CN1991493A - Layout and substrate size of liquid crystal panel - Google Patents

Layout and substrate size of liquid crystal panel Download PDF

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Publication number
CN1991493A
CN1991493A CNA2006101608310A CN200610160831A CN1991493A CN 1991493 A CN1991493 A CN 1991493A CN A2006101608310 A CNA2006101608310 A CN A2006101608310A CN 200610160831 A CN200610160831 A CN 200610160831A CN 1991493 A CN1991493 A CN 1991493A
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lcd panel
length
mother substrate
inches
surplus
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CN1991493B (en
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禹尚秀
郑光日
南基秀
南明佑
李炫枝
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LG Display Co Ltd
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LG Philips LCD Co Ltd
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    • GPHYSICS
    • G02OPTICS
    • G02FOPTICAL 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
    • G02F1/00Devices 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
    • G02F1/01Devices 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 
    • G02F1/13Devices 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
    • G02F1/133Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
    • G02F1/1333Constructional arrangements; Manufacturing methods
    • G02F1/13336Combining plural substrates to produce large-area displays, e.g. tiled displays
    • GPHYSICS
    • G02OPTICS
    • G02FOPTICAL 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
    • G02F1/00Devices 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
    • G02F1/01Devices 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 
    • G02F1/13Devices 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
    • G02F1/133Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
    • G02F1/1333Constructional arrangements; Manufacturing methods
    • G02F1/133354Arrangements for aligning or assembling substrates

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  • Physics & Mathematics (AREA)
  • Nonlinear Science (AREA)
  • Mathematical Physics (AREA)
  • Chemical & Material Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Liquid Crystal (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)
  • Electroluminescent Light Sources (AREA)

Abstract

A layout of LCD panels and a size of the mother substrate are disclosed, to improve the efficiency in arrangement of the LCD panels, and to maximize the substrate efficiency, the layout comprising a mother substrate; a dummy region of 15 mm or less in a periphery of the mother substrate; and six LCD panels of the 26-inch model in a matrix of 2x3 on the mother substrate excluding the dummy region with a margin corresponding to 2~4% of a length of the LCD panel.

Description

The layout of LCD panel and the size of mother substrate
The application requires application number in application on November 30th, 2005 to be P2005-116039 and to be the rights and interests of the korean patent application of P2006-32025 at the application number of application on April 7th, 2006, quote this two patented claims in this mode, as illustrating fully at this by reference.
Technical field
The application relates to a kind of liquid crystal display (LCD) device, relates more particularly to a kind of layout of liquid crystal display (LCD) plate that is used to make the substrate maximizing efficiency and the size of mother substrate.
Background technology
Development along with information society increases for the demand of various display devices.Therefore, a large amount of work is devoted to research and development such as liquid crystal display (LCD) device, Plasmia indicating panel (PDP), electroluminescence demonstration (ELD) and vacuum fluorescence and is shown various flat-panel display devices such as (VFD), and the flat-panel display device of some types has been applied to the demonstration of various device.
In various flat-panel display devices, the LCD device since little, slim body of its size and advantage low in energy consumption by widespread use, so the LCD device has replaced cathode ray tube (CRT).Except such as the mobile model LCD device that is used for the notebook computer demonstration, the exploitation of LCD device has been used in the computer monitor and the TV of reception and display of broadcast signal.Especially, when the LCD device was used for TV, the LCD device was towards polytype and large-sized trend development.
Usually, the LCD device comprises the LCD plate that is used for display image and is used for drive signal is provided to the driver of LCD plate.In addition, the LCD plate comprises first and second substrates bonded to one another and the liquid crystal layer that forms between described first and second substrates.
First substrate (being called tft array substrate) comprising: with many grid lines of fixed intervals along the first direction arrangement; With many data lines of fixed intervals along the second direction arrangement vertical with first direction; In a plurality of pixel regions that limit by described grid line and data line, with a plurality of pixel electrodes of matrix type structural arrangement; And a plurality of thin film transistor (TFT)s, its basis provides to the signal of grid line will be sent to pixel electrode from the signal of data line.
Second substrate (being called color filter array substrate) comprising: black matrix layer, and it prevents the part light leak except that pixel region in first substrate; The R/G/B color filter layer, it is used to show shades of colour; And public electrode, it is used to produce image.In the LCD of IPS pattern device, public electrode is formed on first substrate, and forms coat on second substrate.
When making the LCD device, a plurality of LCD plates are formed on the mother substrate.That is to say, a plurality of LCD plates of design zone in first mother substrate, wherein each LCD plate zone comprises thin film transistor (TFT) array.And, a plurality of LCD plates of design zone in second mother substrate, wherein each LCD plate zone comprises color filter array.Then, form sealant around each the LCD plate zone that on arbitrary substrate of first and second mother substrates, forms.Subsequently, first and second mother substrates are bonded to one another, and the substrate cut after will boning becomes a plurality of LCD of unit plates zone, makes the LCD device thus.
The method of making the LCD device is divided into liquid crystal injection method and liquid crystal apportion design.
In the liquid crystal injection method, two substrates are bonded to one another, and the substrate cut after will boning then becomes a plurality of LCD of unit plates zone.Subsequently, liquid crystal is injected in each LCD plate.And if application liquid crystal apportion design suitably is distributed in liquid crystal on each LCD plate zone of first or second mother substrate, and is then that first and second mother substrates are bonded to one another.Afterwards, the substrate cut after the bonding is become a plurality of LCD of unit plates.
But, inject the chronic of liquid crystal in the liquid crystal injection method, and will expend a lot of liquid crystal.Therefore, the large-scale LCD device uses the liquid crystal apportion design usually.The method of making the LCD device according to the liquid crystal apportion design will be described below.
Fig. 1 is a block diagram of making the method for LCD device according to prior art.
At first, a plurality of LCD plates of design zone in first and second mother substrates.Then, in each LCD plate zone of first mother substrate, form the thin film transistor (TFT) array (S11) that comprises grid line, data line, thin film transistor (TFT) and pixel region, and on the whole surface of first mother substrate, form first oriented layer, and carry out friction treatment (S12) thereon.Then, in each LCD plate zone of second mother substrate, form the color filter array (S15) that comprises black matrix layer, color filter layer and public electrode, and on the whole surface of second mother substrate, form second oriented layer, and carry out friction treatment (S16) thereon.
In the LCD of IPS pattern device, in each LCD plate zone of first mother substrate, form the thin film transistor (TFT) array that comprises grid line, data line, thin film transistor (TFT), pixel region and public electrode, and in each LCD plate zone of second mother substrate, form the color filter array that comprises black matrix layer, color filter layer and coat.
Then, clean first and second mother substrates (S13, S17).First mother substrate after cleaning is loaded on (LC divider) in the liquid crystal dispensing apparatus, and liquid crystal is distributed on the LCD plate zone of first mother substrate (S14).Then, second mother substrate after cleaning is loaded in silver and the coating apparatus for sealant, on each LCD plate zone, forms silver point (S18) thus, and around each LCD plate zone, form sealant (S19).
Subsequently, first and second mother substrates are loaded in the adhering device, thus that first and second mother substrates are bonded to one another.Then, first and second substrates after the bonding are loaded in the solidification equipment, thus curing sealant (S20).After this, first and second mother substrates that will have after the bonding of curing sealant are loaded on cutter sweep, thus substrate cut are become LCD plate (S21).Then, the LCD plate after the polishing cutting is tested (S22) at last.Although not shown, also driving circuit, polarizing coating and back light unit are provided to each LCD plate, finish the LCD device thus.
In the process of making the LCD plate, the efficient of mother substrate depends on the have various sizes arrangement of LCD plate on mother substrate of (model).And, owing to make the LCD plate, so the size of mother substrate is subjected to being used to making the restriction of each plant bulk of LCD plate by a plurality of steps.
Therefore, after the main model of selecting the LCD plate, come layout based on the arrangement of a plurality of main model LCD plates on mother substrate.According to the design of layout, determine the optimum dimension of mother substrate.
But, do not propose a kind ofly to consider the layout of arranging the LCD plate and the effective dimensions that improves the mother substrate of mother substrate efficient.And,, then reduce the efficient of mother substrate if on a mother substrate, arrange the LCD plate of a plurality of same sizes (model).This problem is along with the size of LCD plate becomes serious greatly and further gradually.
Summary of the invention
Therefore, the present invention relates to a kind of in the LCD plate layout and the size of mother substrate, it is eliminated because the restriction of relevant technologies and one or more problems that defective causes.
An object of the present invention is to provide a kind of layout of LCD plate of alignment efficiency of the LCD of raising plate and the size that makes the mother substrate of substrate maximizing efficiency.
Additional advantage of the present invention, purpose and a characteristics part will be illustrated in the following description, and a part become apparent when studying hereinafter for those of ordinary skills, perhaps can understand from the practice of the present invention.Purpose of the present invention and other advantage can realize by the structure that particularly points out in printed instructions and claims and the accompanying drawing and obtain.
In order to realize these purposes and other advantage and according to purpose of the present invention, as this concrete implements and broadly described, a kind of layout of LCD plate, it comprises: mother substrate; 15mm or littler virtual region around this mother substrate; And the LCD plate of six 26 inches models, it is arranged on this mother substrate in the zone except that this virtual region with 2 * 3 matrix-style, and described LCD plate has 2~4% surplus of LCD plate length.
In another program of the present invention, when arranging the LCD plate of eight same sizes, the substrate size that mother substrate had (M) satisfies M=(45.299L+43.805)~(50.333L+48.673) * (51.509L+63.636)~(57.232L+70.707), and wherein " L " is the inch value of LCD plate.
Should be understood that above-mentioned general description of the present invention and following specifying are exemplary and indicative, and be used to provide desired further explanation of the present invention.
Description of drawings
The accompanying drawing that the present invention includes is used to provide further understanding of the present invention, in conjunction with in this application and the accompanying drawing that constitutes the application's part show embodiments of the invention, and be used from explanation principle of the present invention with instructions one.In the accompanying drawings:
Fig. 1 is the block diagram according to the method for the manufacturing LCD device of correlation technique;
Fig. 2 is the form that 90% and 100% substrate efficient is shown according to the present invention when arranging eight LCD plates according to the model of LCD plate on a mother substrate;
Fig. 3 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 2 is shown;
Fig. 4 is the chart that the length variations of mother substrate Y-axis (major axis) in the form of Fig. 2 is shown;
Fig. 5 is the form that 90% and 100% substrate efficient is shown according to the present invention when arranging six LCD plates according to the model of LCD plate on a mother substrate;
Fig. 6 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 5 is shown;
Fig. 7 is the chart that the length variations of mother substrate Y-axis (major axis) in the form of Fig. 5 is shown;
Fig. 8 A to Fig. 8 I illustrates according to first embodiment of the invention have 1100 * 1250mm 2The layout of each model LCD plate on the mother substrate of size;
Fig. 9 has 1300 * 1500mm according to second embodiment of the invention 2Arrange the layout of eight 26 inches model LCD plates on the mother substrate of size;
Figure 10 A to Figure 10 J illustrates according to third embodiment of the invention have 1500 * 1850mm 2The layout of each model LCD plate on the mother substrate of size;
Figure 11 A to Figure 11 S illustrates according to four embodiment of the invention have 1950 * 2250mm 2The layout of each model LCD plate on the mother substrate of size;
Figure 12 A to Figure 12 M illustrates according to fifth embodiment of the invention have 1870 * 2200mm 2The layout of each model LCD plate on the mother substrate of size;
Figure 13 A to Figure 13 G illustrates according to sixth embodiment of the invention have 2200 * 2500mm 2The layout of each model LCD plate on the mother substrate of size; And
Figure 14 A to Figure 14 J illustrates according to seventh embodiment of the invention have 2230 * 2600mm 2The layout of each model LCD plate on the mother substrate of size.
Embodiment
Describe preferred implementation of the present invention now in detail, wherein accompanying drawing shows example of the present invention.As far as possible, identical Reference numeral will be used to refer to identical and similar parts in whole accompanying drawing.
Illustrate below with reference to accompanying drawings according to the layout of LCD plate of the present invention and the size of mother substrate.
At first, when design is arranged the layout of various model LCD plates on mother substrate, must design the surplus that has the layout of predetermined space and guarantee each LCD plate with the edge of mother substrate (virtual region, marks for treatment center or expose processing region), guarantee the homogeneity in deposition, exposure and the etching step thus, and obtain the peripheral exposed zone.
That is to say, estimate the size of mother substrate with 15mm or littler virtual region and the length that comprises each LCD plate of 0.3~4% surplus (interval between the interval between the LCD plate, virtual region and the LCD plate and marks for treatment center and expose interval between the processing region).
Under the treatment in accordance with the present invention condition, at the mother substrate long axis direction, surplus be LCD panel length on this long axis direction about 0.3% to about 5% between.At the mother substrate short-axis direction, surplus be LCD panel length on this direction about 0.3% to about 5% between.The surplus of 20 inches or littler LCD plate is that the surplus of about 2~4%, 30 inches LCD plates is that the surplus of about 1~4%, 50 inches LCD plates is about 0.3~4%.That is to say that when the LCD plate had large scale, the size of mother substrate increased, under the condition of 0.3% low surplus, make the LCD plate thus.
Because the major axis of LCD plate or minor axis are corresponding to the major axis of mother substrate, so the efficient of mother substrate is variable.In order to improve the efficient of mother substrate, must consider to make the axle of LCD plate to aim at the axle of mother substrate.
In addition, be used to make two substrate sealants bonded to one another can influence the efficient of mother substrate, will introduce in detail below.
At first, on the substrate except that pixel region, form black matrix layer in case leak-stopping light was formed by harmful heavy metal chromium (Cr) and should deceive matrix layer.In the LCD of IPS pattern device, the transverse magnetic field of responding between LCD devices use pixel electrode and the public electrode drives liquid crystal, if black matrix layer is made by heavy metal, then make the electric field distorting between pixel electrode and the public electrode, and the black matrix layer of heavy metal is harmful.Replace heavy metal, black matrix layer is formed by carbon black, the propylene that comprises carbon black, epoxy resin or poly-imide resin.
In the LCD of IPS pattern device, color filter array substrate comprises above-mentioned black matrix layer, the color filter layer corresponding with each pixel region and at the whole lip-deep coat of the substrate that comprises black matrix layer and color filter layer.In being coated with the non-display area of sealant, the black matrix layer and the coat of deposition resin.
In addition, utilize the wadding that in the viewing area, forms that thin-film transistor array base-plate and color filter array substrate are provided with predetermined box gap.But, in having the zone of sealant,, change the box gap thus because cohesive pressure widely spreads sealant.Therefore, must in sealant, also provide the stilt of making by glass fibre or glass bead, prevent the box space change thus.
Thereby, then make the black matrix layer of resin and glass fibre or the glass bead that coat is subjected to comprising in the sealant push by cohesive pressure if two bonded to one another formation on coat of substrate are had stilt and the sealant overlapping with black matrix layer.Because the black matrix layer and the coat of the stilt extrusion resin that comprises in the sealant, so sealant distortion.
In order to prevent the sealant distortion, must make black matrix layer and sealant not overlapping.But if black matrix layer and sealant are not overlapping, then the size of the virtual region of LCD device will become greatly, cause substrate efficient to reduce thus.In order to make the ratio optimization of the stilt that comprises in the sealant, make black matrix layer and sealant overlapping, the size of the virtual region of LCD device is reduced, thereby make the efficiency optimizationization of substrate.
That is to say, in sealant, provide the stilt of making by glass fibre or glass bead to account for 1% or weight ratio still less.For example, if stilt comprises glass bead, then in the sealant unit area of 1mm * 1mm, provide 500 or glass bead still less.If stilt comprises glass fibre, then in the sealant unit area of 1mm * 1mm, provide 150 glass fibre.In other words, if the weight ratio of stilt about 0.95%~0.005% corresponding to sealant even then black matrix layer is overlapping with sealant, can prevent that also sealant is out of shape, and improves substrate efficient thus.
When black matrix layer and sealant are overlapping, be used to prevent that other elements of sealant distortion have identical thickness with coat.That is to say, if with 1% or littler weight ratio the stilt such as glass fibre or glass bead is added in the sealant, and the thickness of coat determines between 1.2 μ m to 5 μ m, then can prevent the sealant distortion.That is to say,, can prevent that then black matrix layer is squeezed if form coat with thickness between 1.2 μ m to the 5 μ m.
For example, when on the glass substrate with 1870 * 2200mm size during 20.1 inches LCD plate of design, the virtual region of LCD plate is increased so that black matrix layer and sealant are not overlapping, thereby 24 LCD plates can be provided at most on substrate.But, if allow black matrix layer and sealant overlapping, then can reduce the virtual region of LCD plate by the weight ratio optimization that makes the stilt that comprises in the sealant, 30 LCD plates are provided at most on substrate thus.As a result, by weight ratio optimization that makes the stilt that comprises in the sealant or the thickness that passes through the control coat, can make the substrate efficiency optimizationization.
When on mother substrate, providing eight LCD plates according to the model of LCD plate under the above-mentioned condition of the thickness of the weight ratio of the stilt that in virtual region, surplus, sealant, comprises and coat, will describe in detail below and realize 90% or the size of the substrate of higher substrate efficient.
Fig. 2 is the form that 90% and 100% substrate efficient is shown according to the present invention when arranging eight LCD plates according to the model of LCD plate on a mother substrate.Fig. 3 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 2 is shown.
At first, if under above-mentioned surplus condition, arrange eight 23 inches models the LCD plate (23WX, image scaled is 16: 9, the IPS pattern, catercorner length is 22.95 inches, board size is 523.7 * 302.7mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1206 * 1387mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1085 * 1248mm 2Therefore, if arrange the LCD plate of eight 23 inches models, then the size of mother substrate satisfies 1085~1206 * 1248~1387mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 26 inches models of arrangement under above-mentioned surplus condition (26WX, image scaled is 16: 9, the IPS pattern, catercorner length is 26 inches, board size is 590.9 * 341.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1353 * 1555mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1218 * 1399mm 2Therefore, if arrange the LCD plate of eight 26 inches models, then the size of mother substrate satisfies 1218~1353 * 1399~1555mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 32 inches models of arrangement under above-mentioned surplus condition (32WX, image scaled is 16: 9, the IPS pattern, catercorner length is 31.5 inches, board size is 715.0 * 413.05mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1630 * 1873mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1467 * 1686mm 2Therefore, if arrange the LCD plate of eight 32 inches models, then the size of mother substrate satisfies 1467~1630 * 1686~1873mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 37 inches models of arrangement under above-mentioned surplus condition (37WU, image scaled is 16: 9, the IPS pattern, catercorner length is 37.0 inches, board size is 846.0 * 485.2mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1923 * 2195mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1730 * 1976mm 2Therefore, if arrange the LCD plate of eight 37 inches models, then the size of mother substrate satisfies 1730~1923 * 1976~2195mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 40 inches models of arrangement under above-mentioned surplus condition (40WU, image scaled is 16: 9, the IPS pattern, catercorner length is 39.8 inches, board size is 906.2 * 521.4mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2057 * 2356mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1851 * 2121mm 2Therefore, if arrange the LCD plate of eight 40 inches models, then the size of mother substrate satisfies 1851~2057 * 2121~2356mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 42 inches models of arrangement under above-mentioned surplus condition (42WU, image scaled is 16: 9, the IPS pattern, catercorner length is 42 inches, board size is 956.0 * 549.0mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2168 * 2479mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1952 * 2231mm 2Therefore, if arrange the LCD plate of eight 42 inches models, then the size of mother substrate satisfies 1952~2168 * 2231~2479mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 46 inches models of arrangement under above-mentioned surplus condition (46WU, image scaled is 16: 9, the IPS pattern, catercorner length is 46.1 inches, board size is 1043.0 * 600.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2363 * 2709mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2126 * 2438mm 2Therefore, if arrange the LCD plate of eight 46 inches models, then the size of mother substrate satisfies 2126~2363 * 2438~2709mm 2To realize 90% or higher substrate efficient.
If the LCD plate of eight 47 inches models of arrangement under above-mentioned surplus condition (47WU, image scaled is 16: 9, the IPS pattern, catercorner length is 47 inches, board size is 1065 * 610.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2412 * 2753mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2171 * 2478mm 2Therefore, if arrange the LCD plate of eight 47 inches models, then the size of mother substrate satisfies 2171~2412 * 2478~2753mm 2To realize 90% or higher substrate efficient.
Though not shown among Fig. 2, if under above-mentioned surplus condition, arrange eight 57 inches models the LCD plate (57WU, image scaled is 16: 9, the IPS pattern, catercorner length is 56.7 inches, board size is 1276.0 * 727.2mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2884 * 3273mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2595 * 2946mm 2Therefore, if arrange the LCD plate of eight 57 inches models, then the size of mother substrate satisfies 2595~2884 * 2946~3273mm 2To realize 90% or higher substrate efficient.
With reference to Fig. 2,, then can estimate to be used to realize 90% or the size of the mother substrate of higher substrate efficient if arrange the LCD plate of eight other models.
Fig. 3 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 2 is shown.Fig. 4 is the chart that the length variations of mother substrate Y-axis (major axis) in the form of Fig. 2 is shown.As shown in Fig. 3 and Fig. 4, if figure expresses the substrate efficient of each size, then figure line is near straight line (linear equation, R 2=0.9998 or R 2=0.9997), is expressed as follows.
At first, (X mm) can be with the size of each LCD plate (actual catercorner length, inch, L) expression for the length of the minor axis of mother substrate.
X=50.333L+48.673[equation 1]
Above-mentioned [equation 1] is illustrated on the mother substrate eight LCD plates arranging each model and the efficient of substrate is the length (X) of 90% o'clock minor axis.
X=45.299L+43.805[equation 2]
Above-mentioned [equation 2] is illustrated on the mother substrate eight LCD plates arranging each model and the efficient of substrate is the length (X) of 100% o'clock minor axis.
In addition, (Y mm) can be with the size of each LCD plate (actual catercorner length, inch, L) expression for the length of the major axis of mother substrate.
Y=57.232L+70.707[equation 3]
Above-mentioned [equation 3] is illustrated on the mother substrate eight LCD plates arranging each model and the efficient of substrate is the length (Y) of 90% o'clock major axis.
Y=51.509L+63.636[equation 4]
Above-mentioned [equation 4] is illustrated on the mother substrate eight LCD plates arranging each model and the efficient of substrate is the length (Y) of 100% o'clock major axis.
Based on above-mentioned [equation 1], [equation 2], [equation 3] and [equation 4], when eight LCD plates arranging each model on mother substrate and substrate efficient are 90% or when bigger, the size of mother substrate (M) is expressed as following [equation 5].
M=(45.299L+43.805)~(50.333L+48.673)×(51.509L+63.636)~(57.232L+70.707)
[equation 5]
For example, in the LCD of 26 inches models plate, actual catercorner length (L) is 26 inches.If 26 inches actual catercorner lengths (L) are applied to above-mentioned [equation 5], then the size of mother substrate (M) is 1221.579~1357.331 * 1404.976~1558.739.This numerical value is closely similar with the numerical value that obtains from the form of Fig. 2.
When on mother substrate, providing six LCD plates according to the model of LCD plate under the above-mentioned condition of the thickness of the weight ratio of the stilt that in virtual region, surplus, sealant, comprises and coat, realize 90% or the size of the substrate of higher substrate efficient following detailed description.
Fig. 5 is the form that 90% and 100% substrate efficient is shown according to the present invention when arranging six LCD plates according to the model of LCD plate on a mother substrate.Fig. 6 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 5 is shown.Fig. 7 is the chart that the length variations of mother substrate Y-axis (major axis) in the form of Fig. 5 is shown.
At first, if arrange the LCD plate of six 23 inches models, then the size of mother substrate satisfies 994~1049 * 1085~1206mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 26 inches models of arrangement under above-mentioned surplus condition (26WX, image scaled is 16: 9, the IPS pattern, catercorner length is 26 inches, board size is 590.9 * 341.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1353 * 1555mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1058 * 1218mm 2Therefore, if arrange the LCD plate of six 26 inches models, then the size of mother substrate satisfies 1058~1175 * 1218~1353mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 32 inches models of arrangement under above-mentioned surplus condition (32WX, image scaled is 16: 9, the IPS pattern, catercorner length is 31.5 inches, board size is 715.0 * 413.05mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1415 * 1630mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1273 * 1467mm 2Therefore, if arrange the LCD plate of six 32 inches models, then the size of mother substrate satisfies 1273~1415 * 1467~1630mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 37 inches models of arrangement under above-mentioned surplus condition (37WU, image scaled is 16: 9, the IPS pattern, catercorner length is 37.0 inches, board size is 846.0 * 485.2mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1656 * 1923mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1490 * 1730mm 2Therefore, if arrange the LCD plate of six 37 inches models, then the size of mother substrate satisfies 1490~1656 * 1730~1923mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 40 inches models of arrangement under above-mentioned surplus condition (40WU, image scaled is 16: 9, the IPS pattern, catercorner length is 39.8 inches, board size is 906.2 * 521.4mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1777 * 2057mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1599 * 1851mm 2Therefore, if arrange the LCD plate of six 40 inches models, then the size of mother substrate satisfies 1599~1777 * 1851~2057mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 42 inches models of arrangement under above-mentioned surplus condition (42WU, image scaled is 16: 9, the IPS pattern, catercorner length is 42 inches, board size is 956.0 * 549.0mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 1869 * 2168mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1682 * 1952mm 2Therefore, if arrange the LCD plate of six 42 inches models, then the size of mother substrate satisfies 1682~1869 * 1952~2168mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 46 inches models of arrangement under above-mentioned surplus condition (46WU, image scaled is 16: 9, the IPS pattern, catercorner length is 46.1 inches, board size is 1043.0 * 600.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2042 * 2363mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1838 * 2126mm 2Therefore, if arrange the LCD plate of six 46 inches models, then the size of mother substrate satisfies 1838~2042 * 2126~2363mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 47 inches models of arrangement under above-mentioned surplus condition (47WU, image scaled is 16: 9, the IPS pattern, catercorner length is 47 inches, board size is 1065.0 * 610.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2075 * 2412mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1868 * 2171mm 2Therefore, if arrange the LCD plate of six 47 inches models, then the size of mother substrate satisfies 1868~2075 * 2171~2412mm 2To realize 90% or higher substrate efficient.
If under above-mentioned surplus condition, arrange six 49 inches models ' the LCD plate (49WU, image scaled is 16: 9, the IPS pattern, catercorner length is 49 inches, board size is 1115.6 * 640.9mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2177 * 2525mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1959 * 2272mm 2Therefore, if arrange the LCD plate of six 49 inches models, then the size of mother substrate satisfies 1959~2177 * 2272~2525mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 50 inches models of arrangement under above-mentioned surplus condition (50WU, image scaled is 16: 9, the IPS pattern, catercorner length is 49.7 inches, board size is 1127.5 * 646.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2196 * 2551mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 1976 * 2296mm 2Therefore, if arrange the LCD plate of six 50 inches models, then the size of mother substrate satisfies 1976~2196 * 2296~2551mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 52 inches models of arrangement under above-mentioned surplus condition (52WU, image scaled is 16: 9, the IPS pattern, catercorner length is 52 inches, board size is 1174.5 * 670.5mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2276 * 2656mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2048 * 2391mm 2Therefore, if arrange the LCD plate of six 52 inches models, then the size of mother substrate satisfies 2048~2276 * 2391~2656mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 55 inches models of arrangement under above-mentioned surplus condition (55WU, image scaled is 16: 9, the IPS pattern, catercorner length is 54.6 inches, board size is 1233.0 * 710.0mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2408 * 2787mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2167 * 2508mm 2Therefore, if arrange the LCD plate of six 55 inches models, then the size of mother substrate satisfies 2167~2408 * 2508~2787mm 2To realize 90% or higher substrate efficient.
Though not shown in Fig. 5, if under above-mentioned surplus condition, arrange six 57 inches models the LCD plate (57WU, image scaled is 16: 9, the IPS pattern, catercorner length is 56.7 inches, board size is 1276.0 * 727.2mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2465 * 2884mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2219 * 2595mm 2Therefore, if arrange the LCD plate of six 57 inches models, then the size of mother substrate satisfies 2219~2465 * 2595~2884mm 2To realize 90% or higher substrate efficient.
If the LCD plate of six 65 inches models of arrangement under above-mentioned surplus condition (65WU, image scaled is 16: 9, the IPS pattern, catercorner length is 65.0 inches, board size is 1476.0 * 846.0mm 2), be 90% o'clock then in substrate efficient, the size of mother substrate is corresponding to 2863 * 3330mm 2, and be 100% o'clock in substrate efficient, the size of mother substrate is corresponding to 2576 * 2997mm 2Therefore, if arrange the LCD plate of six 65 inches models, then the size of mother substrate satisfies 2576~2863 * 2997~3330mm 2To realize 90% or higher substrate efficient.
With reference to Fig. 6,, then can estimate to be used to realize 90% or the size of the mother substrate of higher substrate efficient if arrange the LCD plate of six other models.
Fig. 6 is the chart that the length variations of mother substrate X-axis (minor axis) in the form of Fig. 5 is shown.Fig. 7 is the chart that the length variations of mother substrate Y-axis (major axis) in the form of Fig. 5 is shown.
As shown in Fig. 6 and Fig. 7, if figure expresses the substrate efficient of each size, then figure line is near straight line (linear equation, R 2=0.9998 or R 2=0.9997), is expressed as follows.
At first, (X mm) can be with the size of each LCD plate (actual catercorner length, inch, L) expression for the length of the minor axis of mother substrate.
X=42.96L+61.387[equation 6]
Above-mentioned [equation 6] is illustrated on the mother substrate six LCD plates arranging each model and the efficient of substrate is the length (X) of 90% o'clock minor axis.
X=38.664L+55.248[equation 7]
Above-mentioned [equation 7] is illustrated on the mother substrate six LCD plates arranging each model and the efficient of substrate is the length (X) of 100% o'clock minor axis.
Simultaneously, (Y mm) can be with the size of each LCD plate (actual catercorner length, inch, L) expression for the length of the major axis of mother substrate.
Y=50.333L+48.673[equation 8]
Above-mentioned [equation 8] is illustrated on the mother substrate six LCD plates arranging each model and the efficient of substrate is the length (Y) of 90% o'clock major axis.
Y=45.299L+43.805[equation 9]
Above-mentioned [equation 9] is illustrated on the mother substrate six LCD plates arranging each model and the efficient of substrate is the length (Y) of 100% o'clock major axis.
Based on above-mentioned [equation 6], [equation 7], [equation 8] and [equation 9], when six LCD plates arranging each model on mother substrate and substrate efficient are 90% or more for a long time, the size of mother substrate (M) is expressed as following [equation 10].
M=(38.664L+55.248)~(42.96L+61.387)×(45.299L+43.805)~(50.333L+48.673)
[equation 10]
For example, in the LCD of 52 inches models plate, actual catercorner length (L) is 52 inches.If 52 inches actual catercorner lengths (L) are applied to above-mentioned [equation 10], then the size of mother substrate (M) is 2065.776~2295.307 * 2399.353~2665.989.This numerical value is closely similar with the numerical value that obtains from the form of Fig. 5.
The model of IPS or TN pattern has been described in Fig. 2 to Fig. 7.But, be not limited to these patterns.For example, when not considering the model of VA, OCB, ECB or FLCD pattern, also can estimate optimum-size with the inch numerical value corresponding mother substrate of LCD plate.Except above-mentioned image scaled, various image scaleds such as can use 16: 10,4: 3,5: 4.
As mentioned above, when arranging the LCD plate of six 26 inches models during with the LCD plate of eight 23 inches models of arrangement mother substrate have similar size.That is to say, the LCD plate of arranging eight 23 inches models with realize 90% or during higher substrate efficient the size of mother substrate satisfy 1085~1206 * 1248~1387mm 2, and the LCD plate of arranging six 26 inches models with realize 90% or during higher substrate efficient the size of mother substrate satisfy 1058~1175 * 1218~1353mm 2In the above-mentioned condition relevant with the size of mother substrate, the optimum-size of mother substrate is 1100 * 1250mm 2
To illustrate at mother substrate (1100 * 1250mm below 2) go up the LCD plate of eight 23 inches models of arrangement and (1100 * 1250mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 26 inches models.Fig. 8 A to Fig. 8 I illustrates according to first embodiment of the invention have 1100 * 1250mm 2The layout of each model LCD plate on the mother substrate of size.
Fig. 8 A is illustrated in has 1100 * 1250mm 226 inches models of arrangement on the mother substrate of size (26WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26 inches, board size is 590.9 * 341.5mm 2) the layout of six LCD plates (2 row * 3 row).That is to say that virtual region is 15mm, surplus be the LCD plate length 2~4%.On long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 11.4mm surplus in marks for treatment center, arrange the LCD plate of six 26 inches models with 2 one-tenth 12.7mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 12.7mm, and the surplus between every row is 11.4mm.
In Fig. 8 A, arrange the LCD plate of six 26 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.And margin value is not limited to foregoing description, it can be controlled in ± 30% in.According to the above-mentioned arrangement of LCD plate on mother substrate, can realize 90% or higher substrate efficient.
Fig. 8 B is illustrated in has 1100 * 1250mm 223 inches models of arrangement on the mother substrate of size (23WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 22.95 inches, board size is 523.7 * 302.7mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say that virtual region is 10mm, surplus be the LCD plate length 1%.On long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, to become 10mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 6mm surplus in marks for treatment center, arrange the LCD plate of eight 23 inches models with 2 one-tenth 2.85mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 4.5mm, and the surplus between every row is 12.6mm.
In Fig. 8 B, arrange the LCD plate of eight 23 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.And margin value is not limited to foregoing description, it can be controlled in ± 30% in.According to the above-mentioned arrangement of LCD plate on mother substrate, can realize 90% or higher substrate efficient.
Fig. 8 C is illustrated in has 1100 * 1250mm 224 inches models of arrangement on the mother substrate of size (24WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 23.93 inches, board size is 529 * 336mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of six 24 inches models with matrix-style (2 row * 3 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Fig. 8 D is illustrated in has 1100 * 1250mm 217 inches models of arrangement on the mother substrate of size (17SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 17.04 inches, board size is 347 * 278.9mm 2) 12 LCD plates (4 row * 3 row) and on this substrate, arrange 7 inches wide modes the LCD plate (7X, image scaled is 16: 9, the TN pattern, board size is 162.7 * 90.2mm 2) layout.If only arrange the LCD plate of 12 17 inches wide modes, then substrate efficient is lower than 90%.But, if on mother substrate the additional LCD plate that six 7 inches wide modes are set, then can realize 90% or higher substrate efficient.That is to say, the LCD plate of 12 17 inches wide modes to above-mentioned similar surplus condition under arrange with matrix-style (4 row * 3 row); And the LCD plate of six 7 inches wide modes becomes row to arrange, and wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Fig. 8 E is illustrated in has 1100 * 1250mm 215 inches models of arrangement on the mother substrate of size (15X, image scaled is 4: 3, the TN pattern, actual catercorner length is 14.97 inches, board size is 312.2 * 235.6mm 2) the layout of 15 LCD plates (5 row * 3 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 15 15 inches models with matrix-style (5 row * 3 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Fig. 8 F is illustrated in has 1100 * 1250mm 2Arrange on the mother substrate of size 12.1 inches models being used for notebook computer (12.1XGA, image scaled is 4: 3, the TN pattern, board size is 254.5 * 192.6mm 2) the layout of 24 LCD plates (6 row * 4 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 24 12.1 inches models with matrix-style (6 row * 4 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Fig. 8 G is illustrated in has 1100 * 1250mm 2Arrange the layout of eight LCD plates (4 row * 2 row) of the 22 inches models (22WSX) that are used for monitor on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of eight 22 inches models with matrix-style (4 row * 2 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Fig. 8 H is illustrated in has 1100 * 1250mm 2Arrange the layout of 12 LCD plates (4 row * 3 row) of the 18 inches models (18WX, image scaled is 16: 10, the TN pattern) that are used for monitor on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 12 18 inches models with matrix-style (4 row * 3 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Fig. 8 I is illustrated in has 1100 * 1250mm 214.1 inches models of arrangement on the mother substrate of size (14.1W, image scaled is 16: 10, the TN pattern, actual catercorner length is 14.08 inches, board size is 311.74 * 197.44mm 2) 18 LCD plates (6 row * 3 row) and on this mother substrate, arrange 12 4 inches models the LCD plate (image scaled is 3: 4, the TN pattern, board size is 91.6 * 71.2mm 2) layout.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 18 14.1 inches models with matrix-style (6 row * 3 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, on mother substrate, the LCD plate of 12 4 inches models is arranged in delegation.In this case, with the very little LCD plate that is spaced 14.1 inches models.
In Fig. 2 to Fig. 4, if arrange eight 26 inches models the LCD plate (26WX, image scaled is 16: 9, the IPS pattern, catercorner length is 26.0 inches, board size is 590.9 * 341.5mm 2), then be used to realize 90% or the size of the mother substrate of higher substrate efficient satisfy 1218~1353 * 1399~1555mm 2The optimum-size of mother substrate is corresponding to 1300 * 1500mm 2
Fig. 9 has 1300 * 1500mm according to second embodiment of the invention 2Arrange the layout of eight 26 inches model LCD plates on the mother substrate of size.
That is to say that as shown in Figure 9, virtual region is 15mm, surplus be the LCD plate length 0.3~5%.On long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 20mm surplus in marks for treatment center, arrange the LCD plate of eight 26 inches models with 2 one-tenth 20.5mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 21mm, and the surplus between every row is 50.2mm.In Fig. 9, arrange the LCD plate of 26 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
As mentioned above, when arranging the LCD plate of eight 32 inches models during with the LCD plate of six 37 inches models of arrangement mother substrate have similar size.In order to realize 90% or higher substrate efficient, the size of mother substrate satisfies 1467~1630 * 1686~1873mm when arranging the LCD plate of eight 32 inches wide modes 2, and the size of mother substrate satisfies 1490~1656 * 1730~1923mm when arranging the LCD plate of six 37 inches models 2
In the above-mentioned condition relevant with the size of mother substrate, the optimum-size of mother substrate is 1500 * 1850mm 2
To illustrate at mother substrate (1500 * 1850mm below 2) go up the LCD plate of eight 32 inches models of arrangement and (1500 * 1850mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 37 inches models.Figure 10 A to Figure 10 J illustrates according to third embodiment of the invention have 1500 * 1850mm 2The layout of each model LCD plate on the mother substrate of size.
Figure 10 A is illustrated in has 1500 * 1850mm 232 inches models of arrangement on the mother substrate of size (32WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 31.5 inches, board size is 715.0 * 413.05mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say that virtual region is 15mm, surplus be the LCD plate length 0.3~5%.On long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 11mm surplus in marks for treatment center, arrange the LCD plate of eight 32 inches models with 2 one-tenth 31.4mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 35mm, and the surplus between every row is 20mm.In Figure 10 A, arrange the LCD plate of eight 32 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 10 B is illustrated in has 1500 * 1850mm 237 inches models of arrangement on the mother substrate of size (37WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 37.0 inches, board size is 846.0 * 485.2mm 2) the layout of six LCD plates (2 row * 3 row).That is to say that virtual region is 15mm, surplus be the LCD plate length 0.3~5%.On long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 3.2mm surplus in marks for treatment center, arrange the LCD plate of six 37 inches models with 2 one-tenth 34mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 60mm, and the surplus between every row is 5mm.In Figure 10 B, arrange the LCD plate of six 37 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 10 C is illustrated in has 1500 * 1850mm 2Arrange the layout of 18 LCD plates (6 row * 3 row) of the 20.1 inches models (20.1WSX, image scaled is 16: 9, the IPS pattern) that are used for monitor on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 18 20.1 inches models with matrix-style (6 row * 3 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 10 D is illustrated in has 1500 * 1850mm 2Arrange on the mother substrate of size 20.1 inches models being used for monitor (20.1X, image scaled is 4: 3, the IPS pattern, actual catercorner length is 20.08 inches, board size is 422.5 * 317.5mm 2) the layout of 16 LCD plates (4 row * 4 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 16 20.1 inches models with matrix-style (4 row * 4 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 10 E is illustrated in has 1500 * 1850mm 217 inches models of arrangement on the mother substrate of size (17SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 17.04 inches, board size is 347 * 278.9mm 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 18 17 inches models with matrix-style (6 row * 3 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 10 F is illustrated in has 1500 * 1850mm 230 inches models of arrangement on the mother substrate of size (30WQX, image scaled is 16: 10, the IPS pattern, actual catercorner length is 29.95 inches, board size is 661 * 419mm 2) the layout of 8 LCD plates (4 row * 2 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 8 30 inches models with matrix-style (4 row * 2 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 10 G is illustrated in has 1500 * 1850mm 217 inches models of arrangement on the mother substrate of size (17SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 17.04 inches, board size is 347 * 278.9mm 2) 24 LCD plates (6 row * 4 row) and on this mother substrate, arrange six 8 inches models (8W, image scaled is 16: 9, the IPS pattern, board size is 191.6 * 115.2mm 2) the layout of LCD plate.That is to say, the LCD plate of 24 17 inches models to above-mentioned similar surplus condition under arrange with matrix-style (6 row * 4 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, the LCD plate with six 8 inches models is arranged in delegation.
Figure 10 H is illustrated in has 1500 * 1850mm 220 inches models of arrangement on the mother substrate of size (20WSX, image scaled is 16: 9, the TN pattern, board size is 452.584 * 258.832mm 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 18 20 inches models with matrix-style (6 row * 3 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 10 I is illustrated in has 1500 * 1850mm 226 inches models of arrangement on the mother substrate of size (26WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26.0 inches, board size is 590.9 * 341.5mm 2) the layout of 12 LCD plates (4 row * 3 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 12 26 inches models with matrix-style (4 row * 3 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 10 J is illustrated in has 1500 * 1850mm 242 inches models of arrangement on the mother substrate of size (42WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 42 inches, board size is 956.0 * 549.0mm 2) three LCD plates (3 row * 1 row) and the layout of on this substrate, arranging six LCD plates (6 row * 1 row) of 20.1 inches models (20.1WSX, image scaled is 16: 9, the IPS pattern).That is to say, the LCD plate of 3 42 inches models to above-mentioned similar surplus condition under arrange with matrix-style (3 row * 1 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, the LCD plate with six 20.1 inches models is arranged in delegation.
In addition, when arranging the LCD plate of eight 42 inches models during with the LCD plate of six 47 inches models of arrangement mother substrate have similar size.In order to realize 90% or higher substrate efficient, when arranging the LCD plate of eight 42 inches models, the size of mother substrate satisfies 1952~2168 * 2231~2479mm 2, and when arranging the LCD plate of six 47 inches models, the size of mother substrate satisfies 1868~2075 * 2171~2412mm 2Under these conditions, the optimum-size that satisfies the mother substrate of above-mentioned two kinds of situations is 1950 * 2250mm 2
To illustrate at mother substrate (1950 * 2250mm below 2) go up the LCD plate of eight 42 inches models of arrangement and (1950 * 2250mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 47 inches models.Figure 11 A to Figure 11 S illustrates according to four embodiment of the invention have 1950 * 2250mm 2The layout of each model LCD plate on the mother substrate of size.
Figure 11 A is illustrated in has 1950 * 2250mm 242 inches models of arrangement on the mother substrate of size (42WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 42 inches, board size is 956.0 * 549.0mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 2.5mm surplus in marks for treatment center, arrange the LCD plate of eight 42 inches models with 2 one-tenth 3mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 6mm, and the surplus between every row is 5mm.In Figure 11 A, arrange the LCD plate of eight 42 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, and margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 11 B is illustrated in has 1950 * 2250mm 247 inches models of arrangement on the mother substrate of size (47WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 46.96 inches, board size is 1065 * 614mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 14mm with the edge of mother substrate, and on short-axis direction, exposed region 4 on every side is set at interval to become 27mm with the edge of mother substrate.Arrange the LCD plate of six 47 inches models with matrix-style (2 row * 3 row) in the zone that becomes the 17.5mm surplus with the 1 one-tenth 14mm surplus in marks for treatment center, with exposed region on every side, the surplus between wherein every row is 31mm, and the surplus between every row is 26mm.In Figure 11 B, arrange the LCD plate of six 47 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, and margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 11 C is illustrated in has 1950 * 2250mm 2Arrange the layout of the LCD plate (11 row * 6 row) of 66 14.1 inches models on the mother substrate of size.That is to say that arrange the LCD plate of 66 14.1 inches models with matrix-style (11 row * 6 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 D is illustrated in has 1950 * 2250mm 215.4 inches models of arrangement on the mother substrate of size (15.4W, image scaled is 16: 10, the TN pattern, actual catercorner length is 15.38 inches, board size is 339.8 * 215mm 2) 50 LCD plates (10 row * 5 row) and the layout of on this substrate, arranging the LCD plate of 32 4 inches models of delegation.That is to say, the LCD plate of 50 15.4 inches models to above-mentioned similar surplus condition under arrange with matrix-style (10 row * 4 row), and the LCD plate of 32 4 inches models is arranged in delegation, wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 E is illustrated in has 1950 * 2250mm 2Arrange the layout of 54 LCD plates (9 row * 6 row) of 15 inches models on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 54 15 inches models with matrix-style (9 row * 6 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 F is illustrated in has 1950 * 2250mm 2Arrange the layout of 40 LCD plates (5 row * 8 row) of 17 inches models (image scaled is 15: 9) on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 40 17 inches models with matrix-style (5 row * 8 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 G is illustrated in has 195 * 2250mm 2Arrange 40 LCD plates (5 row * 8 row) of 17 inches models (image scaled is 15: 9) and the layout of on this mother substrate, arranging the LCD plate of 16 8 inches models of row on the mother substrate of size.That is to say, the LCD plate of 40 17 inches models to above-mentioned similar surplus condition under arrange with matrix-style (5 row * 8 row), and the LCD plate of 16 8 inches models is arranged in row, wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 H is illustrated in has 1950 * 2250mm 2Arrange the layout of 45 LCD plates (9 row * 5 row) of 17 inches models (image scaled is 15: 10) on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 45 17 inches models with matrix-style (9 row * 5 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 I is illustrated in has 1950 * 2250mm 2Arrange the layout of 30 LCD plates (5 row * 6 row) of 20.1 inches models (image scaled is 4: 3) on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 30 20.1 inches models with matrix-style (5 row * 6 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 J is illustrated in has 1950 * 2250mm 219 inches models of arrangement on the mother substrate of size (19.0SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 18.97 inches, board size is 387 * 312mm 2) the layout of 30 LCD plates (5 row * 6 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 30 19 inches models with matrix-style (5 row * 6 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 K is illustrated in has 1950 * 2250mm 219 inches models of arrangement on the mother substrate of size (19.0SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 18.97 inches, board size is 387 * 312mm 2) 30 LCD plates (5 row * 6 row) and the layout of on this mother substrate, arranging the LCD plate of 12 8 inches models.That is to say, the LCD plate of 30 19 inches models to above-mentioned similar surplus condition under arrange with matrix-style (5 row * 6 row), and the LCD plate of 12 8 inches models is arranged in row on this mother substrate, and wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 L is illustrated in has 1950 * 2250mm 2Arrange the layout of 32 LCD plates (8 row * 4 row) of 20 inches models on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 32 20 inches models with matrix-style (8 row * 4 row), wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 M is illustrated in has 1950 * 2250mm 2Arrange the layout of 24 LCD plates (4 row * 6 row) of 23 inches models (image scaled is 16: 9) on the mother substrate of size.That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 24 23 inches models with matrix-style (4 row * 6 row), wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 N is illustrated in has 1950 * 2250mm 2Arrange 20 LCD plates (4 row * 5 row) of 23 inches models (image scaled is 16: 9) and the layout of on this mother substrate, arranging the LCD plate of 4 20.1 inches models of delegation on the mother substrate of size.That is to say, the LCD plate of 20 23 inches models to above-mentioned similar surplus condition under arrange with matrix-style (4 row * 5 row), and the LCD plate of 4 20.1 inches models is arranged in delegation on this mother substrate, and wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 O is illustrated in has 1950 * 2250mm 2Arrange 24 LCD plates (4 row * 6 row) of 23 inches models (image scaled is 16: 9) on the mother substrate of size and on this substrate, arrange 12 6.5 inches models of delegation (6.5W, image scaled is 16: 9, the IPS pattern, board size is 158 * 93.3mm 2) the layout of LCD plate.That is to say, the LCD plate of 24 23 inches models to above-mentioned similar surplus condition under arrange with matrix-style (4 row * 6 row), and the LCD plate of 12 6.5 inches models is arranged in delegation on this mother substrate, and wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 P is illustrated in has 1950 * 2250mm 226 inches models of arrangement on the mother substrate of size (26WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26 inches, board size is 590.9 * 341.5mm 2) 18 LCD plates (6 row * 3 row) and on this mother substrate, arrange 6 10 inches models of row (10W, image scaled is 15: 9, the IPS pattern, board size is 233.8 * 145.7mm 2) the layout of LCD plate.That is to say, the LCD plate of 18 26 inches models to above-mentioned similar surplus condition under arrange with matrix-style (6 row * 3 row), and the LCD plate of 6 10 inches models is arranged in row on this mother substrate, and wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 Q is illustrated in has 1950 * 2250mm 2Arrange 18 LCD plates (6 row * 3 row) of 26 inches models (image scaled is 16: 10) and the layout of on this mother substrate, arranging the LCD plate of 18 6.5 inches models of delegation on the mother substrate of size.That is to say, the LCD plate of 18 26 inches models to above-mentioned similar surplus condition under arrange with matrix-style (6 row * 3 row), and the LCD plate of 18 6.5 inches models is arranged in delegation on this mother substrate, and wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 11 R is illustrated in has 1950 * 2250mm 2Arrange 12 LCD plates (3 row * 4 row) of 32 inches models (image scaled is 16: 9) on the mother substrate of size and (image scaled is 15: 9 to arrange 3 17 inches models of delegation on this mother substrate, the IPS pattern, actual catercorner length is 17.10 inches, and board size is 384.68 * 235.688mm 2) the layout of LCD plate.That is to say, the LCD plate of 12 32 inches models to above-mentioned similar surplus condition under arrange with matrix-style (3 row * 4 row), and the LCD plate of 3 17 inches models is arranged in delegation on this mother substrate, and wherein the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 11 S is illustrated in has 1950 * 2250mm 2Arrange 3 LCD plates (3 row * 1 row) of 55 inches models and the layout of on this substrate, arranging the LCD plate of 6 26 inches models of delegation (image scaled is 16: 9) on the mother substrate of size.That is to say, the LCD plate of 3 55 inches models to above-mentioned similar surplus condition under arrange with matrix-style (3 row * 1 row), and the LCD plate of 6 26 inches models is arranged in delegation on this mother substrate, and wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
In addition, when arranging the LCD plate of eight 40 inches models during with the LCD plate of six 47 inches models of arrangement mother substrate have similar size.In order to realize 90% or higher substrate efficient, when arranging the LCD plate of eight 40 inches models, the size of mother substrate satisfies 1851~2057 * 2121~2356mm 2, and when arranging the LCD plate of six 47 inches models, the size of mother substrate satisfies 1868~2075 * 2171~2412mm 2Under these conditions, the optimum-size that satisfies the mother substrate of above-mentioned two kinds of situations is 1870 * 2200mm 2
To illustrate at mother substrate (1870 * 2200mm below 2) go up the LCD plate of eight 40 inches models of arrangement and (1870 * 2200mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 47 inches models.Figure 12 A to Figure 12 M illustrates according to fifth embodiment of the invention have 1870 * 2200mm 2The layout of each model LCD plate on the mother substrate of size.
Figure 12 A is illustrated in has 1870 * 2200mm 240 inches models of arrangement on the mother substrate of size (40WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 39.8 inches, board size is 906 * 521mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 9.3mm surplus in marks for treatment center, arrange the LCD plate of eight 40 inches models with 2 one-tenth 17.2mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 17.2mm, and the surplus between every row is 9.4mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 1.1%, and the surplus on the mother substrate long axis direction be the LCD plate length 3.3%.In Figure 12 A, arrange the LCD plate of eight 40 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.And margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 12 B is illustrated in has 1870 * 2200mm 247 inches models of arrangement on the mother substrate of size (47WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 47 inches, board size is 1065 * 610.5mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 2.1mm surplus in marks for treatment center, arrange the LCD plate of six 47 inches models with 2 one-tenth 13.3mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 13.3mm, and the surplus between every row is 2.1mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 0.35%, and the surplus on the mother substrate long axis direction be the LCD plate length 3.3%.In Figure 12 B, arrange the LCD plate of six 47 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, and margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 12 C is illustrated in has 1870 * 2200mm 246 inches models of arrangement on the mother substrate of size (46WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 46.1 inches, board size is 1043 * 600.5mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 9.25mm surplus in marks for treatment center, arrange the LCD plate of six 46 inches models with 2 one-tenth 28mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 28mm, and the surplus between every row is 10mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 1.67%, and the surplus on the mother substrate long axis direction be the LCD plate length 2.68%.In Figure 12 C, arrange the LCD plate of six 46 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, and margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 12 D is illustrated in has 1870 * 2200mm 232 inches models of arrangement on the mother substrate of size (32WX, image scaled is 16: 10, the IPS pattern, actual catercorner length is 31.5 inches, board size is 715 * 413mm 2) the layout of 12 LCD plates (3 row * 4 row).That is to say, arrange the LCD plate of 12 32 inches models with matrix-style (3 row * 4 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 12 E is illustrated in has 1870 * 2200mm 226 inches models of arrangement on the mother substrate of size (26WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26 inches, board size is 590.9 * 341.5mm 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, arrange the LCD plate of 18 26 inches models with matrix-style (6 row * 3 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 12 F is illustrated in has 1870 * 2200mm 223 inches models of arrangement on the mother substrate of size (23WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 22.95 inches, board size is 523.7 * 302.7mm 2) the layout of 24 LCD plates (4 row * 6 row).That is to say, arrange the LCD plate of 24 23 inches models with matrix-style (4 row * 6 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 12 G is illustrated in has 1870 * 2200mm 2(board size is 700 * 455.5mm to arrange 32 inches models on the mother substrate of size 2) the layout of 12 LCD plates (3 row * 4 row).That is to say, arrange the LCD plate of 12 32 inches models with matrix-style (3 row * 4 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 12 H is illustrated in has 1870 * 2200mm 2(board size is 565 * 359mm to arrange 26 inches models on the mother substrate of size 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, arrange the LCD plate of 18 26 inches models with matrix-style (6 row * 3 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 12 I is illustrated in has 1870 * 2200mm 2(board size is 531.9 * 337.5mm to arrange 24 inches models on the mother substrate of size 2) the layout of 20 LCD plates (4 row * 5 row).That is to say, arrange the LCD plate of 20 24 inches models with matrix-style (4 row * 5 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 12 J is illustrated in has 1870 * 2200mm 2(board size is 447.6 * 285.1mm to arrange 20 inches models on the mother substrate of size 2) the layout of 28 LCD plates (7 row * 4 row).That is to say, arrange the LCD plate of 28 20 inches models with matrix-style (7 row * 4 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 12 K is illustrated in has 1870 * 2200mm 2(board size is 430.2 * 274.7mm for 19WU, IPS pattern to arrange 19 inches models on the mother substrate of size 2) the layout of 32 LCD plates (8 row * 4 row).That is to say, arrange the LCD plate of 32 19 inches models with matrix-style (8 row * 4 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 12 L is illustrated in has 1870 * 2200mm 219 inches models of arrangement on the mother substrate of size (19SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 18.97 inches, board size is 387 * 312mm 2) the layout of 24 LCD plates (6 row * 4 row).That is to say, arrange the LCD plate of 24 19 inches models with matrix-style (6 row * 4 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 12 M is illustrated in has 1870 * 2200mm 217 inches models of arrangement on the mother substrate of size (17SX, image scaled is 5: 4, the TN pattern, actual catercorner length is 17.04 inches, board size is 347 * 278.9mm 2) the layout of 36 LCD plates (6 row * 6 row).That is to say, arrange the LCD plate of 36 17 inches models with matrix-style (6 row * 6 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
In addition, when arranging the LCD plate of eight 47 inches models during with the LCD plate of six 55 inches models of arrangement mother substrate have similar size.In order to realize 90% or higher substrate efficient, when arranging the LCD plate of eight 47 inches models, the size of mother substrate satisfies 2171~2412 * 2478~2753mm 2, and when arranging the LCD plate of six 55 inches models, the size of mother substrate satisfies 2167~2408 * 2508~2787mm 2Under these conditions, the optimum-size that satisfies the mother substrate of above-mentioned two kinds of situations is 2200 * 2500mm 2
To illustrate at mother substrate (2200 * 2500mm below 2) go up the LCD plate of eight 47 inches models of arrangement and (2200 * 2500mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 55 inches models.Figure 13 A to Figure 13 G illustrates according to sixth embodiment of the invention have 2200 * 2500mm 2The layout of each model LCD plate on the mother substrate of size.
Figure 13 A is illustrated in has 2200 * 2500mm 247 inches models of arrangement on the mother substrate of size (47WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 47.0 inches, board size is 1065 * 610.5mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 13.3mm surplus in marks for treatment center, arrange the LCD plate of eight 47 inches models with 2 one-tenth 6mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 6mm, and the surplus between every row is 13.3mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 1.6%, and the surplus on the mother substrate long axis direction be the LCD plate length 1%.In Figure 13 A, arrange the LCD plate of eight 47 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 13 B is illustrated in has 2200 * 2500mm 255 inches models of arrangement on the mother substrate of size (55WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 54.6 inches, board size is 1233 * 710mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 10mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 10mm surplus in marks for treatment center, arrange the LCD plate of six 55 inches models with 2 one-tenth 4.7mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 4.6mm, and the surplus between every row is 10mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 1.5%, and the surplus on the mother substrate long axis direction be the LCD plate length 0.4%.In Figure 13 B, arrange the LCD plate of six 55 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 13 C is illustrated in has 2200 * 2500mm 252 inches models of arrangement on the mother substrate of size (52WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 52 inches, board size is 1174.5 * 670.5mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 39.25mm surplus in marks for treatment center, arrange the LCD plate of six 52 inches models with 2 one-tenth 40mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 41mm, and the surplus between every row is 40mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 6%, and the surplus on the mother substrate long axis direction be the LCD plate length 3.5%.In Figure 13 C, arrange the LCD plate of six 52 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 13 D is illustrated in has 2200 * 2500mm 232 inches models of arrangement on the mother substrate of size (32WX, image scaled is 16: 10, the IPS pattern, actual catercorner length is 31.5 inches, board size is 715 * 413mm 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, arrange the LCD plate of 18 32 inches models with matrix-style (6 row * 3 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 13 E is illustrated in has 2200 * 2500mm 226 inches models of arrangement on the mother substrate of size (26WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26 inches, board size is 590.9 * 341.5mm 2) the layout of 24 LCD plates (4 row * 6 row).That is to say, arrange the LCD plate of 24 26 inches models with matrix-style (4 row * 6 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 13 F is illustrated in has 2200 * 2500mm 2(board size is 531.9 * 337.5mm to arrange 24 inches models on the mother substrate of size 2) the layout of 28 LCD plates (7 row * 4 row).That is to say, arrange the LCD plate of 28 24 inches models with matrix-style (7 row * 4 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 13 G is illustrated in has 2200 * 2500mm 2(board size is 483.26 * 305.6mm to arrange 22 inches models on the mother substrate of size 2) the layout of 35 LCD plates (5 row * 7 row).That is to say, arrange the LCD plate of 35 22 inches models with matrix-style (5 row * 7 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
In addition, when arranging the LCD plate of eight 47 inches models during with the LCD plate of six 57 inches models of arrangement mother substrate have similar size.In order to realize 90% or higher substrate efficient, when arranging the LCD plate of eight 47 inches models, the size of mother substrate satisfies 2171~2412 * 2478~2753mm 2, and when arranging the LCD plate of six 57 inches models, the size of mother substrate satisfies 2167~2408 * 2508~2787mm 2Under these conditions, the optimum-size that satisfies the mother substrate of above-mentioned two kinds of situations is 2230 * 2600mm 2
To illustrate at mother substrate (2230 * 2600mm below 2) go up the LCD plate of eight 47 inches models of arrangement and (1870 * 2200mm on mother substrate 2) arrange the layout under the situation of LCD plate of six 57 inches models.Figure 14 A to Figure 14 J illustrates according to seventh embodiment of the invention have 2230 * 2600mm 2The layout of each model LCD plate on the mother substrate of size.
Figure 14 A is illustrated in has 2230 * 2600mm 247 inches models of arrangement on the mother substrate of size (47WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 47.0 inches, board size is 1065 * 610.5mm 2) the layout of eight LCD plates (4 row * 2 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 23.3mm surplus in marks for treatment center, arrange the LCD plate of eight 47 inches models with 2 one-tenth 26mm surpluses of virtual region by matrix-style (4 row * 2 row), the surplus between wherein every row is 26mm, and the surplus between every row is 23.3mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 2.2%, and the surplus on the mother substrate long axis direction be the LCD plate length 4.3%.In Figure 14 A, arrange the LCD plate of eight 47 inches models with matrix-style (4 row * 2 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 14 B is illustrated in has 2230 * 2600mm 257 inches models of arrangement on the mother substrate of size (57WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 57.0 inches, board size is 1276.2 * 727.2mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 4.6mm surplus in marks for treatment center, arrange the LCD plate of six 57 inches models with 2 one-tenth 5.9mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 5.8mm, and the surplus between every row is 4.6mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 0.6%, and the surplus on the mother substrate long axis direction be the LCD plate length 0.5%.In Figure 14 B, arrange the LCD plate of six 57 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 14 C is illustrated in has 2230 * 2600mm 252 inches models of arrangement on the mother substrate of size (52WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 52 inches, board size is 11 74.5 * 670.5mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 47.25mm surplus in marks for treatment center, arrange the LCD plate of six 52 inches models with 2 one-tenth 73.5mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 74mm, and the surplus between every row is 47mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 7%, and the surplus on the mother substrate long axis direction be the LCD plate length 6.3%.In Figure 14 C, arrange the LCD plate of six 52 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 14 D is illustrated in has 2230 * 2600mm 255 inches models of arrangement on the mother substrate of size (55WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 54.6 inches, board size is 1233 * 710mm 2) the layout of six LCD plates (2 row * 3 row).That is to say, on long axis direction, becoming at interval set handling mark center 1 of 15mm with the edge of mother substrate, and on short-axis direction, to become 15mm that virtual region 2 is set at interval with the edge of mother substrate.With with the 1 one-tenth 26mm surplus in marks for treatment center, arrange the LCD plate of six 55 inches models with 2 one-tenth 23mm surpluses of virtual region by matrix-style (2 row * 3 row), the surplus between wherein every row is 24mm, and the surplus between every row is 26mm.Therefore, the surplus on the mother substrate short-axis direction be the LCD plate length 3.7%, and the surplus on the mother substrate long axis direction be the LCD plate length 1.9%.In Figure 14 D, arrange the LCD plate of six 55 inches models with matrix-style (2 row * 3 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.In addition, margin value is not limited to foregoing description, it can be controlled in ± 30% in.
Figure 14 E is illustrated in has 2230 * 2600mm 237 inches models of arrangement on the mother substrate of size (37WU, image scaled is 16: 9, the IPS pattern, actual catercorner length is 37 inches, board size is 846.0 * 485.2mm 2) the layout of 12 LCD plates (3 row * 4 row).That is to say, arrange the LCD plate of 12 37 inches models with matrix-style (3 row * 4 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 14 F is illustrated in has 2230 * 2600mm 232 inches models of arrangement on the mother substrate of size (32WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 31.5 inches, board size is 715.0 * 413.05mm 2) the layout of 18 LCD plates (6 row * 3 row).That is to say, arrange the LCD plate of 18 32 inches models with matrix-style (6 row * 3 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 14 G is illustrated in has 2230 * 2600mm 226 inches models of arrangement on the mother substrate of size (26WX, image scaled is 16: 9, the IPS pattern, actual catercorner length is 26 inches, board size is 590.9 * 341.5mm 2) the layout of 24 LCD plates (4 row * 6 row).That is to say, arrange the LCD plate of 24 26 inches models with matrix-style (4 row * 6 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
Figure 14 H is illustrated in has 2230 * 2600mm 2(board size is 531.9 * 337.5mm to arrange 24 inches models on the mother substrate of size 2) 28 LCD plates (7 row * 4 row) and on this mother substrate, arrange eight 10.2 inches models of row (10W, image scaled is 15: 9, the IPS pattern, board size is 233.8 * 145.7mm 2) the layout of LCD plate.That is to say, arrange the LCD plate of 28 24 inches models with matrix-style (7 row * 4 row), and the LCD plate of eight 10 inches models to above-mentioned similar surplus condition under be arranged in delegation, wherein the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 14 I is illustrated in has 2230 * 2600mm 2(board size is 504.86 * 319.1mm to arrange 23 inches models on the mother substrate of size 2) the layout of 32 LCD plates (8 row * 4 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 32 23 inches models with matrix-style (8 row * 4 row), and the major axis of LCD plate is corresponding to the minor axis of mother substrate.
Figure 14 J is illustrated in has 2230 * 2600mm 2(board size is 483.26 * 305.6mm to arrange 22 inches models on the mother substrate of size 2) the layout of 35 LCD plates (5 row * 7 row).That is to say, to above-mentioned similar surplus condition under, arrange the LCD plate of 35 22 inches models with matrix-style (5 row * 7 row), and the major axis of LCD plate is corresponding to the major axis of mother substrate.
As mentioned above, layout and the substrate size according to LCD plate of the present invention has following advantages:
At first, can provide with each model LCD plate and realize 90% or female base of higher substrate efficient The size of plate reduces manufacturing cost thus.
In addition, can be provided on the mother substrate with preliminary dimension arrange at most same model LCD plates or The data of person's different model LCD plate utilize maximum substrate efficient to boost productivity thus.
Obviously, those skilled in the art are not breaking away from the spirit or scope of the present invention, can be in the present invention Make various modifications and variations. Thereby the present invention is intended to covering and falls into appended claims and equivalent model thereof Modifications and variations of the present invention within enclosing.

Claims (200)

1, a kind ofly it is characterized in that, comprising having on the mother substrate of a plurality of virtual regions the method for arranging a plurality of LCD panel:
With first length setting of this mother substrate is between about 50.333L+D+18.673 to 45.299L+D+13.805, wherein L is the catercorner length of at least one LCD panel in the described a plurality of LCD panel that form on described mother substrate, and D is the overall width of described a plurality of virtual regions.
2, method according to claim 1 is characterized in that, also comprises:
With second length setting of this mother substrate is between about 51.509L+D+33.636 to 57.232L+D+40.707, wherein L is the catercorner length of at least one LCD panel in the described a plurality of LCD panel that form on described mother substrate, and D is the overall width of described a plurality of virtual regions.
3, method according to claim 1 is characterized in that, D=30mm.
4, method according to claim 2 is characterized in that, D=30mm.
5, method according to claim 1 is characterized in that, the quantity of described LCD panel is 8.
6, method according to claim 2 is characterized in that, the quantity of described LCD panel is 8.
7, method according to claim 2 is characterized in that, the quantity of described LCD panel is 6.
8, a kind ofly it is characterized in that, comprising having on the mother substrate of a plurality of virtual regions the method for arranging a plurality of LCD panel:
With first length setting of this mother substrate is between about 38.664L+D+25.248 to 42.96L+D+31.387, wherein L is the catercorner length of at least one LCD panel in the described a plurality of LCD panel that form on described mother substrate, and D is the overall width of described a plurality of virtual regions.
9, method according to claim 8 is characterized in that, D=30mm.
10, method according to claim 8 is characterized in that, the quantity of described LCD panel is 6.
11, a kind of method of making liquid crystal display device is characterized in that, comprising:
Determine to have the size of the mother substrate of major axis and minor axis, describedly determine that the size of this mother substrate comprises:
Select the feature of a plurality of LCD panel, described feature comprises: Diagonal Dimension, and this plate is in the image scaled of the length on the first direction with the length of this plate on the second direction different with described first direction, and mode of operation;
Described a plurality of described LCD panel of selecting some are to be arranged on this mother substrate;
Select of the arrangement of the first direction of described LCD panel with respect to the major axis of this mother substrate;
Select the size of virtual region, described virtual region is to comprise the zone between marks for treatment center and the mother substrate edge and expose processing region, and wherein the marks for treatment center has an interval with the edge of long axis direction and described mother substrate and is provided with;
Select first surplus of this mother substrate, described surplus comprises:
Distance between two adjacent panels on this mother substrate on this first direction; And
Distance between this virtual region on this first direction and this LCD panel;
Select second surplus of this mother substrate, described surplus comprises:
Distance between two adjacent panels on this mother substrate on this second direction; And
Distance between this virtual region on this second direction and this LCD panel; And
Based on the feature of described LCD panel, the quantity that is arranged on the LCD panel on this mother substrate, described LCD panel size, determine the length of the minor axis of the major axis of this mother substrate and this mother substrate with respect to the arrangement of this mother substrate, described first and second surpluses and described virtual region.
12, method according to claim 11 is characterized in that, also comprises:
Sealant and black matrix layer are provided around each described LCD panel,
Wherein, the sealing agent is overlapping with this black matrix layer.
13, method according to claim 11 is characterized in that, this mother substrate is sized to 1950mm * 2250mm.
14, method according to claim 11 is characterized in that, this mother substrate is sized to 2200mm * 2500mm.
15, method according to claim 11 is characterized in that, this mother substrate is sized to 2230mm * 2600mm.
16, method according to claim 11 is characterized in that, this mother substrate is sized to 1500mm * 1850mm.
17, method according to claim 11 is characterized in that, this mother substrate is sized to 1100mm * 1250mm.
18, method according to claim 11 is characterized in that, this mother substrate is sized to 1300mm * 1500mm.
19, method according to claim 11 is characterized in that, this mother substrate is sized to 1500mm * 1800mm.
20, method according to claim 11 is characterized in that, this mother substrate is sized to 1870mm * 2200mm.
21, method according to claim 11 is characterized in that, this LCD panel is one of 42 inches, 46 inches, 47 inches, 52 inches, 55 inches and 57 inches.
22, method according to claim 11 is characterized in that, this first surplus be this LCD panel the length on this first direction about 0.3% to about 5% between.
23, method according to claim 11 is characterized in that, this second surplus be this LCD panel the length on this second direction about 0.3% to about 5% between.
24, method according to claim 11 is characterized in that, reduces in the increase of the surplus on this first direction with the length of this LCD panel on this first direction.
25, method according to claim 13 is characterized in that,
This LCD panel is 42 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
26, method according to claim 25 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 14mm to 15mm.
27, method according to claim 25 is characterized in that, the image scaled of these 42 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 549mm, and the length of this plate on this second direction is 956mm.
28, method according to claim 13 is characterized in that,
This LCD panel is 47 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
29, method according to claim 28 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 14mm to 27mm.
30, method according to claim 28 is characterized in that, the image scaled of these 47 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 614mm, and the length of this plate on this second direction is 1065mm.
31, method according to claim 13 is characterized in that,
This LCD panel is 14.1 inches;
The quantity of this LCD panel is 66; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
32, method according to claim 31 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
33, method according to claim 13 is characterized in that,
This LCD panel is 15 inches;
The quantity of this LCD panel is 54; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
34, method according to claim 33 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
35, method according to claim 13 is characterized in that,
This LCD panel is 17 inches;
The quantity of this LCD panel is 40; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
36, method according to claim 35 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
37, method according to claim 35 is characterized in that, the image scaled of these 17 inches LCD panel is 15: 9.
38, method according to claim 13 is characterized in that,
This LCD panel is 17 inches;
The quantity of this LCD panel is 45; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
39, according to the described method of claim 38, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 38, it is characterized in that 40, the image scaled of these 17 inches LCD panel is 15: 10.
41, method according to claim 13 is characterized in that,
This LCD panel is 20.1 inches;
The quantity of this LCD panel is 30; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
42, according to the described method of claim 41, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 41, it is characterized in that 43, the image scaled of these 20.1 inches LCD panel is 4: 3.
44, method according to claim 13 is characterized in that,
This LCD panel is 19 inches;
The quantity of this LCD panel is 30; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
45, according to the described method of claim 44, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 44, it is characterized in that 46, the image scaled of these 19 inches LCD panel is 5: 4; And
Wherein, the length of this LCD panel on this first direction is 312mm, and the length of this plate on this second direction is 387mm.
47, method according to claim 13 is characterized in that,
This LCD panel is 20 inches;
The quantity of this LCD panel is 32; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
48, according to the described method of claim 47, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
49, method according to claim 13 is characterized in that,
This LCD panel is 23 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
50, according to the described method of claim 49, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
51, according to the described method of claim 49, the image scaled of these 23 inches LCD panel is 16: 9.
52, method according to claim 14 is characterized in that,
This LCD panel is 47 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
53, according to the described method of claim 52, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 52, it is characterized in that 54, the image scaled of these 47 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 610.5mm, and the length of this plate on this second direction is 1065mm.
55, method according to claim 14 is characterized in that,
This LCD panel is 55 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
56, according to the described method of claim 55, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 10mm to 15mm.
According to the described method of claim 55, it is characterized in that 57, the image scaled of these 55 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 710mm, and the length of this plate on this second direction is 1233mm.
58, method according to claim 14 is characterized in that,
This LCD panel is 52 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
59, according to the described method of claim 58, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 58, it is characterized in that 60, the image scaled of these 52 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 670.5mm, and the length of this plate on this second direction is 1174.5mm.
61, method according to claim 14 is characterized in that,
This LCD panel is 32 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
62, according to the described method of claim 61, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 61, it is characterized in that 63, the image scaled of these 32 inches LCD panel is 16: 10; And
Wherein, the length of this LCD panel on this first direction is 413mm, and the length of this plate on this second direction is 715mm.
64, method according to claim 14 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
65, according to the described method of claim 64, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 64, it is characterized in that 66, the image scaled of these 26 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 341.5mm, and the length of this plate on this second direction is 590.9mm.
67, method according to claim 14 is characterized in that,
This LCD panel is 24 inches;
The quantity of this LCD panel is 28; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
68, according to the described method of claim 67, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 67, it is characterized in that 69, the length of this LCD panel on this first direction is 337.5mm, and the length of this plate on this second direction is 531.9mm.
70, method according to claim 14 is characterized in that,
This LCD panel is 22 inches;
The quantity of this LCD panel is 35; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
71, according to the described method of claim 70, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 70, it is characterized in that 72, the length of this LCD panel on this first direction is 305.6mm, and the length of this plate on this second direction is 483.26mm.
73, method according to claim 15 is characterized in that,
This LCD panel is 47 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
74, according to the described method of claim 73, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 73, it is characterized in that 75, the image scaled of these 47 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 610.5mm, and the length of this plate on this second direction is 1065mm.
76, method according to claim 15 is characterized in that,
This LCD panel is 57 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
77, according to the described method of claim 76, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 76, it is characterized in that 78, the image scaled of these 57 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 727.2mm, and the length of this plate on this second direction is 1276.2mm.
79, method according to claim 15 is characterized in that,
This LCD panel is 52 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
80, according to the described method of claim 79, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 79, it is characterized in that 81, the image scaled of these 52 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 670.5mm, and the length of this plate on this second direction is 1174.5mm.
82, method according to claim 15 is characterized in that,
This LCD panel is 55 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
83,2 described methods according to Claim 8 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
84,2 described methods according to Claim 8 is characterized in that the image scaled of these 55 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 710mm, and the length of this plate on this second direction is 1233mm.
85, method according to claim 15 is characterized in that,
This LCD panel is 37 inches;
The quantity of this LCD panel is 12; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
86,5 described methods according to Claim 8 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
87,5 described methods according to Claim 8 is characterized in that the image scaled of these 37 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 485.2mm, and the length of this plate on this second direction is 846.0mm.
88, method according to claim 15 is characterized in that,
This LCD panel is 32 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
89,8 described methods according to Claim 8 is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
90,8 described methods according to Claim 8 is characterized in that the image scaled of these 32 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 413.05mm, and the length of this plate on this second direction is 715.0mm.
91, method according to claim 15 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
92, according to the described method of claim 91, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 91, it is characterized in that 93, the image scaled of these 26 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 341.5mm, and the length of this plate on this second direction is 590.9mm.
94, method according to claim 15 is characterized in that,
This LCD panel is 23 inches;
The quantity of this LCD panel is 32; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
95, according to the described method of claim 94, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 94, it is characterized in that 96, the length of this LCD panel on this first direction is 319.1mm, and the length of this plate on this second direction is 504.86mm.
97, method according to claim 15 is characterized in that,
This LCD panel is 22 inches;
The quantity of this LCD panel is 35; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
98, according to the described method of claim 97, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 97, it is characterized in that 99, the length of this LCD panel on this first direction is 305.6mm, and the length of this plate on this second direction is 483.26mm.
100, method according to claim 16 is characterized in that,
This LCD panel is 32 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
101, according to the described method of claim 100, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 14mm to 15mm.
According to the described method of claim 100, it is characterized in that 102, the image scaled of these 32 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 413.05mm, and the length of this plate on this second direction is 715.0mm.
103, method according to claim 16 is characterized in that,
This LCD panel is 37 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
104, according to the described method of claim 103, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 14mm to 15mm.
According to the described method of claim 103, it is characterized in that 105, the image scaled of these 37 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 485.2mm, and the length of this plate on this second direction is 846.0mm.
106, method according to claim 16 is characterized in that,
This LCD panel is 20.1 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
107, according to the described method of claim 106, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 106, it is characterized in that 108, the image scaled of these 20.1 inches LCD panel is 16: 9.
109, method according to claim 16 is characterized in that,
This LCD panel is 20.1 inches;
The quantity of this LCD panel is 16; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
110, according to the described method of claim 109, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 109, it is characterized in that 111, the image scaled of these 20.1 inches LCD panel is 4: 3; And
Wherein, the length of this LCD panel on this first direction is 317.5mm, and the length of this plate on this second direction is 422.5mm.
112, method according to claim 16 is characterized in that,
This LCD panel is 17 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
113, according to the described method of claim 112, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 112, it is characterized in that 114, the image scaled of these 17 inches LCD panel is 5: 4; And
Wherein, the length of this LCD panel on this first direction is 278.9mm, and the length of this plate on this second direction is 347mm.
115, method according to claim 16 is characterized in that,
This LCD panel is 30 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
116, according to the described method of claim 115, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 115, it is characterized in that 117, the image scaled of these 30 inches LCD panel is 16: 10; And
Wherein, the length of this LCD panel on this first direction is 419mm, and the length of this plate on this second direction is 661mm.
118, method according to claim 16 is characterized in that,
This LCD panel is 20 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
119, according to the described method of claim 118, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 118, it is characterized in that 120, the image scaled of these 20 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 258.832mm, and the length of this plate on this second direction is 452.584mm.
121, method according to claim 16 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 12; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
122, according to the described method of claim 121, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 121, it is characterized in that 123, the image scaled of these 26 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 341.5mm, and the length of this plate on this second direction is 590.9mm.
124, method according to claim 17 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
125, according to the described method of claim 124, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; This virtual region is of a size of about 15mm.
According to the described method of claim 124, it is characterized in that 126, the image scaled of these 26 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 341.5mm, and the length of this plate on this second direction is 590.9mm.
127, method according to claim 17 is characterized in that,
This LCD panel is 23 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
128, according to the described method of claim 127, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 10mm to 14mm.
According to the described method of claim 127, it is characterized in that 129, the image scaled of these 23 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 302.7mm, and the length of this plate on this second direction is 523.7mm.
130, method according to claim 17 is characterized in that,
This LCD panel is 24 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
131, according to the described method of claim 130, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 130, it is characterized in that 132, the image scaled of these 24 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 336mm, and the length of this plate on this second direction is 529mm.
133, method according to claim 17 is characterized in that,
This LCD panel is 15 inches;
The quantity of this LCD panel is 15; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
134, according to the described method of claim 133, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 133, it is characterized in that 135, the image scaled of these 15 inches LCD panel is 4: 3; And
Wherein, the length of this LCD panel on this first direction is 235.6mm, and the length of this plate on this second direction is 312.2mm.
136, method according to claim 17 is characterized in that,
This LCD panel is 12.1 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
137, according to the described method of claim 136, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 136, it is characterized in that 138, the image scaled of these 12.1 inches LCD panel is 4: 3; And
Wherein, the length of this LCD panel on this first direction is 192.6mm, and the length of this plate on this second direction is 254.5mm.
139, method according to claim 17 is characterized in that,
This LCD panel is 22 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
140, according to the described method of claim 139, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
141, method according to claim 17 is characterized in that,
This LCD panel is 18 inches;
The quantity of this LCD panel is 12; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
142, according to the described method of claim 141, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 141, it is characterized in that 143, the image scaled of these 18 inches LCD panel is 16: 10.
144, method according to claim 18 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
145, according to the described method of claim 144, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of between about 14mm to 15mm.
146, method according to claim 20 is characterized in that,
This LCD panel is 40 inches;
The quantity of this LCD panel is 8; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
147, according to the described method of claim 146, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 146, it is characterized in that 148, the image scaled of these 40 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 521mm, and the length of this plate on this second direction is 906mm.
149, method according to claim 20 is characterized in that,
This LCD panel is 47 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
150, according to the described method of claim 149, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 149, it is characterized in that 151, the image scaled of these 47 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 610.5mm, and the length of this plate on this second direction is 1065mm.
152, method according to claim 20 is characterized in that,
This LCD panel is 46 inches;
The quantity of this LCD panel is 6; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
153, according to the described method of claim 152, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between; And this virtual region is of a size of about 15mm.
According to the described method of claim 152, it is characterized in that 154, the image scaled of these 46 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 600.5mm, and the length of this plate on this second direction is 1043.0mm.
155, method according to claim 20 is characterized in that,
This LCD panel is 32 inches;
The quantity of this LCD panel is 12; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
156, according to the described method of claim 155, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 155, it is characterized in that 157, the image scaled of these 32 inches LCD panel is 16: 10; And
Wherein, the length of this LCD panel on this first direction is 413mm, and the length of this plate on this second direction is 715mm.
158, method according to claim 20 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
159, according to the described method of claim 158, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 158, it is characterized in that 160, the image scaled of these 26 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 341.5mm, and the length of this plate on this second direction is 590.9mm.
161, method according to claim 20 is characterized in that,
This LCD panel is 23 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
162, according to the described method of claim 161, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 161, it is characterized in that 163, the image scaled of these 23 inches LCD panel is 16: 9; And
Wherein, the length of this LCD panel on this first direction is 302.7mm, and the length of this plate on this second direction is 523.7mm.
164, method according to claim 20 is characterized in that,
This LCD panel is 32 inches;
The quantity of this LCD panel is 12; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
165, according to the described method of claim 164, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 164, it is characterized in that 166, the length of this LCD panel on this first direction is 455.5mm, and the length of this plate on this second direction is 700mm.
167, method according to claim 20 is characterized in that,
This LCD panel is 26 inches;
The quantity of this LCD panel is 18; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
168, according to the described method of claim 167, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
169,, it is characterized in that the length of this LCD panel on this first direction is 359mm, and the length of this plate on this second direction is 565mm according to the described method of claim 167.
170, method according to claim 20 is characterized in that,
This LCD panel is 24 inches;
The quantity of this LCD panel is 20; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
171, according to the described method of claim 170, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 170, it is characterized in that 172, the length of this LCD panel on this first direction is 337.5mm, and the length of this plate on this second direction is 531.9mm.
173, method according to claim 20 is characterized in that,
This LCD panel is 20 inches;
The quantity of this LCD panel is 28; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
174, according to the described method of claim 173, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 173, it is characterized in that 175, the length of this LCD panel on this first direction is 285.1mm, and the length of this plate on this second direction is 447.6mm.
176, method according to claim 20 is characterized in that,
This LCD panel is 19 inches;
The quantity of this LCD panel is 32; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
177, according to the described method of claim 176, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 176, it is characterized in that 178, the length of this LCD panel on this first direction is 274.7mm, and the length of this plate on this second direction is 430.2mm.
179, method according to claim 20 is characterized in that,
This LCD panel is 19 inches;
The quantity of this LCD panel is 24; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the major axis of this mother substrate.
180, according to the described method of claim 179, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 179, it is characterized in that 181, the image scaled of these 19 inches LCD panel is 5: 4; And
Wherein, the length of this LCD panel on this first direction is 312mm, and the length of this plate on this second direction is 387mm.
182, method according to claim 20 is characterized in that,
This LCD panel is 17 inches;
The quantity of this LCD panel is 36; And
Thereby arranging described LCD panel makes the short limit of this LCD panel length on this first direction and this second direction parallel with the minor axis of this mother substrate.
183, according to the described method of claim 182, it is characterized in that, this first surplus and this second surplus be respectively this LCD panel the length on this first direction and this second direction about 0.3% to about 5% between.
According to the described method of claim 182, it is characterized in that 184, the image scaled of these 17 inches LCD panel is 5: 4; And
Wherein, the length of this LCD panel on this first direction is 278.9mm, and the length of this plate on this second direction is 347mm.
185, method according to claim 11 is characterized in that, the step of the feature of a plurality of LCD panel of described selection comprises:
In first subregion of the exposure processing region of this mother substrate and second subregion, provide more than first LCD panel and more than second LCD panel respectively;
Wherein, the feature that has of described more than first LCD panel is different from the feature of described more than second LCD panel; And
Wherein, at least one feature of selected described LCD panel in order to the size of determining this mother substrate is different from least one feature of described more than first and second LCD panel.
186, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 50 LCD panel, each LCD panel in described more than first LCD panel has about 15.4 inches catercorner lengths, 16: 10 image scaleds, TN pattern, and described more than first LCD panel arranged with the matrix-style of 10 row * 5 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 32 LCD panel, each LCD panel in described more than second LCD panel has about 4 inches catercorner length, and described more than second LCD panel arranged with the matrix-style of 32 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
187, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 40 LCD panel, each LCD panel in described more than first LCD panel has about 17 inches catercorner lengths, 15: 9 image scaleds, and described more than first LCD panel arranged with the matrix-style of 5 row * 8 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate;
Described more than second LCD panel comprises 16 LCD panel, each LCD panel in described more than second LCD panel has about 8 inches catercorner lengths, and described more than second LCD panel arranged with the matrix-style of 1 row * 16 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
188, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 30 LCD panel, each LCD panel in described more than first LCD panel has about 19 inches catercorner lengths, 5: 4 image scaleds, TN pattern, and described more than first LCD panel arranged with the matrix-style of 5 row * 6 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate;
Described more than second LCD panel comprises 12 LCD panel, each LCD panel in described more than second LCD panel has about 8 inches catercorner lengths, and described more than second LCD panel arranged with the matrix-style of 1 row * 12 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
189, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 20 LCD panel, each LCD panel in described more than first LCD panel has about 23 inches catercorner lengths, 16: 9 image scaleds, and described more than first LCD panel arranged with the matrix-style of 4 row * 5 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate;
Described more than second LCD panel comprises 4 LCD panel, each LCD panel in described more than second LCD panel has about 20.1 inches catercorner lengths, 16: 10 image scaleds, and described more than second LCD panel arranged with the matrix-style of 4 row * 1 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
190, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 24 LCD panel, each LCD panel in described more than first LCD panel has about 23 inches catercorner lengths, 16: 9 image scaleds, and described more than first LCD panel arranged with the matrix-style of 4 row * 6 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate;
Described more than second LCD panel comprises 12 LCD panel, each LCD panel in described more than second LCD panel has about 6.5 inches catercorner lengths, 16: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 12 row * 1 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
191, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 18 LCD panel, each LCD panel in described more than first LCD panel has about 26 inches catercorner lengths, 16: 9 image scaleds, IPS pattern, and described more than first LCD panel arranged with the matrix-style of 6 row * 3 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 6 LCD panel, each LCD panel in described more than second LCD panel has about 10 inches catercorner lengths, 15: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 1 row * 6 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
192, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 18 LCD panel, each LCD panel in described more than first LCD panel has about 26 inches catercorner lengths, 16: 10 image scaleds, and described more than first LCD panel arranged with the matrix-style of 6 row * 3 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 18 LCD panel, each LCD panel in described more than second LCD panel has about 6.5 inches catercorner lengths, and described more than second LCD panel arranged with the matrix-style of 18 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
193, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 12 LCD panel, each LCD panel in described more than first LCD panel has about 32 inches catercorner lengths, 16: 9 image scaleds, and described more than first LCD panel arranged with the matrix-style of 3 row * 4 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate;
Described more than second LCD panel comprises 3 LCD panel, each LCD panel in described more than second LCD panel has about 17 inches catercorner lengths, 15: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 3 row * 1 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
194, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 3 LCD panel, each LCD panel in described more than first LCD panel has about 55 inches catercorner lengths, and described more than first LCD panel arranged with the matrix-style of 3 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 6 LCD panel, each LCD panel in described more than second LCD panel has about 26 inches catercorner lengths, 16: 9 image scaleds, and described more than second LCD panel arranged with the matrix-style of 6 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1950mm * 2250mm.
195, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 28 LCD panel, each LCD panel in described more than first LCD panel has about 24 inches catercorner lengths, and described more than first LCD panel arranged with the matrix-style of 7 row * 4 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 8 LCD panel, each LCD panel in described more than second LCD panel has about 10.2 inches catercorner lengths, 15: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 1 row * 8 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 2230mm * 2600mm.
196, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 24 LCD panel, each LCD panel in described more than first LCD panel has about 17 inches catercorner lengths, 5: 4 image scaleds, TN pattern, and described more than first LCD panel arranged with the matrix-style of 6 row * 4 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 6 LCD panel, each LCD panel in described more than second LCD panel has about 8 inches catercorner lengths, 16: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 1 row * 6 row, and the limit of described plate on first direction is parallel with the major axis of this mother substrate; And
This mother substrate is 1500mm * 1850mm.
197, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 3 LCD panel, each LCD panel in described more than first LCD panel has about 42 inches catercorner lengths, 16: 9 image scaleds, IPS pattern, and described more than first LCD panel arranged with the matrix-style of 3 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 6 LCD panel, each LCD panel in described more than second LCD panel has about 20.1 inches catercorner lengths, 16: 9 image scaleds, IPS pattern, and described more than second LCD panel arranged with the matrix-style of 6 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1500mm * 1850mm.
198, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 12 LCD panel, each LCD panel in described more than first LCD panel has about 17 inches catercorner lengths, 5: 4 image scaleds, TN pattern, and described more than first LCD panel arranged with the matrix-style of 4 row * 3 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 6 LCD panel, each LCD panel in described more than second LCD panel has about 7 inches catercorner lengths, 16: 9 image scaleds, TN pattern, and described more than second LCD panel arranged with the matrix-style of 1 row * 6 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1100mm * 1250mm.
199, according to the described method of claim 185, it is characterized in that, described more than first LCD panel comprises 18 LCD panel, each LCD panel in described more than first LCD panel has about 14.1 inches catercorner lengths, 16: 10 image scaleds, TN pattern, and described more than first LCD panel arranged with the matrix-style of 6 row * 3 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate;
Described more than second LCD panel comprises 12 LCD panel, each LCD panel in described more than second LCD panel has about 4 inches catercorner lengths, 4: 3 image scaleds, TN pattern, and described more than second LCD panel arranged with the matrix-style of 12 row * 1 row, and the limit of described plate on first direction is parallel with the minor axis of this mother substrate; And
This mother substrate is 1100mm * 1250mm.
200, a kind of method of making liquid crystal display device is characterized in that, comprising:
Mother substrate with major axis and minor axis is provided, and greater than the length of this mother substrate along this minor axis, described mother substrate has the exposed region that is centered on by virtual region to this mother substrate along the length of this major axis;
This exposed region is subdivided into first subregion and second subregion;
In this first subregion, arrange a plurality of LCD panel of first Diagonal Dimension with respect to the major axis of this mother substrate;
In this second subregion, arrange a plurality of LCD panel of second Diagonal Dimension with respect to the major axis of this mother substrate; Described second Diagonal Dimension is different from described first Diagonal Dimension;
Wherein, a plurality of LCD panel of arranging in described first and second subregions make LCD panel cover more than 90% of exposed region area.
CN2006101608310A 2005-11-30 2006-11-30 Layout and substrate size of liquid crystal panel Expired - Fee Related CN1991493B (en)

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CN104778904A (en) * 2015-05-08 2015-07-15 合肥京东方光电科技有限公司 Display panel motherboard and preparation method thereof
CN113741071A (en) * 2021-08-31 2021-12-03 惠科股份有限公司 Display panel manufacturing method and display panel

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KR20190071097A (en) 2017-12-14 2019-06-24 현대자동차주식회사 Apparatus and method for controlling display, vehicle system

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JP2002293559A (en) * 2001-03-30 2002-10-09 Semiconductor Energy Lab Co Ltd Glass substrate and display using the same
KR100817134B1 (en) * 2002-03-25 2008-03-27 엘지.필립스 엘시디 주식회사 Apparatus and method for fabricating liquid crystal display panel
JP2004093760A (en) * 2002-08-30 2004-03-25 Fujitsu Display Technologies Corp Method of manufacturing liquid crystal display

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Publication number Priority date Publication date Assignee Title
CN104778904A (en) * 2015-05-08 2015-07-15 合肥京东方光电科技有限公司 Display panel motherboard and preparation method thereof
CN104778904B (en) * 2015-05-08 2017-11-24 合肥京东方光电科技有限公司 A kind of display panel motherboard and preparation method thereof
CN113741071A (en) * 2021-08-31 2021-12-03 惠科股份有限公司 Display panel manufacturing method and display panel

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