in each of a plurality of cell regions of the second mother substrate After the arraying process is completed, a seal pattern (not shown) including an injection port is formed in each cell region of one of the first and second mother substrates to join the first and second mother substrates together.

After the first mother substrate and the second mother substrate are bonded together, the liquid crystal is injected between the first and second substrates 122 and 124 through the injection port.

After the liquid crystal injection is completed, the injection ports of the first and second substrates 122 and 124 are shut off by the sealing agent 126.

Here, the liquid crystal panel 120 includes a main area MA and a sub area SA, and the main area MA includes a display area DA and a non-display area NDA.

Although not shown, the display area DA has a substantially circular shape as a region where a gate wiring, a data line, and a thin film transistor are formed to display an image, and the non-display area NDA has a gate signal , Various wirings for supplying data signals and the like, and pad portions 128 are formed.

The auxiliary region SA is a region where an injection port for liquid crystal injection is formed and includes a protrusion 130 extending from the main region MA.

That is, the injection ports of the first and second substrates 122 and 124 are immersed in the liquid crystal material for the liquid crystal injection. In order to smoothly inject the liquid crystal into the liquid crystal material, the protrusion 130 must have one flat side corresponding to the injection port do.

Therefore, the protruding portion 130 includes a first side 130a of a straight shape and a second side 130b of an arc shape disposed on the opposite side of the first side 130a and in contact with the main region MA, And flat third and fourth sides 130c and 130d of a straight line connecting the second sides 130a and 130b.

Although not shown, the backlight unit may include a light source and a plurality of optical sheets, and may be configured as a direct type or an edge type.

As the light source, a fluorescent lamp or a light emitting diode can be used.

The mold frame 160 can be integrated with the upper frame (not shown) and the lower frame (not shown) to integrate the liquid crystal panel 120 and the backlight unit. The contact with the sealing agent 126 of the injection port, And an opening 162 corresponding to the encapsulant 126 for preventing the encapsulation.

The mold frame 160 has inner surfaces bent in two stages corresponding to the first, third and fourth sides 130a, 130c and 130d of the protrusion 130. [

In manufacturing the circular liquid crystal module, the third and fourth sides 130c and 130d of the protruding portion 130 and the main region 130c and 130d of the first and second substrates 122 and 124, MA often suffer from scribing process defects such as chipping at the contact points, which often leads to incomplete cell-based cutting.

In addition, a burr may be generated in the scribing process, and such a processing residue may contact the mold frame 160 to cause a crack in the liquid crystal panel 120.

Actually, when the falling test is performed on the steel plate at a height of 1 m, six of the ten circular liquid crystal modules 110 have failed to operate due to breakage of the thin film transistor of the liquid crystal panel 120, Defects in the crybing process cause serious problems such as reduced product reliability and yield.

The present invention is characterized in that the third and fourth sides of the protrusion connecting the first side of the protrusion corresponding to the injection port and the main area are formed in a curved shape so as to prevent the occurrence of processing residue and improve the reliability and yield, And a manufacturing method thereof.

Further, the present invention provides a circular liquid crystal module in which contact between the mold frame and the liquid crystal panel is prevented, reliability and yield are improved by forming a chamfer on the inner surface of the mold frame corresponding to the projection, and a manufacturing method thereof There is a purpose.

According to an aspect of the present invention, there is provided a display device comprising: a main area including a display area having a circular shape and a non-display area surrounding the display area to display an image; A liquid crystal panel including a second side of an arc shape disposed on the opposite side of the side of the main region and in contact with the main region and a protrusion having third and fourth sides in a curved shape connecting the first side and the second side; ; A backlight unit for supplying light to the liquid crystal panel; And a mold frame surrounding and enclosing the liquid crystal panel and the backlight unit.

Here, the first side may correspond to an injection port for injecting liquid crystal.

An encapsulant for blocking the injection port may be formed on the first side.

Further, the radius of curvature of each of the third and fourth sides may be proportional to the width of the first side.

And, each of the third and fourth sides may have a radius of curvature in the range of 5 mm to 8 mm.

In addition, the mold frame may have an opening corresponding to the first side.

A chamfer corresponding to the third and fourth sides may be formed on the inner surface of the mold frame.

When the outline tolerance of the liquid crystal panel is a and the inner surface tolerance of the mold frame is b, the cumulative tolerance c is expressed by the square root of the sum of the squares of a and the square of b (c = SQRT (a ² + b ² )) , And the distance d between the edge of the protrusion and the starting point of the chamfer of the mold frame may be 1/2 of the cumulative tolerance (d = c / 2).

The liquid crystal panel includes a first substrate on which a gate line, a data line, a thin film transistor, and a pixel electrode are formed, a second substrate spaced apart from the first substrate and having a black matrix, a color filter layer, And a liquid crystal layer formed between the first and second substrates.

According to another aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: forming a gate line, a data line, a thin film transistor, and a pixel electrode on a first mother substrate; Forming a black matrix, a color filter layer, and a common electrode on the second mother substrate; Forming a seal pattern on one of the first and second mother substrates and bonding the first and second mother substrates; A method of manufacturing a plasma display panel, comprising the steps of: cutting a first mother substrate and a second mother substrate, the first mother substrate and the second mother substrate being bonded together to form a display region, A second side disposed on the opposite side of the first side and in contact with the main region and having a third side and a fourth side in a curved line connecting the first side and the second side, Forming a first bonded substrate and a second bonded substrate; Injecting liquid crystal between the first and second substrates to complete the liquid crystal panel; Disposing a backlight unit under the liquid crystal panel; And surrounding the liquid crystal panel and the backlight unit with a mold frame to integrate the liquid crystal panel and the backlight unit.

Here, the manufacturing method of the circular liquid crystal module may further include forming an encapsulant on the first side after injecting the liquid crystal.

In the circular liquid crystal module and the method of manufacturing the same according to the present invention, the third and fourth sides of the protrusion connecting the first side of the protrusion corresponding to the injection port and the main region are formed in a curved shape, It is possible to prevent the generation of processing residues and improve the reliability and yield of the circular liquid crystal module.

In addition, by forming a chamfer on the inner surface of the mold frame corresponding to the protrusion, the contact between the mold frame and the liquid crystal panel can be prevented, and the reliability and yield of the circular liquid crystal module can be improved.

1 is an exploded perspective view of a conventional liquid crystal module.
2 is a plan view of a conventional liquid crystal module.
3 is a plan view of a conventional circular liquid crystal module.
4 is an enlarged view of a portion A in Fig.
5 is an exploded perspective view of a circular liquid crystal module according to an embodiment of the present invention.
6 is a plan view of a circular liquid crystal module according to an embodiment of the present invention;
7 is an enlarged view of a portion B in Fig.
8 is a view showing a change in the radius of curvature of the third and fourth sides in accordance with the width of the first side of the protrusion of the liquid crystal panel in the circular liquid crystal module according to the embodiment of the present invention.

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

FIGS. 5 and 6 are an exploded perspective view and a plan view of the circular liquid crystal module according to the embodiment of the present invention, respectively, and FIG. 7 is an enlarged view of a portion B of FIG.

5, 6 and 7, the liquid crystal module 210 includes a liquid crystal panel 220 displaying an image, a backlight unit 240 disposed below the liquid crystal panel 220 and supplying light, And a mold frame 260 that surrounds and integrates the liquid crystal panel 220 and the backlight unit 240.

The liquid crystal panel 220 includes first and second substrates 222 and 224 facing each other and a liquid crystal layer (not shown) formed between the first and second substrates 222 and 224, 2 substrate 224 is formed to have a smaller size than the first substrate 222 to expose the edge of the first substrate 222 and the edge of the exposed first substrate 222 is connected to an external driving circuit A portion 228 is formed.

The liquid crystal panel 220 includes an arraying step of forming array elements on a mother substrate (not shown), and a step of cutting and cutting the mother substrate corresponding to the first and second substrates 222 and 224 And then a liquid crystal is injected.

That is, a gate wiring, a data wiring, a thin film transistor and a pixel electrode are formed in each of a plurality of cell regions of a first mother substrate, and a black matrix, a culler filter layer and a common electrode are formed in each of a plurality of cell regions of the second mother substrate After the arraying process is completed, a seal pattern (not shown) including an injection port is formed in each cell region of one of the first and second mother substrates to join the first and second mother substrates together.

After the first mother substrate and the second mother substrate are bonded together, the liquid crystal is injected between the first and second substrates 222 and 224 through the injection port.

After the liquid crystal injection is completed, the injection ports of the first and second substrates 222 and 224 are shut off by the sealing agent 226.

Here, the liquid crystal panel 220 includes a main area MA and a sub area SA, and the main area MA includes a display area DA and a non-display area NDA.

Although not shown, the display area DA has a substantially circular shape in which a gate wiring, a data line, and a thin film transistor are formed to display an image, and the non-display area NDA surrounds the display area DA And various wirings for supplying a gate signal, a data signal, and the like to the display area DA and the pad part 228 are formed.

In addition, a polarizing plate 232 may be formed on the outer surface of the display area DA of the second substrate 224.

The auxiliary region SA is a region where an injection port for liquid crystal injection is formed and includes a protrusion 230 extending from the main region MA.

That is, the injection ports of the first and second substrates 222 and 224 are immersed in the liquid crystal material for the liquid crystal injection. For the smooth liquid injection process, the protrusions 230 have a flat side corresponding to the injection port .

The protruding portion 230 has a circular first side 230a and a second side 230b disposed in the opposite side of the first side 230a and in contact with the main region MA, And has flat third and fourth sides 230c and 230d in the form of curves connecting the second sides 230a and 230b.

That is, the third and fourth sides 230c and 230d are formed to have a specific curvature, and the radius of curvature of the third and fourth sides 230c and 230d may be determined in relation to the width of the first side 230a have.

For example, as the first side 230a has a greater width, each of the third and fourth sides 230c and 230d may have a larger radius of curvature.

The reason why the third and fourth sides 230c and 230d of the protrusion 230 are formed in a curved shape in this way is to prevent generation of processing residue in the scribing process.

That is, by forming the angle formed by the third and fourth sides 230c and 230d and the circumference of the main region MA as large as possible, the first and second substrates 222 and 224, Such as chipping at the contacts of the third and fourth sides 230c and 230d and the main area MA, of the first electrode 230 can be prevented.

Meanwhile, the backlight unit 240 may include a light source and a plurality of optical sheets, and may be configured as a direct type or an edge type.

As the light source, a fluorescent lamp or a light emitting diode can be used.

A light shielding film in the form of a ring-shaped band may be disposed between the backlight unit 240 and the liquid crystal panel 220 to prevent light leakage through the edge of the display area DA.

The mold frame 260 can be integrated with the upper frame (not shown) and the lower frame (not shown) to integrate the liquid crystal panel 220 and the backlight unit 240, And has an opening 262 corresponding to the sealing agent 226 to prevent defects.

The mold frame 260 is folded in two stages corresponding to the first, third and fourth sides 230a, 230c and 230d of the protrusion 230 and completely contacts the protrusion 230 A chamfer 260a is formed on the inner surface.

That is, by forming the chamfer 260a by removing the inner edge of the mold frame 260 corresponding to the third and fourth sides 230c and 230d of the protrusion 230, the protrusion 230 It is possible to completely eliminate the possibility of contact between the mold frame 260 and the mold frame 260 and prevent cracking of the liquid crystal panel due to the contact between the protrusion 230 and the mold frame 260. [

Actually, when the falling test is performed on the steel plate at a height of 1 m with respect to the circular liquid crystal module 210 thus formed, the driving failure due to breakage of the thin film transistor of the liquid crystal panel 220 among the 10 circular liquid crystal modules 210 is 1 And the product reliability and yield of the circular liquid crystal module 210 are improved.

In this circular liquid crystal module 210, the width of the first side 230a of the protrusion 230 and the radius of curvature of the third and fourth sides 230c and 230d may be directly proportional to each other, The design criteria of the panel 220 and the mold frame 260 can be determined in consideration of tolerances and the like, which will be described with reference to the drawings.

FIG. 8 is a diagram showing changes in curvature radii of the third and fourth sides in accordance with the width of the first side of the projection of the liquid crystal panel in the circular liquid crystal module according to the embodiment of the present invention. do.

The first side 230a of the protruding portion 230 of the liquid crystal panel 220 of the circular liquid crystal module 210 has the first to fourth widths w1, w2, w3 and w4, as shown in Fig. 8 The third and fourth sides 230c and 230d of the protrusion 230 may have first to fourth curvature radii R1, R2, R3 and R4, respectively.

For example, if the first side 230a has a first width w1 of about 5.5 mm, each of the third and fourth sides 230c, 230d has a first radius of curvature R1 of about 5 mm .

And, when the first side 230a has a second width w2 of about 6.2 mm, each of the third and fourth sides 230c and 230d has a second radius of curvature R2 of about 6 mm.

In addition, when the first side 230a has a third width w3 of about 7.0 mm, each of the third and fourth sides 230c and 230d has a third radius of curvature R3 of about 7 mm, When one side 230a has a fourth width w4 of about 7.5 mm, each of the third and fourth sides 230c and 230d has a fourth radius of curvature R4 of about 8 mm.

When the radius of curvature is smaller than about 5 mm, the angle between the circumference of the third and fourth sides 230c and 230d and the circumference of the main region MA is too small to cause defects such as chipping or processing residue in the scribing process When the radius of curvature is larger than about 8 mm, the size of the protrusion 230 is too large to prevent the liquid crystal panel 220 from having a shape close to the circular shape.

Thus, the third and fourth sides 230c, 230d have a radius of curvature ranging from about 5 mm to about 8 mm.

The design criteria of the liquid crystal panel 220 and the mold frame 260 may be determined in consideration of the forming force of the protrusions 230 and tolerances for forming the liquid crystal panel 220 and the mold frame 260.

That is, when the outer tolerance of the liquid crystal panel 220 and the inner surface tolerances of the mold frame are a and b, the cumulative tolerance c is obtained from the square root of the sum of squares of two tolerances SQRT (a ² + b ² ) (C / 2) of the cumulative tolerance can be set to a separation distance (d in FIG. 7) from the edge of the protrusion 230 to the starting point of the chamfer 260a of the mold frame 260.

For example, if the outer tolerance of the liquid crystal panel 220 is about 0.4 mm and the inner surface tolerance of the mold frame 260 is about 0.05 mm, the cumulative tolerance is about 0.403 mm (= SQRT ((0.4) ² + (0.05) ²⁾ because, by applying this cumulative tolerance on the protrusion 230 forming ability value, the first side (the width of 230a) to about 5.5mm, and the protrusion 230 of the protrusion 230 The radius of curvature of each of the third and fourth sides 230c and 230d is set to about 5 mm and the distance from the edge of the protrusion 230 to the starting point of the chamfer 260a of the mold frame 260 Is set to about 0.202 mm (= 0.403 / 2) or more, the circular liquid crystal module 210 with improved reliability and yield can be formed.

As described above, in the circular liquid crystal module and the manufacturing method thereof according to the embodiment of the present invention, the third and fourth sides of the projection connecting the first side and the main region of the protrusion corresponding to the injection port are formed in a curved shape, It is possible to prevent the generation of processing residue in the scribing process of the liquid crystal panel and improve the reliability and yield of the circular liquid crystal module.

In addition, by forming a chamfer on the inner surface of the mold frame corresponding to the protrusion, the contact between the mold frame and the liquid crystal panel can be prevented, and the reliability and yield of the circular liquid crystal module can be improved.

The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

210: circular liquid crystal module 220: liquid crystal panel
230: protrusion 240: backlight unit
260: Mold frame

Claims (11)

A display device comprising: a main area including a display area having a circular shape and a non-display area surrounding the display area, the main area having a linear shape and an arc shape contacting the main area, And a protrusion having a third side and a fourth side in a curved shape connecting the first side and the second side of the liquid crystal panel;
A backlight unit for supplying light to the liquid crystal panel;
A mold frame surrounding the liquid crystal panel and the backlight unit,
/ RTI >
Wherein the liquid crystal panel includes first and second substrates facing each other and a liquid crystal layer formed between the first and second substrates,
The edges of the first and second substrates have a shape corresponding to the non-display region and the first, third, and fourth sides,
And a chamfer corresponding to the third and fourth sides and spaced from the protrusion is formed on the inner surface of the mold frame.
The method according to claim 1,
And the first side corresponds to an injection port for injecting liquid crystal.
3. The method of claim 2,
And an encapsulant for blocking the injection port is formed on the first side.
The method according to claim 1,
Wherein a curvature radius of each of the third and fourth sides is proportional to a width of the first side.
5. The method of claim 4,
And each of said third and fourth sides has a radius of curvature in the range of 5 mm to 8 mm.
The method according to claim 1,
And the mold frame has an opening corresponding to the first side.
delete The method according to claim 1,
When the outline tolerance of the liquid crystal panel is a and the inner surface tolerance of the mold frame is b, the cumulative tolerance c is defined as a square root (c = SQRT (a ² + b ² )) of the sum of the squares of a and the square of b Wherein a distance d between the edge of the protrusion and the starting point of the chamfer of the mold frame is 1/2 of the cumulative tolerance (d = c / 2).
The method according to claim 1,
The liquid crystal panel includes a first substrate on which a gate wiring, a data line, a thin film transistor, and a pixel electrode are formed, a second substrate spaced apart from the first substrate and having a black matrix, a color filter layer, And a liquid crystal layer formed between the first substrate and the second substrate.
Forming a gate wiring, a data wiring, a thin film transistor, and a pixel electrode on the first mother substrate;
Forming a black matrix, a color filter layer, and a common electrode on the second mother substrate;
Forming a seal pattern on one of the first and second mother substrates and bonding the first and second mother substrates;
A method of manufacturing a plasma display panel, comprising the steps of: cutting a first mother substrate and a second mother substrate, the first mother substrate and the second mother substrate being bonded together to form a display region, A second side disposed on the opposite side of the first side and in contact with the main region and having a third side and a fourth side in a curved line connecting the first side and the second side, Forming a first bonded substrate and a second bonded substrate;
Injecting liquid crystal between the first and second substrates to complete the liquid crystal panel;
Disposing a backlight unit under the liquid crystal panel;
And surrounding the liquid crystal panel and the backlight unit with a mold frame
Lt; / RTI >
The edges of the first and second substrates have a shape corresponding to the non-display region and the first, third, and fourth sides,
Wherein a chamfer is formed on an inner surface of the mold frame to correspond to the third and fourth sides and to be separated from the protrusion.
11. The method of claim 10,
And forming an encapsulant on the first side after injecting the liquid crystal.

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