CN101866072B - Touch liquid crystal module and integrated touch baseplate thereof - Google Patents

Abstract

The invention relates to an integrated touch baseplate which comprises a transparent baseplate, an active element array and a sensing array. The sensing array is configured between the active element array and the transparent baseplate and comprises a plurality of sensing pads, a plurality of leads, an insulating layer and a plurality of conductive connecting parts. An insulating layer is positioned between the leads and the sensing pads, and all the sensing pads are positioned between the insulating layer and the transparent baseplate. All the conductive connecting parts are positioned in the insulating layer and connected between the sensing pads and the leads. In addition, the invention also provides a touch liquid crystal module comprising the integrated touch baseplate.

Description

Touch liquid crystal module and integrated touch baseplate thereof

Technical field

The invention relates to a kind of LCD (Liquid Crystal Display; LCD), and particularly relevant for a kind of touch liquid crystal module (touch-sensitive liquid crystal module) and integrated touch baseplate (integrated touch-sensitive substrate) thereof.

Background technology

Touch liquid crystal display (touch-sensitive LCD) is a kind of LCD that has image demonstration and data input function concurrently; And present many electronic equipments (electronic equipment); Mobile phone and personal digital aid (PDA) (Personal Digital Assistant for example; PDA) etc. hand-hold electronic device and computing machine etc. the installing touch liquid crystal display is all arranged, so touch liquid crystal display are used by society widely at present.

The main element of touch liquid crystal display comprises the touch liquid crystal module, and general touch liquid crystal module comprise a liquid crystal module (Liquid Crystal Module, LCM), a touch base plate and a cover glass (cover lens).Touch base plate is disposed between liquid crystal module and the cover glass, and sees through adhesive agent, fits with cover glass and liquid crystal module.

In addition; Liquid crystal module comprises a liquid crystal panel (LCD panel), a module backlight (backlight module) and a liquid crystal layer (liquid crystal layer) between liquid crystal panel and module backlight, and touch base plate normally is installed on the colored optical filtering substrates (color filter substrate) of liquid crystal panel.

In the process that liquid crystal module, touch base plate and cover glass three are fit together; Not only the three must be aligned with each other; Make three's relative position each other correct, simultaneously between liquid crystal module and touch base plate, and between touch base plate and cover glass, can not produce bubble; Otherwise can cause picture color uneven (mura), and then destroy the image quality of touch liquid crystal display.

Yet; The two all is to be formed by the glass substrate manufacturing usually for liquid crystal module and touch base plate, so liquid crystal module, touch base plate and cover glass three's quality is all quite hard, to such an extent as in the process of fitting; Touch base plate is difficult to entirely fit with liquid crystal module and cover glass; Cause between liquid crystal module and the touch base plate, and occur bubble easily between touch base plate and the cover glass, cause the yield (yield) of present touch liquid crystal display on the low side.

Secondly; Fit together liquid crystal module, touch base plate and cover glass three; Accomplish after the touch liquid crystal module, in case find that the touch liquid crystal module of accomplishing is a defective products, for example liquid crystal module, touch base plate are not aimed at the cover glass three and serious dislocation (mismatch) occurred; Or in the touch liquid crystal module bubble has appearred, be difficult to take bad touch liquid crystal module to carry out heavy industry (rework) apart.

In detail, because liquid crystal module, touch base plate and cover glass three see through adhesive agent and applying each other, add that three's quality is all quite hard; Therefore; If take bad touch liquid crystal module apart actually, liquid crystal module, touch base plate and cover glass all can retain the residual adhesive agent that is difficult for removal, and when taking apart; Very likely, cause liquid crystal module, touch base plate or cover glass to break because the application of force is improper.Therefore, for the bad touch liquid crystal module of being accomplished because of the failure of fitting, be to handle mostly at present with the mode of scrapping.

Summary of the invention

The present invention provides a kind of integrated touch baseplate, and it comprises the active cell array (active component array) of ability drives liquid crystal molecules.

The present invention provides a kind of touch liquid crystal module, and it comprises above-mentioned integrated touch baseplate.

The present invention proposes a kind of integrated touch baseplate, and it comprises a transparency carrier, an active cell array and a sensing array.Sensing array is disposed between active cell array and the transparency carrier; And comprise polylith sensor pad, many leads, an insulation course and a plurality of conducting connecting parts; Wherein insulation course is between these leads and these sensor pads, and these sensor pads are all between insulation course and transparency carrier.These conducting connecting parts all are arranged in insulation course, and are connected between some sensor pads and these leads.

In an embodiment of the present invention, above-mentioned sensing array also comprises many cablings.These cablings and are connected in other sensor pads all between insulation course and transparency carrier.

In an embodiment of the present invention, these leads have the double-decker (bilayer structure) of chromium oxide/chromium.

In an embodiment of the present invention, above-mentioned insulation course is organic photoresist layer (organicphotoresist layer).

In an embodiment of the present invention, above-mentioned integrated touch baseplate also comprises a black matrix layer (black matrix layer), and black matrix layer is between transparency carrier and active cell array.

In an embodiment of the present invention, above-mentioned black matrix layer is between insulation course and transparency carrier.

In an embodiment of the present invention, above-mentioned black matrix layer is between insulation course and active cell array.

In an embodiment of the present invention, these leads are between black matrix layer and these sensor pads.

In an embodiment of the present invention, above-mentioned black matrix layer is between these leads and insulation course, and these conducting connecting parts run through insulation course and black matrix layer.

In an embodiment of the present invention, above-mentioned integrated touch baseplate also comprises a black matrix layer, and the local active cell array that covers of black matrix layer, and active cell array is between black matrix layer and transparency carrier.

The present invention also proposes a kind of touch liquid crystal module, comprises above-mentioned integrated touch baseplate, a subtend substrate, a liquid crystal layer and a backlight.Liquid crystal layer is disposed between subtend substrate and the integrated touch baseplate, and the subtend substrate is between integrated touch baseplate and backlight.

In sum; Because integrated touch baseplate of the present invention comprises active cell array and sensing array; And active cell array can drive the liquid crystal molecule in the liquid crystal layer, and therefore touch liquid crystal module of the present invention has the function that image shows and data are imported simultaneously concurrently.

For letting the above-mentioned feature and advantage of the present invention can be more obviously understandable, hereinafter is special lifts embodiment, and cooperates appended graphicly, elaborates as follows.

Description of drawings

Figure 1A is the schematic top plan view of the touch liquid crystal module of one embodiment of the invention.

Figure 1B is the diagrammatic cross-section of Figure 1A center line I-I.

Fig. 2 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.

Fig. 3 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.

Fig. 4 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.

Fig. 5 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.

Embodiment

Figure 1A is the schematic top plan view of the touch liquid crystal module of one embodiment of the invention, and Figure 1B is the diagrammatic cross-section of Figure 1A center line I-I.Consult Figure 1A and Figure 1B clearly; The touch liquid crystal module 100a of present embodiment comprises an integrated touch baseplate 200, a liquid crystal layer 110, a subtend substrate 120a and a backlight 130; Wherein liquid crystal layer 110 is disposed between subtend substrate 120a and the integrated touch baseplate 200, and subtend substrate 120a is between integrated touch baseplate 200 and backlight 130.

Backlight 130 can be a kind of area source (plane light source); And backlight 130 can be a module backlight, and it for example is down straight aphototropism mode set (direct typebacklight module) or side incident type module backlight (side type backlightmodule).Backlight 130 can be towards the subtend substrate 120a L1 that emits beam; Wherein integrated touch baseplate 200, liquid crystal layer 110 all have light-permeable property with subtend substrate 120a; And light L1 can penetrate subtend substrate 120a, liquid crystal layer 110 and integrated touch baseplate 200 in regular turn, lets the touch liquid crystal module 100a can show image.

Subtend substrate 120a can be a colored optical filtering substrates, and can comprise a substrate 122, one black matrix layer 124, a colored filter pattern layers (color filter pattern layer) 126 and one shared electrode (common electrode) 128.Black matrix layer 124 and colored filter pattern layers 126 all are disposed between substrate 122 and the shared electrode 128, and 128 opposites at integrated touch baseplate 200 of shared electrode.

Black matrix layer 124 L1 that can obstruct the light, promptly light L1 can't penetrate black matrix layer 124 basically.The shape of black matrix layer 124 can be netted, and colored filter pattern layers 126 can the position in the grid of black matrix layer 124.Substrate 122 has a plane 122a, and all the position is on the 122a of plane and black matrix layer 124 is with colored filter pattern layers 126, and wherein black matrix layer 124 all contacts with substrate 122 with colored filter pattern layers 126.

Integrated touch baseplate 200 comprises a transparency carrier 210, an active cell array 220 and a sensing array 230; And sensing array 230 is disposed between active cell array 220 and the transparency carrier 210, and comprises polylith sensor pad 232a, many leads 234 and an insulation course 236.Insulation course 236 is between these leads 234 and these sensor pads 232a, and wherein these sensor pads 232a is all between insulation course 236 and transparency carrier 210, and these leads 234 are between active cell array 220 and insulation course 236.

In all sensor pad 232a, some sensor pad 232a are electrically connected to each other, and other sensor pads 232a is electrically connected to each other.For example; In Figure 1A and Figure 1B; These sensor pads 232a is arranged; And each row sensor pad 232a in (column) is electrically connected to each other, and the sensor pad 232a in each row (row) is electrically connected to each other, but the sensor pad 232a in each row with each row in sensor pad 232a conducting electrically.

In detail, sensing array 230 also comprises many cabling 232b and a plurality of conducting connecting part 238.These conducting connecting parts 238 all are arranged in insulation course 236; And be connected between some sensor pad 232a and these leads 234, for example, in the present embodiment; Conducting connecting part 238 is connected in sensor pad 232a and the lead 234 in each row, shown in Figure 1A and Figure 1B.

These cablings 232b is all between insulation course 236 and transparency carrier 210; And these cablings 232b and these sensor pads 232a can the position on the same plane of transparency carrier 210, for example cabling 232b and sensor pad 232a are all on the plane 212 of transparency carrier 210.These cablings 232b is connected in other sensor pads 232a, and the sensor pad 232a that cabling 232b is connected does not connect conducting connecting part 238.In addition, in the present embodiment, each bar cabling 232b is connected between the adjacent two sensor pad 232a, shown in Figure 1A.

See through these conducting connecting parts 238, lead 234 and cabling 232b, let some sensor pad 232a be electrically connected to each other, other sensor pads 232a is electrically connected to each other.That is to say, see through these cablings 232b, the sensor pad 232a in each row can be electrically connected to each other, and sees through these conducting connecting parts 238 and lead 234, and the sensor pad 232a in each row can be electrically connected to each other.

In the present embodiment, the two material of sensor pad 232a and cabling 232b can be a transparent conductive material, its for example be indium tin oxide (Indium Tin Oxide, ITO) or indium-zinc oxide (Indium Zinc Oxide, IZO).The material of lead 234 can be metal material or above-mentioned transparent conductive material.In other words, these leads 234 can be many metal line or many electrically conducting transparent lines.

In addition, these leads 234 also can have the double-decker of chromium oxide/chromium.That is to say that lead 234 can be to be formed by one deck chromium oxide layer and the two storehouse of one deck chromium metal level, wherein chromium oxide layer is between chromium metal level and insulation course 236.The light reflectivity of chromium oxide layer can be less than 7%, so chromium oxide layer has very low light reflectivity.

As an incident light L 2 when transparency carrier 210 is incident to the double-deck lead 234 with chromium oxide/chromium; The chromium oxide layer of lead 234 can absorb incident light L 2 effectively; Let touch liquid crystal module 100a reduce reflection to incident light L 2, and then the harmful effect of the incident light L2 that reduces reflection image that touch liquid crystal module 100a is shown.

Insulation course 236 can be inorganic material layer (inorganic layer) or organic material layer (organic layer), and wherein inorganic material layer for example is silicon nitride (SiN _X) layer, and organic material layer for example is polymer material layers such as organic photoresist layer.Generally speaking; Organic photoresist layer has very low specific inductive capacity (dielectric constant); Therefore; When insulation course 236 was organic photoresist layer, insulation course 236 can reduce active cell array 220 interference to sensing array 230 when running, to improve the sensitivity of integrated touch baseplate 200.

Active cell array 220 can drive the liquid crystal molecule in the liquid crystal layer 110; And can be a kind of bottom-gate transistor npn npn array (bottom-gate transistor array); It has a plurality of grid G 1 (only illustrating among Figure 1B); And these grid G 1 all can be by forming with skim layer with lead 234, and for example grid G 1 can be same metal level to be carried out little shadow (lithography) form with etching (etching) with lead 234.When forming grid G 1 with lead 234 with little shadow and etched mode, these grid G 1 can be made with same light shield with lead 234.So, can save the usage quantity of light shield, and then reduce the cost of making.

Based on above-mentioned; When another plane 214 of pointer or finger contact transparency carrier 210; Pointer or the capacitance of pointing pairing sensor pad 232a can change; And touch liquid crystal module 100a can control hand-hold electronic device (for example mobile phone or personal digital aid (PDA)) or computing machine etc. according to the capacitance of this change, for example lets the cursor that screen showed of electronic equipment move.So, the user can utilize touch liquid crystal module 100a to come operating electronic equipment.

In addition, sensing array 230 is disposed between active cell array 220 and the transparency carrier 210, and transparency carrier 210 can be protected sensing array 230, to avoid sensing array 230 by scratch.Therefore, transparency carrier 210 can not only carry sensing array 230 and active cell array 220, also can be used as the cover glass of touch liquid crystal module 100a simultaneously, so the touch liquid crystal module 100a of present embodiment can extra applying cover glass.

Fig. 2 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.See also Fig. 2; The touch liquid crystal module 100b of present embodiment comprises an integrated touch baseplate 300, a liquid crystal layer 110, a subtend substrate 120b and a backlight 130; Wherein liquid crystal layer 110 is disposed between subtend substrate 120b and the integrated touch baseplate 300, and subtend substrate 120b is between integrated touch baseplate 300 and backlight 130.

The two function of the touch liquid crystal module 100b of present embodiment and the touch liquid crystal module 100a of previous embodiment is identical; And the structural similarity of the two; Therefore will mainly introduce the difference of the two below, not the two same characteristic features of repeated description touch liquid crystal module 100a, 100b.

In detail; Reach embodiment before being different from; Though subtend substrate 120b shown in Figure 2 comprises substrate 122 and is configured in the shared electrode 128 on the subtend substrate 120b; But subtend substrate 120b does not but comprise any black matrix and colored filter pattern layers; Be that subtend substrate 120b shown in Figure 2 is not a colored optical filtering substrates, and integrated touch baseplate 300 not only comprises transparency carrier 210, active cell array 220 and sensing array 230, but also comprise a black matrix layer 310 and a colored filter pattern layers 320.

In detail, black matrix layer 310 local covering active cell arrays 220, and active cell array 220 is between black matrix layer 310 and transparency carrier 210.The also local active cell array 220 that covers of colored filter pattern layers 320; And active cell array 220 is between colored filter pattern layers 320 and transparency carrier 210, and wherein black matrix layer 310 and colored filter pattern layers 320 be shared electrode 128 opposite at subtend substrate 120b all.In addition, the shape of black matrix layer 310 can be netted, and colored filter pattern layers 320 can the position in the grid of black matrix layer 310.

What must explain is; Though the black matrix layer 310 among Fig. 2 all covers active cell array 220 with colored filter pattern layers 320; But in other embodiments; The two only wherein one covers active cell array 220 black matrix layer 310 and colored filter pattern layers 320, and another person is disposed between substrate 122 and the shared electrode 128, and promptly subtend substrate 120b or integrated touch baseplate 300 can not comprise black matrix layer 310 and colored filter pattern layers 320 simultaneously.

For instance; In other embodiments; Black matrix layer 310 can cover active cell array 220, and colored filter pattern layers 320 then is disposed between substrate 122 and the shared electrode 128, and promptly subtend substrate 120b can be a kind of colored optical filtering substrates that does not have black matrix layer 310; Perhaps, colored filter pattern layers 320 can cover active cell array 220, and black matrix layer 310 then is disposed between substrate 122 and the shared electrode 128.

Fig. 3 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.See also Fig. 3; The touch liquid crystal module 100c of present embodiment comprises an integrated touch baseplate 400, a liquid crystal layer 110, a subtend substrate 120b and a backlight 130; Wherein liquid crystal layer 110 is disposed between subtend substrate 120b and the integrated touch baseplate 400, and subtend substrate 120b is between integrated touch baseplate 400 and backlight 130.

The two function of the touch liquid crystal module 100c of present embodiment and touch liquid crystal module 100b shown in Figure 2 is identical; And structural similarity; Only difference is: the integrated touch baseplate 400 of touch liquid crystal module 100c structurally with integrated touch baseplate 300 some difference of Fig. 2, and followingly will mainly introduce the two difference of integrated touch baseplate 300,400.

In the embodiment shown in fig. 3, integrated touch baseplate 400 also comprises the element of some integrated touch baseplates 300.In detail, integrated touch baseplate 400 also comprises transparency carrier 210, active cell array 220 and sensing array 230, and sensing array 230 also is disposed between active cell array 220 and the transparency carrier 210.

Integrated touch baseplate 400 also comprises a black matrix layer 410 and a colored filter pattern layers 420.But, be different from integrated touch baseplate shown in Figure 2 300, the two position of the black matrix layer 410 of present embodiment and colored filter pattern layers 420 is different from black matrix layer 310 and colored filter pattern layers 320 fully.

Particularly; In the embodiment shown in fig. 3; Black matrix layer 410 and colored filter pattern layers 420 are all between transparency carrier 210 and active cell array 220; And black matrix layer 410 and colored filter pattern layers 420 the two also between the insulation course 256 of active cell array 220 and sensing array 230, so the grid G 1 of active cell array 220 is to be configured on the black matrix layer 410, but not on the surperficial 236a of insulation course 236.

The many leads 234 of sensing array 230 are between black matrix layer 410 and these sensor pads 232a, and insulation course 236 is between these leads 234 and these sensor pads 232a, so lead 234 is to be sandwiched between insulation course 236 and the black matrix layer 410.Because the grid G 1 of active cell array 220 is to be configured on the black matrix layer 410; But not on surperficial 236a; Be relative two sides that grid G 1 and lead 234 are disposed at black matrix layer 410 respectively; Therefore in the present embodiment, grid G 1 is difficult to by forming with skim layer, so grid G 1 is difficult to make with same light shield with lead 234 with lead 234.

In the embodiment shown in fig. 3; Though integrated touch baseplate 400 comprises black matrix layer 410 and colored filter pattern layers 420 simultaneously; But in other embodiments; Black matrix layer 410 and colored filter pattern layers 420 can two be selected a ground and are configured between substrate 122 and the shared electrode 128, and integrated touch baseplate 400 can only comprise and deceives matrix layer 410 or colored filter pattern layers 420.

For example, integrated touch baseplate 400 can include only colored filter pattern layers 420, and black matrix layer 410 is configured between substrate 122 and the shared electrode 128.Or integrated touch baseplate 400 can include only black matrix layer 410, and colored filter pattern layers 420 is configured between substrate 122 and the shared electrode 128.Therefore, black matrix layer 410 shown in Figure 3 is merely with colored filter pattern layers 420 and illustrates, and non-limiting the present invention.

Fig. 4 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.See also Fig. 4, the two function of the touch liquid crystal module 100d of present embodiment and the touch liquid crystal module 100c of previous embodiment is identical, and structural similarity is so the two identical characteristic repeated description not below is mainly introduced the two difference.

In detail; The two difference of touch liquid crystal module 100d and touch liquid crystal module 100c is: in the integrated touch baseplate 500 of touch liquid crystal module 100d; Black matrix layer 510 and colored filter pattern layers 520 are all between these leads 234 and insulation course 236; Be that lead 234 is configured on the black matrix layer 510, and a plurality of conducting connecting part 538 runs through insulation course 236 and black matrix layer 510, and be connected between some sensor pad 232a and these leads 234.

Black matrix layer 510 and colored filter pattern layers 520 are all between transparency carrier 210 and active cell array 220; And black matrix layer 510 and colored filter pattern layers 520 the two also between insulation course 236 and active cell array 220; So the grid G 1 of active cell array 220 also is configured on the black matrix layer 510, and grid G 1 and lead 234 the two be to be configured on the same surface of black matrix layer 510.Therefore, in the present embodiment, grid G 1 and lead 234 can be by forming with skim layer, and grid G 1 and lead 234 also can be made with same light shield.

In the embodiment shown in fig. 4; Though integrated touch baseplate 500 comprises black matrix layer 510 and colored filter pattern layers 520 simultaneously; But in other embodiments; Integrated touch baseplate 500 can include only colored filter pattern layers 520, and black matrix layer 510 is configured between the substrate 122 and shared electrode 128 of subtend substrate 120b.Or integrated touch baseplate 500 can include only black matrix layer 510, and colored filter pattern layers 520 is configured between substrate 122 and the shared electrode 128.Therefore, black matrix layer 510 shown in Figure 4 is merely with colored filter pattern layers 520 and illustrates, and non-limiting the present invention.

Fig. 5 is the diagrammatic cross-section of the touch liquid crystal module of another embodiment of the present invention.See also Fig. 5; The touch liquid crystal module 100e of present embodiment comprises an integrated touch baseplate 600, a liquid crystal layer 110, a subtend substrate 120b and a backlight 130; Wherein liquid crystal layer 110 is disposed between subtend substrate 120b and the integrated touch baseplate 600, and subtend substrate 120b is between integrated touch baseplate 600 and backlight 130.

With regard to function, the touch liquid crystal module 100e of present embodiment is identical with the touch liquid crystal module 100a to 100d of above embodiment.But; From structure; Touch liquid crystal module 100e but with above some difference of touch liquid crystal module 100a-100d; And these differences comprise: integrated touch baseplate 600 included active cell arrays 630 are a top grid type transistor array (top-gate transistor array), and the two position of the black matrix layer of integrated touch baseplate 600 610 and colored filter pattern layers 620 is different from the embodiment of above Figure 1B to Fig. 4.

In detail, active cell array 630 has a plurality of grid G 2, a plurality of source electrode S2 and a plurality of drain D 2, and wherein these source S 2 and drain D 2 are all between the transparency carrier 210 of these grid G 2 and integrated touch baseplate 600.In addition; Integrated touch baseplate 600 also comprises a sensing array 230; And the many leads 234 of these source S 2, drain D 2 and sensing array 230 all can be by forming with skim layer, and for example source S 2, drain D 2 can be made with same light shield with lead 234.

Black matrix layer 610 and colored filter pattern layers 620 are all between insulation course 236 and transparency carrier 210; And the two is more between these sensor pads 232a and transparency carrier 210; The shape of wherein black matrix layer 610 can be netted, and colored filter pattern layers 620 can the position in the grid of black matrix layer 610.Black matrix layer 610 can corresponding grid G 2, lets the incident light L2 can be from these grid G 2 of transparency carrier 210 direct irradiations.Can reduce the light leakage current that active cell array 630 is produced like this, let active cell array 630 can normally drive the liquid crystal molecule in the liquid crystal layer 110.

What one of value was carried is; Though the active cell array 630 in the present embodiment is a top grid type transistor array; But in other embodiments, active cell array 630 also can be replaced with bottom-gate transistor npn npn array, and promptly the active cell array among Fig. 5 630 can change active cell array 220 into.

In addition, top grid type transistor array also can be applied to that is to say that the active cell array 220 among Figure 1B and Fig. 2 to Fig. 4 can be replaced with active cell array 630 among the aforementioned touch liquid crystal module 100a-100d.Therefore, the active cell array 220,630 among Figure 1B and Fig. 2 to Fig. 5 is merely and illustrates, and non-limiting the present invention.

In sum, because integrated touch baseplate of the present invention comprises active cell array and sensing array, therefore touch liquid crystal module of the present invention has the function that image shows and data are imported simultaneously concurrently.In addition, integrated touch baseplate of the present invention can adopt the manufacturing technology of present active component array base board to make.Compared to known technology, the mode that the present invention needn't adopt adhesive agent to fit is made integrated touch baseplate, to solve the problem that bubble produces.

Secondly, the included transparency carrier of integrated touch baseplate can not only carry sensing array and active cell array, can also be used to simultaneously when making a kind of cover glass.Therefore, transparency carrier can be protected sensing array, suffers scratch to avoid sensing array.Hence one can see that; The two does not need the cover glass of fitting again touch liquid crystal module of the present invention and integrated touch baseplate; Make the present invention to solve effectively in known technology,, and then improve the yield of touch liquid crystal display effectively because of the applying cover glass causes the problem of yield reduction.

Though the present invention with previous embodiment openly as above, so it is not in order to limiting the present invention, anyly has the knack of alike art, is not breaking away from the spirit and scope of the present invention, and institute does to change with the equivalence of retouching and replaces, and still is in the claim protection domain of the present invention.

Claims (13)

1. an integrated touch baseplate is characterized in that, comprising:

One transparency carrier;

One active cell array;

One sensing array; Be disposed between this active cell array and this transparency carrier; And comprise polylith sensor pad, many leads, an insulation course and a plurality of conducting connecting parts, and wherein this insulation course is between those leads and those sensor pads, and those sensor pads are all between this insulation course and this transparency carrier; Those conducting connecting parts all are arranged in this insulation course, and are connected between some sensor pads and those leads; And

One black matrix layer, this black matrix layer is between this transparency carrier and this active cell array.

2. integrated touch baseplate as claimed in claim 1 is characterized in that this sensing array also comprises many cablings, and those cablings and are connected in other sensor pads all between this insulation course and this transparency carrier.

3. integrated touch baseplate as claimed in claim 1 is characterized in that those leads have the double-decker of chromium oxide/chromium.

4. integrated touch baseplate as claimed in claim 1 is characterized in that,

Should deceive matrix layer between this insulation course and this transparency carrier, or

Should deceive matrix layer between this insulation course and this active cell array.

5. integrated touch baseplate as claimed in claim 1 is characterized in that, those leads are between this black matrix layer and those sensor pads.

6. integrated touch baseplate as claimed in claim 1 is characterized in that, this black matrix layer is between those leads and this insulation course, and those conducting connecting parts run through this insulation course and should deceive matrix layer.

7. an integrated touch baseplate is characterized in that, comprising:

One transparency carrier;

One active cell array;

One sensing array; Be disposed between this active cell array and this transparency carrier; And comprise polylith sensor pad, many leads, an insulation course and a plurality of conducting connecting parts, and wherein this insulation course is between those leads and those sensor pads, and those sensor pads are all between this insulation course and this transparency carrier; Those conducting connecting parts all are arranged in this insulation course, and are connected between some sensor pads and those leads; And

One black matrix layer, this black matrix layer is local to cover this active cell array, and this active cell array is between this black matrix layer and this transparency carrier.

8. a touch liquid crystal module is characterized in that, comprising:

One integrated touch baseplate comprises

One transparency carrier;

One active cell array;

One sensing array; Be disposed between this active cell array and this transparency carrier; And comprise polylith sensor pad, many leads, an insulation course and a plurality of conducting connecting parts, and wherein this insulation course is between those leads and those sensor pads, and those sensor pads are all between this insulation course and this transparency carrier; Those conducting connecting parts all are arranged in this insulation course, and are connected between those sensor pads and those leads; And

One black matrix layer, this black matrix layer is between this transparency carrier and this active cell array;

One subtend substrate;

One liquid crystal layer is disposed between this subtend substrate and this integrated touch baseplate; And

One backlight, this subtend substrate is between this integrated touch baseplate and this backlight.

9. touch liquid crystal module as claimed in claim 8; It is characterized in that this sensing array also comprises many cablings, those cablings are all between this insulation course and this transparency carrier; And be connected in other sensor pads, wherein respectively this cabling is connected between adjacent two sensor pads.

10. touch liquid crystal module as claimed in claim 8 is characterized in that,

Should deceive matrix layer between this insulation course and this transparency carrier, or

Should deceive matrix layer between this insulation course and this active cell array.

11. touch liquid crystal module as claimed in claim 8 is characterized in that, those leads are between this black matrix layer and those sensor pads.

12. touch liquid crystal module as claimed in claim 8 is characterized in that, this black matrix layer is between those leads and this insulation course, and those conducting connecting parts run through this insulation course and should deceive matrix layer.

13. a touch liquid crystal module is characterized in that, comprising:

One integrated touch baseplate comprises

One transparency carrier;

One active cell array; And

One sensing array; Be disposed between this active cell array and this transparency carrier; And comprise polylith sensor pad, many leads, an insulation course and a plurality of conducting connecting parts, and wherein this insulation course is between those leads and those sensor pads, and those sensor pads are all between this insulation course and this transparency carrier; Those conducting connecting parts all are arranged in this insulation course, and are connected between those sensor pads and those leads;

One subtend substrate;

One liquid crystal layer is disposed between this subtend substrate and this integrated touch baseplate;

One backlight, this subtend substrate is between this integrated touch baseplate and this backlight; And

One black matrix layer, this black matrix layer is local to cover this active cell array, and this active cell array is between this black matrix layer and this transparency carrier.

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