WO2011132445A1 - Method for forming separation-inducing groove, mother liquid crystal panel, and separation method - Google Patents
Method for forming separation-inducing groove, mother liquid crystal panel, and separation method Download PDFInfo
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- WO2011132445A1 WO2011132445A1 PCT/JP2011/052096 JP2011052096W WO2011132445A1 WO 2011132445 A1 WO2011132445 A1 WO 2011132445A1 JP 2011052096 W JP2011052096 W JP 2011052096W WO 2011132445 A1 WO2011132445 A1 WO 2011132445A1
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/133351—Manufacturing of individual cells out of a plurality of cells, e.g. by dicing
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1339—Gaskets; Spacers; Sealing of cells
Definitions
- the present invention relates to a liquid crystal mother panel having a plurality of liquid crystal panel pieces separated by a grid-like division line virtually drawn on the surface, and divided along the division line on the surface of the liquid crystal mother panel.
- the present invention relates to a dividing guide groove forming method for forming a guiding groove and a method for dividing the liquid crystal mother panel.
- a liquid crystal panel generally includes a pair of transparent substrates facing each other at a distance, a liquid crystal layer sandwiched between the substrates, and a frame-shaped seal that surrounds the liquid crystal layer while being sandwiched between the pair of transparent substrates.
- one transparent substrate is a thin film transistor (TFT) substrate
- the other transparent substrate is a color filter (CF) substrate.
- TFT thin film transistor
- CF color filter
- a plurality of TFTs as switching elements and a plurality of pixel electrodes connected to each TFT are formed in a matrix on the TFT substrate.
- color filters are formed in a matrix on the CF substrate, and a common electrode is formed over the entire surface.
- the liquid crystal panel controls the orientation of liquid crystal molecules in the liquid crystal layer by changing the applied voltage between the electrodes.
- This type of liquid crystal panel is manufactured, for example, as shown in Patent Document 1 so that a plurality of liquid crystal panels (liquid crystal panel pieces) are allocated in one large mother panel (liquid crystal mother panel). Is done. After being manufactured together as the mother panel, the liquid crystal panel is divided into individual pieces. As shown in Patent Document 1, when the mother panel is divided, grooves (cuts) are first formed on the surface with a blade (glass cutter). Next, the mother panel is pressure-divided along the groove to obtain individual liquid crystal panels.
- the groove is provided so as to overlap along a frame-shaped seal portion in each liquid crystal panel (pass over the seal portion).
- the liquid crystal panel is configured so that the seal portion is broken along the groove when the mother panel is pressure-divided. That is, the frame-shaped seal portion is arranged along the outer edge (contour) of the liquid crystal panel.
- the liquid crystal panel having such a configuration is used when the display area is widened and the frame area surrounding the display area is desired to be narrowed (so-called narrow frame).
- narrow frame liquid crystal panel is used in, for example, a mobile phone, a digital camera, and the like.
- FIG. 16 is a plan view of a conventional liquid crystal mother panel 1P.
- four liquid crystal panels (liquid crystal panel pieces) 2P (21P, 22P, 23P, 24P) are assigned to one liquid crystal mother panel 1P.
- Each of the liquid crystal panels 2P is partitioned and surrounded by a virtually planned dividing line 3P (31P, 32P, 33P, 34P) and 4P (41P, 42P, 43P, 44P) on the surface of the liquid crystal mother panel 1P. It is.
- the liquid crystal panel 21P is divided and surrounded by the planned dividing lines 31P, 32P, 41P, and 42P.
- the dividing line 3P, 4P is virtually provided on the surface of the mother substrate 7P in which the CF substrate 5P (51P, 52P, 53P, 54P) of each liquid crystal panel 2P is connected via the margin 6P. .
- Each liquid crystal panel 2P is provided with a frame-shaped seal portion 9P (91P, 92P, 93P, 94P) so as to surround each display area 8P (81P, 82P, 83P, 84P).
- Each seal portion 9P is sandwiched between the mother substrate 7P and the other mother substrate (not shown).
- the seal portion 91P in the liquid crystal panel 21P is arranged so as to overlap along the planned dividing lines 31P, 32P, and 41P.
- a part of the seal portion 91P is provided so as to pass through the inner side (the display area 81P side) than the planned dividing line 42P.
- the terminal (external connection terminal) 10P (101P) is provided in the outer edge side of the seal part 91P of the part.
- the dividing lines 3P and 4P are traced with a blade (for example, a scriber), and a groove (scribe) is formed on the surface of the liquid crystal mother panel 1P. Groove) is formed. Then, using this groove, the liquid crystal mother panel 1P is divided into the liquid crystal panels 2P. Since this groove is used when the liquid crystal mother panel 1P is divided (divided), it may be referred to as a dividing guide groove. Note that a virtual dividing line similar to the dividing lines 3P and 4P is drawn on the back side of the liquid crystal mother panel 1P, and a groove (scribe groove) is formed along the dividing line.
- part of the planned dividing lines 3P and 4P surrounding each liquid crystal panel 2P does not pass over the seal portion 9P. For this reason, if a groove is formed along the planned dividing line that does not pass over the seal portion 9P while pressing the scriber, following the planned divided line that passes over the seal portion 9P, the liquid crystal mother panel 1P
- the depth (penetration amount) of the groove formed on the surface may be uneven.
- FIG. 17 is an explanatory view schematically showing a process of forming a groove (scribe groove) 12P with a scriber 11P on the surface of the liquid crystal mother panel 1P.
- FIG. 17 schematically shows a cross-sectional structure of the liquid crystal mother panel 1P.
- a planned dividing line 3P (32P) is drawn on the surface of the liquid crystal mother panel 1P. This planned dividing line 32P passes through the upper part of the seal part 91P in the liquid crystal panel 21P and the upper part of the seal part 93P in the liquid crystal panel 23P.
- the seal portion 9P (91P, 93P) is sandwiched between the mother board 7P and the other mother board 13P, and maintains a constant distance between the mother board 7P and the other mother board 13P.
- the parting planned line 32P also passes through a portion where the seal portion 9P (91P, 93P) is not interposed.
- a member capable of maintaining a constant interval is not interposed between the substrate 7P at this location and the other substrate 13P at this location. Accordingly, when the scriber (cutter wheel) 11P is moved along such a planned dividing line 3P (32P) while being pressed with a constant force, the seal 9P (91P, 93P) is not sealed at the place where the seal portion 9P (91P, 93P) is interposed. Grooves 121P and 122P deeper than the portion where the portion 9P is interposed are formed. Since the scriber 11P is strongly pressed and the mother substrate 7P is bent downward, such deep grooves 121P and 122P are formed.
- the liquid crystal mother panel 1P is divided so that the liquid crystal panel 2P is largely deviated from the division planned line 3P (32P) due to an uneven force applied to the division planned line 3P (32P). May end up.
- the liquid crystal mother panel 1P may be immersed in an etching solution to grow the groove 12P while reducing the thickness of the liquid crystal mother panel 1P. If a groove (scribe groove) having a uniform depth is formed on the surface of the liquid crystal mother panel 1P, the groove width (groove width) and the depth (groove depth) are uniformly obtained by immersing in the etching solution. Can be expanded). Thus, when the groove is grown while thinning the liquid crystal mother panel 1P, the liquid crystal mother panel 1P can be easily divided along the planned dividing line.
- the liquid crystal mother panel 1P (mother substrate 7P) is formed so that the bottoms of the grooves 121P and 122P are removed. ), And the etching solution enters the liquid crystal mother panel 1P from the hole.
- the etching solution may enter from the hole, the etching solution may come into contact with the terminal 101P of the liquid crystal panel 21P, and the terminal 101P may be corroded. .
- the problem to be solved by the present invention is that, when a plurality of liquid crystal panels are divided and manufactured from the liquid crystal mother panel, a non-uniform dividing guide groove is formed on the surface of the liquid crystal mother panel at least on a predetermined dividing line separating the liquid crystal panel pieces.
- the gist of the dividing guide groove forming method according to the present invention is that at least one of a liquid crystal mother panel including a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer between a pair of mother substrates arranged opposite to each other.
- a plurality of liquid crystal panel pieces are partitioned and formed by grid-like splitting lines virtually drawn on the surface of the mother substrate, and the frame-shaped seal portion is formed by the splitting lines that divide the liquid crystal panel pieces.
- An overlapping portion that overlaps along the line and a non-overlapping portion that passes through the inner side of the surrounding line so as not to overlap the surrounding line, and the surrounding line of the section that does not pass on the frame-shaped seal portion A support portion is interposed between the mother boards so as to overlap with each other, and the cutting line is traced with a blade so as to be cut along the cutting line through the support portion.
- the cutting guide groove along the cutting scheduled line lies in the to be formed in the liquid crystal mother panel surface.
- a support portion may be further interposed between the mother boards so as to overlap along a planned dividing line other than the encircling line.
- the terminal of the liquid crystal panel piece is disposed on the outer edge side of the non-overlapping portion of the frame-shaped seal portion.
- liquid crystal mother panel is immersed in an etching solution to thin the mother substrate, and the width and depth of the dividing guide groove are increased.
- the gist of the liquid crystal mother panel according to the present invention is that a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer are provided between a pair of mother substrates opposed to each other, and are virtually drawn on the surface.
- a liquid crystal mother panel having a plurality of liquid crystal panel pieces separated by a grid-like divided dividing line, wherein the divided dividing line is drawn on a surface of at least one mother substrate, and the frame-shaped seal portion
- An overlapping portion that overlaps along a surrounding line that is formed by dividing the liquid crystal panel piece, and a non-overlapping portion that passes through the inner side of the surrounding line so as not to overlap the surrounding line;
- a support portion interposed between the mother substrates is provided so as to overlap with the surrounding line in a section not passing over the seal portion.
- a support portion interposed between the mother substrates is further provided between the mother substrates so as to overlap along a planned dividing line other than the encircling line.
- the terminal of the liquid crystal panel piece is disposed on the outer edge side of the non-overlapping portion of the frame-shaped seal portion.
- the gist of the method for dividing a liquid crystal mother panel according to the present invention is that a liquid crystal mother panel having a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer is disposed between a pair of mother substrates opposed to each other.
- a plurality of liquid crystal panel pieces are partitioned and formed by a grid-like parting line virtually drawn on the surface of at least one of the mother substrates, and the parting line that divides each liquid crystal panel part by the frame-shaped seal portion
- An overlapping portion that overlaps along the encircling line and a non-overlapping portion that passes through the inner side of the encircling line so as not to overlap the encircling line, and the section that does not pass over the frame-shaped seal portion
- a dividing method for dividing a liquid crystal mother panel having a support portion interposed between the mother substrates so as to overlap along an encircling line along the planned dividing line, the liquid crystal mother A step of forming a first scribe groove by pressing a cutting tool along the predetermined dividing line on the surface of one mother substrate of the panel, and immersing the liquid crystal mother panel in which the first scribe groove is formed in an etching solution The step of growing the first scribe groove while thinning the liquid crystal mother panel, and the second scribe groove by
- a plurality of liquid crystals are provided on the surface of a liquid crystal mother panel having a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer between a pair of mother substrates arranged opposite to each other. At least the liquid crystal panel so that the planned dividing line passes over the support part interposed between the pair of mother substrates in the part of the frame-shaped seal part that divides the panel piece and does not overlap with the enclosing line composed of the planned dividing line. It is avoided that a non-uniform dividing guide groove is formed on the planned dividing line separating the pieces. Therefore, when the liquid crystal mother panel is divided along the planned dividing line and individual liquid crystal panels are divided and manufactured, good production can be performed smoothly and without trouble such as chipping of the liquid crystal panel.
- FIG. 2 is a cross-sectional view of the liquid crystal mother panel taken along line A-A ′ shown in FIG. 1.
- FIG. 2 is a cross-sectional view of the liquid crystal panel taken along line B-B ′ shown in FIG. 1.
- FIG. 6 is a plan view of a part of a liquid crystal mother panel according to another embodiment.
- FIG. 6 is a plan view of a part of a liquid crystal mother panel according to another embodiment. It is a top view of the conventional liquid crystal mother panel. It is explanatory drawing which represented typically the process of forming a groove
- FIG. 1 is a plan view of a liquid crystal mother panel 1 according to an embodiment.
- FIG. 2 is a cross-sectional view of the liquid crystal mother panel 1 taken along line A-A ′ shown in FIG.
- FIG. 1 schematically shows a plan view of the liquid crystal mother panel 1.
- the liquid crystal mother panel 1 is used to manufacture a plurality of liquid crystal panels (liquid crystal panel pieces) 2 together. As shown in FIG. 1, four liquid crystal panels are included in one liquid crystal mother panel 1. (Liquid crystal panel piece) 2 (21, 22, 23, 24) is assigned.
- the liquid crystal mother panel 1 includes a pair of mother substrates 7 and 13 that face each other at an interval, and a frame-shaped seal portion 9 that is sandwiched between the mother substrates 7 and 13.
- FIG. 3 is a cross-sectional view of the liquid crystal panel 2 taken along line B-B ′ shown in FIG.
- the liquid crystal panel 2 (23) will be described with reference to FIG.
- the liquid crystal panel 2 surrounds the TFT substrate 130, the CF substrate 70 facing the TFT substrate 130, the liquid crystal layer 14 sandwiched between the substrates 130 and 70, and the liquid crystal layer 14.
- a frame-shaped seal portion 9 (93).
- the frame-shaped seal portion 9 surrounds and seals the liquid crystal layer 14 while being sandwiched between the substrates 130 and 70.
- the said frame-shaped seal part 9 consists of well-known materials, such as a thermosetting resin and a photocurable resin.
- the TFT substrate 130 is composed of a plurality of pixel electrodes 131 formed in a matrix on a transparent glass plate 130a.
- Each pixel electrode 131 has a contact hole portion 131a, and around each pixel electrode 131, a gate electrode line 132 as a scanning electrode line and a source electrode line 133 as an image signal electrode line are orthogonal to each other ( To intersect).
- the gate electrode line 132 and the source electrode line 133 are arranged such that the source electrode line 133 is disposed on the upper side and the gate electrode line 132 is disposed on the lower side at the intersection between them. At the intersection, the gate electrode line 132 and the source electrode line 133 are electrically insulated via the gate insulating film 134.
- a thin film transistor (TFT) 135 as a switching element connected to the gate electrode 132a which is a part of the gate electrode line 132 is formed at the intersection of the gate electrode line 132 and the source electrode line 133.
- TFT thin film transistor
- a semiconductor film 136 is formed on the gate insulating film 134 in a region where the TFT 135 is formed so as to overlap the gate electrode 132a. Further, a source electrode 133 a and a drain electrode 133 b which are part of the source electrode line 133 are formed on the upper side of the semiconductor film 136.
- the source electrode 133a and the drain electrode 133b are formed to be separated from each other on both sides of the semiconductor film 136 on the gate electrode 132a.
- the drain electrode 133b is connected to the pixel electrode 131 through the contact hole portion 131a.
- the TFT 135 is turned on / off by a scanning signal voltage supplied from the gate electrode 132a of the gate electrode line 132.
- the image signal voltage supplied from the source electrode 133a of the source electrode line 133 is supplied to the pixel electrode 131 through the drain electrode 133b and the contact hole portion 131a when the TFT 135 is on.
- Such a TFT 135 is covered with an interlayer insulating film 137 formed on the upper side of the gate insulating film 134.
- a pixel electrode 131 is formed on the interlayer insulating film 137.
- the pixel electrode 131 is formed of a transparent conductive film such as ITO (indium-tin oxide), for example.
- an alignment film 138 On the upper side of the pixel electrode 131, an alignment film 138 whose surface has been rubbed is formed.
- the CF substrate 70 disposed so as to face the TFT substrate 130 has a lattice shape on the transparent glass plate 70a so as to shield the region where the gate electrode line 132 and the source electrode line 133 are formed.
- the black matrix (BM) 71 is formed.
- a colored layer 72 of red, blue, green, or the like is formed in a region on the glass plate 70a surrounded by adjacent BMs 71.
- a common electrode 73 facing the pixel electrodes 131 of the TFT substrate 130 is formed on the lower side of the colored layer 72 (lower side in FIG. 3) so as to cover the colored layer 72.
- the common electrode 73 is also formed of a transparent conductive film such as ITO.
- an alignment film 74 whose surface is rubbed so as to cover the common electrode 73 is formed below the common electrode 73 (lower side in FIG. 3).
- a plurality of such liquid crystal panels 2 are manufactured as a single liquid crystal mother panel 1 shown in FIGS.
- the mother substrate 7 is made of a CF substrate (CF substrate piece) 5 (51, 52, 53, 54) of each liquid crystal panel 2 that is manufactured as a single plate, and the other mother substrate 13 is The TFT substrates (TFT substrate pieces) of each liquid crystal panel 2 are manufactured as a single plate.
- there is a margin 6 around each liquid crystal panel 2 and the liquid crystal panels 2 are connected to each other in the liquid crystal mother panel 1 through the margin 6.
- the margin 6 is a portion that is not included in the liquid crystal panel 2 and is finally discarded.
- each of the liquid crystal panels 2 is divided virtually on the surface of the liquid crystal mother panel 1 by dividing lines 3 (31, 32, 33) and 4 (41, 42, 43, 44). ).
- the dividing line 3 (31, 32, 33) and the dividing line 4 (41, 42, 43, 44) are orthogonal to each other and have a lattice shape.
- Each liquid crystal panel 2 is surrounded by these dividing lines 3 and 4. Note that these planned dividing lines 3 and 4 are not visible lines actually drawn on the surface of the liquid crystal mother panel 1, but are virtual lines for cutting out each liquid crystal panel 2 from the liquid crystal mother panel 1. Is a line. 1 are formed on the surface of the mother substrate 7.
- the liquid crystal panel 21 is surrounded by the planned dividing lines 31 and 32 and the planned dividing lines 41 and 42 intersecting with these.
- the part of the parting lines 3 and 4 surrounding the liquid crystal panel 2 (21) along the outer edge of the liquid crystal panel 2 (21) is particularly referred to as a surrounding line 30 in this specification.
- FIG. 1 shows a surrounding line 30 only in the liquid crystal panel 21.
- a surrounding line is formed by the planned dividing lines 3 and 4 along the outer edge of each liquid crystal panel 2.
- a part of the surrounding line 30 surrounding the liquid crystal panel 21 is common to a part of the other surrounding lines surrounding the adjacent liquid crystal panel 22.
- a part of the surrounding line 30 that includes the planned dividing line 32 is also a part of the surrounding line of the adjacent liquid crystal panel 22.
- a frame-shaped seal portion 9 (91) is disposed below the surrounding line 30.
- the frame-shaped seal portions 9 are assigned so as to correspond to the respective liquid crystal panels 2.
- Each frame-shaped seal portion 9 is disposed so as to surround each display area 8 (81, 82, 83, 84) in each liquid crystal panel 2.
- the frame-shaped seal portions 9 of the adjacent liquid crystal panels 2 are partially connected.
- the frame-shaped seal portion 91 of the liquid crystal panel 21 and the frame-shaped seal portion 92 of the liquid crystal panel 22 are arranged with no gap therebetween and are integrally connected.
- the frame-shaped seal portion 93 of the liquid crystal panel 23 and the frame-shaped seal portion 94 of the liquid crystal panel 24 are arranged with no gap therebetween and are integrally connected.
- the frame-shaped seal portion 91 has a rectangular shape having four sides surrounding the rectangular display area 81.
- the frame-shaped seal portion 91 includes three side portions (overlapping portions) 911, 912, and 913 that are overlapped along the surrounding line 30 and an inner side (display area) so as not to overlap the surrounding line 30. 8 side) and a non-overlapping portion 914 passing through.
- the line widths of the overlapping portions 911 and 912 are set so that the surrounding line 30 passes through substantially the center. That is, the overlapping portions 911 and 912 protrude beyond the surrounding line 30.
- the overlapping portion 913 of the frame-shaped seal portion 91 is connected to a part of another adjacent frame-shaped seal portion 92. That is, the surrounding line 30 (part corresponding to the parting planned line 32) passes through the approximate center of the part in which the frame-shaped seal portion 91 (913) and the frame-shaped seal portion 92 are integrated.
- a terminal (external connection terminal) 10 (101) is disposed on the outer edge side of the non-overlapping portion 914 of the frame-shaped seal portion 91.
- the terminal 10 (101) is formed on the TFT substrate of the liquid crystal panel 2 (21) and is connected to a gate electrode line or the like.
- each frame-shaped seal portion 9 is partially disposed inside each encircling line 30. That is, each encircling line 30 has a section that does not pass above the frame-shaped seal portion 9.
- the support portions 15 (151, 152, 153, 154) are arranged in the sections that do not pass above the frame-shaped seal portions 9 in the surrounding lines 30 as described above.
- This support part 15 consists of resin materials, such as a thermosetting resin and a photocurable resin, for example.
- the support unit 15 will be described by taking the support unit 151 installed in the liquid crystal panel 21 as an example.
- the support portion 151 is sandwiched between the mother substrates 7 and 13 and is disposed so as to overlap along the surrounding line 30.
- the support portion 151 is disposed on the outer edge side of the non-overlapping portion 914 so as to surround the terminal 101.
- the surrounding line 30 is set so as to pass through the approximate center of the support portion 151.
- support portion 151 in the liquid crystal panel 21 is partially connected to the support portion 152 of the adjacent liquid crystal panel 22.
- Support portions 151 and 152 are set so that a part of the surrounding line 30 passes through the approximate center of the connected portion.
- each support portion 15 is arranged so as to overlap along each surrounding line 30 in a section that does not overlap the frame-shaped seal portion 9. Then, each surrounding line 30 corresponding to each liquid crystal panel 2 is supported by the frame-shaped seal portion 9 and the support portion 15 from the lower side of the mother substrate 7.
- the support portion 15 may be provided in advance on the mother substrate 7 side, and thereafter may be configured to be sandwiched between the mother substrate 7 and the other mother substrate 13, or conversely, in advance. It may be configured to be provided on the substrate 13 side and thereafter sandwiched between the mother substrate 13 and the other mother substrate 7. However, as will be described later, after forming a first scribe groove (dividing guide groove) on one mother substrate of the liquid crystal mother panel, the first scribe groove is processed by an etching solution (etching process) and grown.
- a support portion is provided in advance on the mother substrate on the side where the first scribe groove is formed.
- the degree of adhesion (sealing degree) to the mother substrate on the side provided in advance may be higher than the degree of adhesion (sealing degree) to the other mother board. In that case, even if the first scribe groove is etched and a hole is formed at the bottom of the first scribe groove, the hole is efficiently sealed (closed) by the support portion 15.
- FIG. 4 is a flowchart showing a procedure of a liquid crystal mother panel dividing method for dividing the liquid crystal mother panel to obtain a liquid crystal panel.
- a method for dividing the liquid crystal mother panel will be described with reference to FIG. 4 and the like.
- step S1 in FIG. 4 is a step of manufacturing the mother substrate 13 (see FIG. 3 and the like). That is, this is a process for manufacturing a plurality of TFT substrates together on a single mother substrate 13.
- a single-layer or multilayer conductive film made of tungsten, titanium, aluminum, chromium, or the like is formed on the surface of a glass substrate (mother glass substrate) 130a.
- a known method such as a sputtering method can be applied.
- the formed conductive film is formed into a predetermined pattern using a photolithography method or the like.
- a gate electrode line 132 and a gate electrode 132a having a predetermined pattern are obtained (see FIG. 3).
- a gate insulating layer 134 is formed on the glass substrate 130a.
- the gate insulating film 134 is made of, for example, silicon nitride or the like, and is formed using a plasma CVD method or the like.
- a semiconductor film 136, a source electrode line 133, a source electrode 133a, and a drain electrode 133b are formed.
- the semiconductor film 136 is made of, for example, n + -type amorphous silicon, and is formed using a plasma CVD method or the like.
- the source electrode line 133, the source electrode 133a, and the drain electrode 133b are formed by the same method as that for the gate electrode line 132.
- an interlayer insulating film 137 made of a photosensitive resin is formed on the glass substrate 130a.
- an opening for forming the contact hole 131a is formed in the formed interlayer insulating film 137.
- the opening is formed using a photolithography method or the like.
- a transparent conductive film made of ITO is formed on the surface of the interlayer insulating film 137 using a sputtering method or the like.
- the formed transparent conductive film is formed into a predetermined pattern using a photolithography method or the like. As a result, a pixel electrode 131 having a predetermined pattern and its contact hole 131a are obtained.
- the alignment film 138 is formed.
- a liquid alignment material serving as a raw material for the alignment film 138 made of polyimide or the like is applied using a circular pressure printing apparatus, an ink jet printing apparatus, or the like.
- a coating film made of the alignment material on the glass substrate 130a is baked using an alignment film baking apparatus or the like, and then the surface of the coating film is rubbed. In this way, the alignment film 138 is formed on the pixel electrode 131.
- the mother substrate 13 assigned so that the plurality of TFT substrates 130 are arranged is manufactured.
- step S2 shown in FIG. 4 is a step of forming the support portions 15 on each TFT substrate 130 in the mother substrate 13 manufactured in the step S1.
- the support unit 15 is made of, for example, a photosensitive resin, and the support unit 15 having a predetermined pattern is formed on each TFT substrate 130 by using a photolithography method or the like.
- This support part 15 is formed so that it may overlap along the parting plan line.
- the height of the support portion 15 is set to be equal to the cell gap (interval between the TFT substrate and the CF substrate) of the liquid crystal panel 2.
- the height of the support portion 15 is set to about 3.0 ⁇ m to 5.0 ⁇ m.
- the line width of the support portion 15 is set to, for example, about 400 ⁇ m to 2000 ⁇ m. Since the support portion 15 is divided in half when the liquid crystal mother panel 1 is divided, the substantial line width of the support portion 15 remaining in the liquid crystal panel 2 is about the above half (200 ⁇ m to 1000 ⁇ m). .
- the support portion 15 is formed on the mother substrate 13 on the TFT substrate side.
- the support portion 15 may be formed on the mother substrate 7 on the CF substrate side.
- This step is a step of manufacturing the mother substrate 7 (see FIG. 3 and the like). That is, this is a process of manufacturing a plurality of CF substrates 70 together on a single mother substrate 7.
- a BM resist photosensitive resin composition containing a black colorant
- the applied BM resist is formed into a predetermined pattern using a photolithography method or the like. In this way, a black matrix (BM) 71 having a predetermined pattern is obtained.
- a colored ink composed of colored photosensitive materials of red, green, and blue colors (a solution in which a predetermined pigment is dispersed in a photosensitive resin) is applied, and this coating is applied to a predetermined material using a photolithography method or the like. It forms in the colored layer 72 of the pattern. And the transparent conductive film which consists of ITO is formed in the surface of the colored layer 72 using sputtering method etc., and the common electrode 73 is obtained.
- a liquid alignment material serving as a raw material for the alignment film 74 made of polyimide or the like is applied to the surface of the common electrode 73 by using a circular pressure printing apparatus, an ink jet printing apparatus, or the like. Thereafter, a coating film made of the alignment material on the glass substrate 70a is baked using an alignment film baking apparatus or the like, and then the surface of the coating film is rubbed. In this way, the alignment film 74 is formed on the common electrode 73. As described above, the mother substrate 7 assigned so that the plurality of CF substrates 70 are arranged is manufactured.
- step S4 shown in FIG. 4 is a step of forming the frame-shaped seal portion 9 in each CF substrate 70 in the mother substrate 7 manufactured in the step S3.
- Each frame-shaped seal portion 9 is made of a thermosetting resin or a photocurable resin (photosensitive resin), and surrounds the alignment film 74 in each CF substrate 70 in the mother substrate 7 by using a screen printing method or the like. Formed. Then, a liquid crystal material is dropped and filled in an area surrounded by each frame-shaped seal portion 9 using an inkjet method or the like.
- the mother substrate 13 on which the support portion 15 is formed and the mother substrate 7 on which the frame-shaped seal portion 9 is formed and the liquid crystal material is dropped are bonded together.
- the mother substrate 13 and the mother substrate 7 are disposed so as to face each other in a vacuum chamber (not shown). And the inside of a vacuum chamber is made into the pressure reduction state below atmospheric pressure. Thereafter, when the inside of the vacuum chamber is returned to the atmospheric pressure state, the mother substrates 13 and 7 are constantly pressurized from the outside.
- the support portion 15 may be cured when the frame-shaped seal portion 9 is cured.
- the liquid crystal mother panel 1 as shown in FIG. 1 and the like is obtained through the steps S1 to S5.
- the support unit 15 may be provided in advance on the mother substrate 7 side.
- step S6 shown in FIG. 4 is a step of etching the liquid crystal mother panel 1 to reduce its thickness.
- the thickness (plate thickness) of the mother substrate 7 (glass substrate 70a) of the liquid crystal mother panel 1 and the thickness (plate thickness) of the mother substrate 13 (glass substrate 130a) are respectively targeted plate thicknesses T.
- Etching is performed until the thickness becomes (for example, 0.05 mm to 0.5 mm, preferably 0.1 mm to 0.3 mm) + ⁇ (for example, 50 ⁇ m to 100 ⁇ m), and each plate is thinned.
- FIG. 5 is an explanatory view schematically showing a process of thinning the liquid crystal mother panel by etching.
- the etching process is performed by immersing the liquid crystal mother panel 1 in the etching solution 201 in the etching tank 200.
- the liquid crystal mother panel 1 is immersed in the etching solution 201 using the tray 202 that is accommodated so as to surround the liquid crystal mother panel 1.
- a large number of holes 202 a are provided in the upper surface portion and the lower surface portion of the tray 202 that accommodates the liquid crystal mother panel 1.
- the etchant 201 enters the inside of the tray 202 through the hole 202a, and the mother substrate 7, 13 of the liquid crystal mother panel 1 is thinned by the contact of the entered etchant 201.
- an air supply pipe 203 connected to a supply pump (not shown) is disposed below the etching tank 200.
- a large number of small holes 203 a are formed in the air supply pipe 203, and a gas such as nitrogen gas supplied from an air supply pump is ejected from the small holes 203 a to generate bubbles 204.
- the bubbles 204 agitate the etching solution 201 in the etching bath 200.
- the etching solution 201 include a solution containing a fluorine compound such as hydrofluoric acid, sodium fluoride, potassium fluoride, and acidic ammonium fluoride, or a mixture of these with other acid compounds such as hydrochloric acid, and the like.
- a solution containing potassium, tetramethylammonium hydroxide or the like is used.
- FIG. 6 is an explanatory view schematically showing the configuration of the liquid crystal mother panel 1 after the etching process.
- the thicknesses (plate thicknesses) of the mother substrates 7 and 13 of the liquid crystal mother panel 1 before the etching process are indicated by broken lines.
- the process proceeds to the next step S7.
- Step S7 shown in FIG. 4 is a step of forming a scribe groove (first scribe groove) as a dividing guide groove on the surface of the liquid crystal mother panel 1.
- a scribe groove is formed along the planned dividing line on the surface of the mother substrate 7 on the CF substrate side.
- virtual dividing lines 3 and 4 are drawn on the surface of the mother substrate 7, and these are arranged in a lattice pattern so as to partition each liquid crystal panel (liquid crystal panel piece). It is arranged.
- the scribe groove is provided in a straight line along each dividing line 3 and 4.
- FIG. 7 is an explanatory view schematically showing a process of forming a groove (first scribe groove) 12 with the scriber 11 on the surface of the mother substrate 7 in the liquid crystal panel 1.
- FIG. 7 schematically shows a cross-sectional structure of the liquid crystal mother panel 1.
- the scribe groove 12 is formed by using a scriber (cutter wheel) 11 having a rotary blade 11a as shown in FIG.
- the rotating blade 11a of the scriber 11 includes a single crystal of artificial diamond, and the vicinity of the outer periphery of the rotating blade 11a is tapered.
- the cross section of the outer peripheral portion of the rotary blade 11a is V-shaped.
- the scriber 12 is formed on the surface of the mother substrate 7 by moving the scriber (blade) 11 while pressing the scriber 11 against the surface of the mother substrate 7 so as to trace the planned dividing line 3 or the like.
- the scribe groove 12 has a V-shaped cross section (cross section in the width direction) (not shown). When the scribe groove 12 is formed, the scriber 11 is usually pressed against the mother substrate 7 with a certain force.
- FIG. 7 shows a process in which the scribe groove 12 is formed along the planned dividing line 31.
- the depth (penetration amount) of the scribe groove 12 is set to about half of the thickness of the mother substrate 7 (the thickness of the mother substrate 7 after the etching process), for example.
- a support portion 15 (151, 153) is interposed between the mother substrate 7 of the liquid crystal mother panel 1 and the mother substrate 13 together with the frame-shaped seal portion 9 (91, 93). ing. That is, there is no large gap between the adjacent liquid crystal panel 21 and the liquid crystal panel 23 so that the mother substrate 7 is pushed downward by the scriber 11. Therefore, the scribe groove 12 having a certain depth can be formed on the surface of the mother substrate 7 using the scriber 11.
- a parting planned line 3 (31) also exists in the margin 6 part.
- no support portion is provided so as to overlap along the planned dividing line 3 (31) of this margin 6 portion.
- a support portion is also provided in this portion. Also good.
- FIG. 8 is an explanatory view schematically showing the liquid crystal mother panel 1 in which the scribe grooves 12 are formed on the surface of the mother substrate 7. As shown in FIG. 8, after the scribe groove (first scribe groove) 12 is formed, the process proceeds to the next step S8.
- the mother substrates 7 and 13 of the liquid crystal mother panel 1 are further reduced in thickness and the first scribe groove 12 is enlarged.
- step S8 the thickness (plate thickness) of each of the mother substrates 7 and 13 is etched so as to be the target plate thickness T described above.
- the etching process in step S8 is performed using the same apparatus (see FIG. 5) as in step S6.
- the first scribe grooves 12 are enlarged along with further thinning of the mother substrates 7 and 13.
- the scribe groove 12 is also etched, and the width (groove width) and depth (groove depth) are increased.
- the scribe groove 12 grows by being etched, depending on the location, the bottom portion may reach the frame-shaped seal portion 9 or the support portion 15 and the frame-shaped seal portion 9 or the like may be partially exposed.
- the frame-shaped seal portion 9 and the support portion 15 are in close contact with each other so as to close the hole at the bottom of the scribe groove 12 even if the bottom portion of the scribe groove 12 falls out. Therefore, the etching solution is prevented from entering the liquid crystal panel 2 from the hole.
- the bottom portion of the scribe groove 12 is cut and a hole is formed, and even if an etching solution enters from the hole, the place usually has a margin 6 around the liquid crystal panel 2.
- the etching solution does not come into contact with the terminal 10 and the terminal 10 is not corroded.
- the frame-shaped seal portion 9 and the support portion 15 have durability against the etching solution, and do not corrode even when they come into contact with the etching solution.
- FIG. 9 is an explanatory diagram schematically showing the configuration of the liquid crystal mother panel 1 after the second etching process.
- the liquid crystal mother panel 1 is arranged such that the mother substrate 7 is on the lower side and the mother substrate 13 is on the upper side.
- a first scribe groove 12a having an increased groove width and groove depth is formed by an etching process.
- the thickness (plate thickness) of each of the mother substrates 7 and 13 is set to a target plate thickness T by this etching process.
- the thickness before this etching process is indicated by a broken line.
- step S9 shown in FIG. 4 is a step of forming a scribe groove (second scribe groove) as a dividing guide groove on the surface of the liquid crystal mother panel 1.
- a scribe groove is formed on the surface of the mother substrate 13 on the TFT substrate side along the planned dividing line.
- a virtual dividing line (not shown) is set on the surface of the mother substrate 13.
- the dividing lines on the surface of the mother substrate 13 are also arranged in a lattice pattern so as to partition each liquid crystal panel (liquid crystal panel piece) 2 as with the dividing lines 3 and 4 on the mother substrate 7 side shown in FIG. Has been. Further, the dividing line on the mother substrate 13 side is set to face the dividing lines 3 and 4 on the mother substrate 7 side.
- the scribe groove (second scribe groove) is provided in a straight line along a planned dividing line that is virtually drawn on the surface of the mother substrate 13.
- the second scribe groove is formed on the surface of the mother substrate 13 using the scriber 11, similarly to the first scribe groove 12.
- the second scribe groove is formed by moving the scriber 11 while pressing the scriber 11 along the planned dividing line on the surface of the mother substrate 13.
- FIG. 10 is an explanatory view schematically showing the configuration of the liquid crystal mother panel 1 in which the second scribe grooves 121 are formed on the surface of the mother substrate 13. As shown in FIG. 10, the second scribe groove 121 passes through the substantial center in the line width direction of the frame-shaped seal portion 9.
- the groove width and groove depth of the second scribe groove 121 of the present embodiment are set to be the same as those of the first scribe groove 12.
- the groove depth (penetration amount) of the second scribe groove may be set so as to reach the frame-shaped seal portion 9. As shown in FIG. 10, the second scribe groove 121 on the mother substrate 13 and the first scribe groove 12a on the mother substrate 7 face each other through the frame-shaped seal portion 9 and the like.
- the dividing line of the mother board 13 also passes above the frame-shaped seal part 9 and the support part 15. Therefore, the second scribe groove 121 having a certain depth can be formed on the surface of the mother substrate 13 using the scriber 11.
- step S10 shown in FIG. 4 is a step of obtaining the liquid crystal panel 2 by pressure-dividing the liquid crystal mother panel 1 along the first scribe groove 12a and the second scribe groove 121.
- FIG. 11 is an explanatory view schematically showing a process of obtaining the liquid crystal panel 2 by dividing the liquid crystal mother panel 1 along the first scribe grooves 12 a and the second scribe grooves 121.
- the liquid crystal mother panel 1 is divided by being guided by the first scribe groove 12 a and the second scribe groove 121.
- the liquid crystal mother panel 1 can be divided easily and accurately.
- the liquid crystal panel 2 which has a predetermined external dimension can be obtained.
- the frame-shaped seal portion 9 is also divided so as to have a substantially half line width.
- the frame-shaped seal portion 94 of the liquid crystal panel 24 shown in FIG. 10 remains as a frame-shaped seal portion 9a (94a) on the liquid crystal panel 24 side as shown in FIG. It is divided into a portion and a portion 9b (94b) remaining on the margin 6 side.
- the frame-shaped seal portion 93 of the liquid crystal panel 23 shown in FIG. 10 is a frame-shaped seal portion 9a (93a) remaining on the liquid crystal panel 23 side as shown in FIG. 11 when the liquid crystal mother panel 1 is divided.
- the remaining portion is divided into a portion 9b (93b) remaining on the margin 6 side.
- the support portion 15 is also divided along the first scribe grooves 12 a and the second scribe grooves 121.
- the support portion 15 is also divided so as to be separated at substantially the center of the line width.
- the support portion 15 remaining on the liquid crystal panel 2 may be left as it is, or may be removed as necessary.
- the end face of the liquid crystal panel 2 after the division is appropriately polished and arranged.
- a plurality (four in this embodiment) of liquid crystal panels 2 are obtained from the liquid crystal mother panel 1 through the steps S6 to S10. Of these steps, the dividing guide groove forming method of the present invention is used in steps S7 and S9.
- the support portions 15 are arranged so as to overlap along the surrounding lines 30.
- the support portion 15 or the frame-shaped seal portion 9 is disposed at least below the planned dividing lines 3 and 4 surrounding each liquid crystal panel 2, thereby supporting the mother substrate 7. It is done. Therefore, the liquid crystal mother panel 1 of the present embodiment can form scribe grooves (dividing guide grooves) having a constant groove width and groove depth along at least the surrounding lines 30 that surround the liquid crystal panels 2. Therefore, the liquid crystal panel 2 having a predetermined outer dimension can be obtained without being partially missing.
- FIG. 12 is a plan view of a liquid crystal mother panel 1A according to another embodiment.
- the basic configuration of the liquid crystal mother panel 1A is the same as that of the liquid crystal mother panel 1 shown in FIG. However, in the liquid crystal mother panel 1A, the frame-shaped seal portion 9 and the support portion 15 in each liquid crystal panel 2 are separated from each other and are independent. Therefore, the dividing lines 3 and 4 that are virtually formed on the surface of the liquid crystal mother panel 1 ⁇ / b> A are different from those of the liquid crystal mother panel 1.
- the planned dividing line 3 (31, 32, 33, 34) and the planned dividing line 4 (41, 42, 43, 44) are arranged in a lattice pattern so as to be orthogonal to each other. Yes.
- a margin 6 between the liquid crystal panel 21 and the liquid crystal panel 22 and between the liquid crystal panel 23 and the liquid crystal panel 24 is sandwiched between the dividing lines 32 and 33.
- the planned dividing line is set so as to face the divided lines 3 and 4.
- the liquid crystal panels 2 may be assigned so as to be separated from each other.
- a liquid crystal mother panel 1 A is also formed with a division induction groove on the front and back surfaces of the liquid crystal mother panel 1 A along the respective division planned lines 3 and 4. It is divided into each liquid crystal panel 2 by using.
- FIG. 13 is a plan view of a liquid crystal mother panel 1B according to another embodiment.
- the basic configuration of the liquid crystal mother panel 1B is the same as that of the liquid crystal mother panel 1 (1A) described above.
- the liquid crystal mother panel 1B is provided with a support portion 15a so as to overlap along the planned dividing line 4 (41, 42, 43, 44) other than the surrounding line 30.
- the support portion 15a is made of the same material as the support portion 15 of the liquid crystal mother panel 1.
- the support unit 15 a is also set so that the planned dividing line passes through the approximate center.
- the dividing guide groove (scribe groove) having a constant groove width and groove depth regardless of the presence or absence of the margin 6 can be obtained. It can be formed on the planned dividing line 3. Then, the liquid crystal mother panel 1B can be divided with high accuracy including the margin 6 by using the dividing guide groove.
- the support portion may be provided so as to overlap along the planned dividing line 4 (41, 42, 43, 44) other than the surrounding line 30 in FIG.
- each support portion 15 of each liquid crystal panel 2 is disposed so as to surround each terminal 10.
- the support portion 15 is connected to the frame-shaped seal portion 9 without a gap.
- the support portion 15 when the terminal 10 of the liquid crystal panel 2 is surrounded by the support portion 15, it is not corroded by the etching process in the above-described S6 step and S8 step. This is because, even if a scribe groove formed along the surrounding line 30 grows and a hole is formed at the bottom of the scribe groove by the etching process, the hole is blocked by the support portion 15. This is because the etching solution cannot enter from the hole. That is, the support portion 15 also has a function of closing the hole formed in the scribe groove so that the etching solution cannot enter.
- the support portion 15 in the liquid crystal mother panel 1 shown in FIG. 1 is entirely overlapped with a surrounding line 30 in a section that does not overlap the frame-shaped seal portion 9, but in other embodiments, the support portion 15 is In the section of the surrounding line 30, it is not necessary that they all overlap.
- FIG. 14 is a plan view of a part of a liquid crystal mother panel 1C according to another embodiment.
- FIG. 14 shows only one liquid crystal panel 2 (21) among the plurality of liquid crystal panels 2 allocated in the liquid crystal mother panel 1C.
- the basic configuration of the liquid crystal mother panel 1C is the same as that of the liquid crystal mother panel 1 shown in FIG.
- the support portion 15b is partially formed as compared with the support portion 15 of the liquid crystal mother panel 1.
- This support part 15b is provided so that it may overlap along only the parting planned lines 3 (31) and 3 (32) among the surrounding lines 30.
- Such a liquid crystal mother panel 1C may be used as long as the bending of the mother substrate 7 in the section corresponding to the gap is sufficiently suppressed by providing the support portion 15b.
- FIG. 15 is a plan view of a part of a liquid crystal mother panel 1D according to another embodiment.
- FIG. 15 shows only one liquid crystal panel 2 (21) among the plurality of liquid crystal panels 2 assigned in the liquid crystal mother panel 1D for convenience of explanation.
- the basic configuration of the liquid crystal mother panel 1E is the same as that of the liquid crystal mother panel 1 shown in FIG.
- the liquid crystal panel 2 (21) of the liquid crystal mother panel 1D also has a support portion 15c partially formed as compared with the support portion 15 of the liquid crystal mother panel 1 as shown in FIG. .
- This support portion 15 c is provided so as to overlap along only the planned dividing line 4 (42) in the surrounding line 30.
- Such a liquid crystal mother panel 1D may be used if the support portion 15c is provided to sufficiently suppress the bending of the mother substrate 7 in the section corresponding to the gap.
- the dividing guide groove forming method according to the present invention is not used only for the liquid crystal mother panel that is accompanied by an etching process. That is, even when the liquid crystal mother panel is divided without an etching process, the dividing guide groove forming method of the present invention can be used.
- liquid crystal panels are assigned to the liquid crystal mother panel. However, in other embodiments, more liquid crystal panels may be assigned to one liquid crystal mother panel. .
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Abstract
Description
図4に示されるS7工程は、液晶マザーパネル1の表面に分断誘導溝としてのスクライブ溝(第1スクライブ溝)を形成する工程である。この工程では、CF基板側のマザー基板7の表面に、分断予定線に沿ってスクライブ溝が形成される。 <Method for forming a dividing guide groove>
Step S7 shown in FIG. 4 is a step of forming a scribe groove (first scribe groove) as a dividing guide groove on the surface of the liquid
次いで、図4に示されるS9工程について説明する。この工程は、液晶マザーパネル1の表面に分断誘導溝としてのスクライブ溝(第2スクライブ溝)を形成する工程である。この工程では、TFT基板側のマザー基板13の表面に、分断予定線に沿ってスクライブ溝が形成される。 <Method for forming a dividing guide groove>
Next, step S9 shown in FIG. 4 will be described. This step is a step of forming a scribe groove (second scribe groove) as a dividing guide groove on the surface of the liquid
Claims (8)
- 互いに対向配置される一対のマザー基板の間に液晶層とその液晶層を囲む枠状シール部を備えた液晶マザーパネルのうち少なくとも一方のマザー基板の表面上に仮想的に引かれた格子状の分断予定線によって複数個の液晶パネル片が区画形成され、前記枠状シール部が各液晶パネル片を区切る前記分断予定線からなる囲み線に沿うように重なった重なり部分と、前記囲み線と重ならないように前記囲み線よりも内側を通る非重なり部分とからなり、前記枠状シール部上を通っていない区間の前記囲み線に沿って重なるように、前記マザー基板間にサポート部が介在され、そのサポート部上を通って前記分断予定線に沿って分断できるように、前記分断予定線を刃物でなぞりながら前記分断予定線に沿った分断誘導溝を前記液晶マザーパネル表面に形成するようにしたことを特徴とする液晶マザーパネルの分断誘導溝形成方法。 A lattice-like pattern virtually drawn on the surface of at least one mother substrate out of a liquid crystal mother panel having a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer between a pair of mother substrates opposed to each other. A plurality of liquid crystal panel pieces are partitioned and formed by the planned dividing line, and the frame-shaped seal portion overlaps along the enclosing line composed of the planned dividing line that divides each liquid crystal panel piece, and the encircling line and the overlapping line overlap each other. A support portion is interposed between the mother boards so as to overlap along the surrounding line in a section not passing over the frame-shaped seal portion. The liquid crystal mother panel includes a cutting guide groove along the dividing line while tracing the cutting line with a blade so that the dividing line can be divided along the cutting line through the support portion. Dividing guide groove forming method of the liquid crystal mother panel, characterized in that so as to form on the surface. *
- 前記囲み線以外の分断予定線に沿って重なるように、前記マザー基板間に、更に、サポート部を介在させる請求項1に記載の分断誘導溝形成方法。 The method for forming a cutting guide groove according to claim 1, further comprising a support portion interposed between the mother substrates so as to overlap along a planned cutting line other than the encircling line.
- 前記枠状シール部の前記非重なり部分における外縁側に、前記液晶パネル片の端子が配置される請求項1又は2に記載の分断誘導溝形成方法。 The method for forming a dividing guide groove according to claim 1 or 2, wherein a terminal of the liquid crystal panel piece is disposed on an outer edge side of the non-overlapping portion of the frame-shaped seal portion.
- 前記液晶マザーパネルを、エッチング液中に浸漬して前記マザー基板を薄板化しつつ、前記分断誘導溝の幅及び深さを拡大する請求項1~3の何れか1項に記載の分断誘導溝形成方法。 The cutting guide groove formation according to any one of claims 1 to 3, wherein the liquid crystal mother panel is immersed in an etching solution to thin the mother substrate, and the width and depth of the cutting guide groove are expanded. Method.
- 互いに対向配置される一対のマザー基板の間に液晶層とその液晶層を囲む枠状シール部を備え、表面上に仮想的に引かれた格子状の分断予定線によって区切られる複数個の液晶パネル片を有する液晶マザーパネルであって、
少なくとも一方のマザー基板の表面上に前記分断予定線が引かれ、前記枠状シール部が各液晶パネル片を区切る前記分断予定線からなる囲み線に沿うように重なった重なり部分と、前記囲み線と重ならないように前記囲み線よりも内側を通る非重なり部分とからなり、更に、前記枠状シール部上を通っていない区間の前記囲み線に沿って重なるように、前記マザー基板間に介在されるサポート部を備えることを特徴とする液晶マザーパネル。 A plurality of liquid crystal panels each having a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer between a pair of mother substrates arranged opposite to each other, and separated by a grid-like dividing line virtually drawn on the surface A liquid crystal mother panel having a piece,
An overlapping portion in which the planned dividing line is drawn on the surface of at least one mother substrate, and the frame-shaped seal portion overlaps along an enclosing line including the planned dividing line that divides each liquid crystal panel piece, and the encircling line A non-overlapping portion passing through the inside of the surrounding line so as not to overlap with the surrounding line, and further interposed between the mother substrates so as to overlap with the surrounding line in a section not passing over the frame-shaped seal portion. A liquid crystal mother panel comprising a supported portion. - 前記囲み線以外の分断予定線に沿って重なるように、前記マザー基板間に、更に、前記マザー基板間に介在されるサポート部を備える請求項5に記載の液晶マザーパネル。 6. The liquid crystal mother panel according to claim 5, further comprising a support portion interposed between the mother substrates so as to overlap along a planned dividing line other than the encircling line.
- 前記枠状シール部の前記非重なり部分における外縁側に、前記液晶パネル片の端子が配置される請求項5又は6に記載の液晶マザーパネル。 The liquid crystal mother panel according to claim 5 or 6, wherein a terminal of the liquid crystal panel piece is disposed on an outer edge side of the non-overlapping portion of the frame-shaped seal portion.
- 互いに対向配置される一対のマザー基板の間に液晶層とその液晶層を囲む枠状シール部を備えた液晶マザーパネルのうち少なくとも一方のマザー基板の表面上に仮想的に引かれた格子状の分断予定線によって複数個の液晶パネル片が区画形成され、前記枠状シール部が各液晶パネル片を区切る前記分断予定線からなる囲み線に沿うように重なった重なり部分と、前記囲み線と重ならないように前記囲み線よりも内側を通る非重なり部分とからなり、前記枠状シール部上を通っていない区間の前記囲み線に沿って重なるように、前記マザー基板間に介在されるサポート部を備える液晶マザーパネルを前記分断予定線に沿って分断する分断方法であって、
前記液晶マザーパネルにおける一方のマザー基板の表面上に前記分断予定線に沿って刃物を押し当てて第1スクライブ溝を形成する工程と、
前記第1スクライブ溝が形成された前記液晶マザーパネルをエッチング液に浸漬して前記液晶マザーパネルを薄型化しつつ前記第1スクライブ溝を成長させる工程と、
前記液晶マザーパネルにおける他方のマザー基板の表面上に前記分断予定線に沿って刃物を押し当てて第2スクライブ溝を形成する工程と、
前記第1スクライブ溝及び前記第2スクライブ溝を利用して前記液晶マザーパネルを分断する工程と、を備えることを特徴とする液晶マザーパネルの分断方法。 A lattice-like pattern virtually drawn on the surface of at least one mother substrate out of a liquid crystal mother panel having a liquid crystal layer and a frame-shaped seal portion surrounding the liquid crystal layer between a pair of mother substrates opposed to each other. A plurality of liquid crystal panel pieces are partitioned and formed by the planned dividing line, and the frame-shaped seal portion overlaps along the enclosing line composed of the planned dividing line that divides each liquid crystal panel piece, and the enclosing line and the overlapping line overlap each other. A support portion interposed between the mother boards so as to overlap along the surrounding line in a section not passing over the frame-shaped seal portion. A dividing method for dividing a liquid crystal mother panel comprising the line along the planned dividing line,
Forming a first scribe groove by pressing a blade along the planned dividing line on the surface of one mother substrate of the liquid crystal mother panel;
Immersing the liquid crystal mother panel in which the first scribe groove is formed in an etchant to grow the first scribe groove while thinning the liquid crystal mother panel;
Forming a second scribe groove by pressing a blade along the planned dividing line on the surface of the other mother substrate in the liquid crystal mother panel;
Dividing the liquid crystal mother panel using the first scribe groove and the second scribe groove, and a method for dividing the liquid crystal mother panel.
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WO (1) | WO2011132445A1 (en) |
Cited By (2)
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WO2014034805A1 (en) * | 2012-08-30 | 2014-03-06 | 株式会社Jvcケンウッド | Bonded substrate and method for manufacturing same |
US10209576B2 (en) | 2016-03-18 | 2019-02-19 | Japan Display Inc. | Liquid crystal display device and mother substrate thereof |
Families Citing this family (9)
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CN103926750B (en) * | 2013-12-31 | 2017-02-15 | 上海天马微电子有限公司 | Liquid crystal display panel |
JP2015221739A (en) * | 2014-05-23 | 2015-12-10 | 株式会社ジャパンディスプレイ | Method of manufacturing display device |
CN104409662B (en) | 2014-11-10 | 2017-07-18 | 京东方科技集团股份有限公司 | Oled panel and preparation method, screen printing plate, display device |
CN105892163A (en) * | 2016-06-12 | 2016-08-24 | 武汉华星光电技术有限公司 | Mother board and frame sealing glue coating manner for mother board |
WO2018135565A1 (en) * | 2017-01-20 | 2018-07-26 | 株式会社Nsc | Method for manufacturing liquid crystal panel |
CN110058445B (en) * | 2019-05-28 | 2020-12-25 | 深圳市华星光电半导体显示技术有限公司 | Liquid crystal display mother board structure and cutting method thereof |
CN110764299A (en) * | 2019-10-29 | 2020-02-07 | 深圳市华星光电技术有限公司 | Liquid crystal display panel and display module preparation method |
CN112764279B (en) * | 2021-02-22 | 2022-07-01 | 厦门高卓立科技有限公司 | Operation method of liquid crystal display panel with scribing foolproof symbol |
KR20240080638A (en) | 2022-11-30 | 2024-06-07 | 엘지디스플레이 주식회사 | Display device and method of manufacturing the same |
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JP2007226000A (en) * | 2006-02-24 | 2007-09-06 | Seiko Instruments Inc | Liquid crystal panel fabrication method |
JP2008065024A (en) * | 2006-09-07 | 2008-03-21 | Casio Comput Co Ltd | Structure for forming liquid crystal cell, and liquid crystal cell and manufacturing method thereof |
JP2008164980A (en) * | 2006-12-28 | 2008-07-17 | Citizen Miyota Co Ltd | Method for manufacturing liquid crystal display element |
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JP2003255362A (en) * | 2002-03-05 | 2003-09-10 | Citizen Watch Co Ltd | Cell and its production method and liquid crystal optical element using the cell |
KR20090021001A (en) * | 2007-08-24 | 2009-02-27 | 삼성전자주식회사 | Making method of display device and composition of sealant therefor |
JP5153383B2 (en) * | 2008-02-26 | 2013-02-27 | 株式会社ジャパンディスプレイイースト | Manufacturing method of liquid crystal display device |
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2011
- 2011-02-02 CN CN201180019275.4A patent/CN102844703B/en not_active Expired - Fee Related
- 2011-02-02 JP JP2012511573A patent/JP5395259B2/en not_active Expired - Fee Related
- 2011-02-02 WO PCT/JP2011/052096 patent/WO2011132445A1/en active Application Filing
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JP2007226000A (en) * | 2006-02-24 | 2007-09-06 | Seiko Instruments Inc | Liquid crystal panel fabrication method |
JP2008065024A (en) * | 2006-09-07 | 2008-03-21 | Casio Comput Co Ltd | Structure for forming liquid crystal cell, and liquid crystal cell and manufacturing method thereof |
JP2008164980A (en) * | 2006-12-28 | 2008-07-17 | Citizen Miyota Co Ltd | Method for manufacturing liquid crystal display element |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2014034805A1 (en) * | 2012-08-30 | 2014-03-06 | 株式会社Jvcケンウッド | Bonded substrate and method for manufacturing same |
JP2014048405A (en) * | 2012-08-30 | 2014-03-17 | Jvc Kenwood Corp | Bonded substrate and manufacturing method |
US9329422B2 (en) | 2012-08-30 | 2016-05-03 | JVC Kenwood Corporation | Lamination substrate and manufacturing method of the same |
US10209576B2 (en) | 2016-03-18 | 2019-02-19 | Japan Display Inc. | Liquid crystal display device and mother substrate thereof |
Also Published As
Publication number | Publication date |
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JPWO2011132445A1 (en) | 2013-07-18 |
CN102844703A (en) | 2012-12-26 |
JP5395259B2 (en) | 2014-01-22 |
CN102844703B (en) | 2015-04-29 |
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