CN205680367U - A kind of abnormity display screen - Google Patents

Abstract

The utility model discloses a kind of abnormity display screen, including being shaped as the special-shaped display floater of irregular closed figures, and it is bound to provide the display driver circuit to induction signal at any edge of abnormity display floater and for the grid line in abnormity display floater and data wire.The special-shaped display screen that this utility model embodiment provides is by binding an IC chip that can provide signal to data wire and grid line an edge simultaneously, so can be set to narrow frame at other frames of the special-shaped display screen of unbound IC chip, reduce the border width of abnormity display screen to greatest extent, show reaching the special-shaped display screen of narrow frame.

Description

A kind of abnormity display screen

Technical field

This utility model relates to Display Technique field, particularly relates to a kind of abnormity display screen.

Background technology

Nowadays, the abnormity display screens such as the display that such as wearable display and being prone to is installed on fascia become One focus in display market.Along with the development of the processing technology of display screen, being applicable to of designing according to demand is various The display terminal that shape that house mark (logo) or commercial advertisement are promoted is special, has increasing demand.Therefore, how Realize narrow frame design for abnormity display screen, to improve the effective display area of abnormity display screen, be those skilled in the art Need badly and solve the technical problem that.

Utility model content

In view of this, this utility model embodiment provides a kind of abnormity display screen, shows in order to realize the abnormity of narrow frame Display screen shows.

Therefore, this utility model embodiment provides a kind of abnormity display screen, including: it is shaped as irregular closed figures Special-shaped display floater, and be bound to described abnormity display floater any edge at and for described abnormity display floater Interior grid line and data wire provide the display driver circuit to induction signal.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, bind institute State the minor face of the circumscribed rectangle of the closed figures that edge is described abnormity display floater of display driver circuit.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described aobvious Show that drive circuit is bound to top edge or the lower limb of described abnormity display floater；Described abnormity display floater be shaped as do not advise Solid closed figures then；Described abnormity display floater is divided into the first area with rectangular shape along described minor face, And second area in irregular shape；

In the territory, effective display area of described first area and second area, described data wire is that vertical straight line is arranged in son Row gap location between pixel；

Described data wire in described second area is connected to described display driver circuit by data lead；Described number Include according to lead-in wire: in being arranged on described first area and the vertical data lead consistent with the bearing of trend of described data wire, with And for the described data wire that is connected in described second area and described vertical data lead and extension with described grid line The horizontal data lead-in wire that direction is consistent.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described aobvious Show that drive circuit is bound to top edge or the lower limb of described abnormity display floater；Described abnormity display floater be shaped as do not advise Hollow closed figures then, and outline comprises the arc that multistage central angle is different；Described abnormity display floater is along described short While be divided into the first area with rectangular shape, comprise the 3rd hollow region, comprise the 4th region of described arc；

In described first area, the 3rd region and territory, four-range effective display area, described data wire is vertical straight Line arrangement row gap location between the sub-pixels；

Described data wire in described 3rd region is connected to described display driver circuit by data lead；Described number Include according to lead-in wire: in being arranged on described first area or the 4th region and consistent with the bearing of trend of described data wire vertical number According to lead-in wire, and for the described data wire that is connected in described 3rd region and described vertical data lead and with described grid The horizontal data that the bearing of trend of line is consistent goes between；

Described data wire in described 4th region is connected to described display driver circuit by data lead；Described number Include according to lead-in wire: in being arranged on described 4th region and the vertical data lead consistent with the bearing of trend of described data wire, with And for the described data wire that is connected in described 4th region and described vertical data lead and extension with described grid line The horizontal data lead-in wire that direction is consistent.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described different Shape display floater is divided into the 5th region with solid closed figures along long limit, comprises the 6th hollow region；

In the territory, effective display area in described 5th region and the 6th region, described grid line is that horizontal linear is arranged in sub-picture Row gap location between element；

Described grid line in described 6th region is connected to described display driver circuit by grid lead；Described grid Lead-in wire includes: in being arranged on described 5th region and the horizontal grid lead consistent with the bearing of trend of described grid line, Yi Jiyong Described grid line in being connected to described 6th region and described horizontal grid lead and bearing of trend with described data wire Consistent vertical grid lead.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described perpendicular Straight data lead arranges row gap location between the sub-pixels, and/or is arranged on non-display area；

Described horizontal data lead-in wire arranges row gap location between the sub-pixels, and/or is arranged on non-display area.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described perpendicular Straight data lead is arranged with layer with described data wire, or, described vertical data lead arrange with the different layer of described data wire and with institute State data wire and partly overlap in the orthographic projection of substrate；

Described horizontal data lead-in wire is arranged with layer with described grid line, or, described horizontal data lead-in wire and the different layer of described grid line Arrange and partly overlap in the orthographic projection of substrate with described grid line.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described water Screen-gri lead-in wire arranges row gap location between the sub-pixels, and/or is arranged on non-display area；

Described vertical grid lead arranges row gap location between the sub-pixels, and/or is arranged on non-display area.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described water Screen-gri lead-in wire is arranged with layer with described grid line, or, described horizontal grid lead and the different layer of described grid line arrange and with described grid Line partly overlaps in the orthographic projection of substrate；

Described vertical grid lead is arranged with layer with described data wire, or, described vertical grid lead and described data wire Different layer arranges and partly overlaps in the orthographic projection of substrate with described data wire.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described different Shape display floater has the shape of letter or number.

In a kind of possible implementation, in the above-mentioned abnormity display screen that this utility model embodiment provides, described different Shape display floater is any one in display panels, electroluminescence display panel, Plasmia indicating panel or Electronic Paper.

The beneficial effect of this utility model embodiment includes:

A kind of abnormity display screen that this utility model embodiment provides, including the abnormity being shaped as irregular closed figures Display floater, and be bound at any edge of abnormity display floater and for the grid line in abnormity display floater and data Line provides the display driver circuit to induction signal.The special-shaped display screen that this utility model embodiment provides is by an edge Bind an IC chip that signal can be provided to data wire and grid line simultaneously, so the abnormity of unbound IC chip can be shown It is set to narrow frame at other frames of display screen, reduces the border width of abnormity display screen to greatest extent, to reach narrow frame Special-shaped display screen show.

Accompanying drawing explanation

The structural representation of the special-shaped display screen that Fig. 1 provides for this utility model embodiment；

Fig. 2 a and Fig. 2 b is respectively the structural representation of embodiment one；

Fig. 3 a and Fig. 3 b is respectively the side-looking structural representation of embodiment one；

Fig. 4 a and Fig. 4 b is respectively the structural representation of embodiment two；

Fig. 5 a and Fig. 5 b is respectively the side-looking structural representation of embodiment two.

Detailed description of the invention

Below in conjunction with the accompanying drawings, the detailed description of the invention of the special-shaped display screen that this utility model embodiment provides is carried out in detail Ground explanation.

This utility model embodiment provides a kind of abnormity display screen, as it is shown in figure 1, include: be shaped as irregular closing Close the special-shaped display floater 01 of figure, and be bound at any edge of abnormity display floater and for abnormity display floater Grid line and data wire in 01 provide the display driver circuit 02 to induction signal.

Specifically, in the above-mentioned abnormity display screen that this utility model embodiment provides, binding display driver circuit 02 Edge can be the minor face of the circumscribed rectangle of the closed figures of abnormity display floater 01, and this circumscribed rectangle is for covering this closed figures Minimum rectangle.Such as illustrating as a example by the shape specially letter e of abnormity display floater 01 in Fig. 1, this is shaped as word The circumscribed rectangle of the special-shaped display floater 01 of female E as shown in phantom in Figure 1, is then shaped as the special-shaped display floater of letter e at this The top edge of 01 or the non-display area of lower limb bind one can provide the display of signal to drive to data wire and grid line simultaneously Galvanic electricity road 02 (IC chip), so can be set to narrow frame at other frames of the special-shaped display screen of unbound IC chip, Reduce the border width of abnormity display screen to greatest extent, show reaching the special-shaped display screen of narrow frame.

This utility model embodiment provide above-mentioned abnormity display floater 01 in grid line and data wire signal all by One IC draws at the minor face of abnormity display floater 01, and the cabling of concrete grid line and data wire is arranged and abnormity display surface The concrete shape of plate 01 is relevant, has different designs at the difformity such as arc or annulus.Such as have for circular, In the special-shaped display floater of the rearview mirror etc. in ellipse or the most vehicle-mounted series of closed arc, can be by abnormity display floater It is divided into the general areas having well-regulated rectangular shape and the irregular shaped region with irregular figure, permissible in general areas Be connected to IC according to conventional pixel design grid line and data wire, in irregular shaped region grid line and data wire can not completely along capable or It is connected to IC, below for the grid line in the special-shaped display floater with different types of irregular shaped region and data wire after row cabling Concrete wiring describe in detail.

Embodiment one:

Abnormity display floater 01 be shaped as the letter e shown in irregular solid closed figures, such as Fig. 2 a and Fig. 2 b. Now, display driver circuit 02 is bound to top edge or the lower limb of abnormity display floater 01；Abnormity display floater 01 is along short Limit can be divided into the first area D1 with rectangular shape, and second area D2 in irregular shape.

Grid line and the wiring of data wire in the D1 of first area can use conventional design, i.e. first area D1's In territory, effective display area, as shown in Figure 2 a and 2 b, data wire A is the row gap location that vertical straight line is arranged between sub-pixel, Cause the fan-out area (Fanout) of IC afterwards directly down from territory, effective display area at the data wire A of first area D1.

Owing to the territory, effective display area in second area D2 is discontinuous, therefore, data wire B can not draw from the fan-out area of IC Directly connect up straight up after going out, need to use the position of first area D1.Specifically, in the effective display area of second area D2 In territory, data wire B1, B2 and B3 are the row gap location that vertical straight line is arranged between sub-pixel；Data in second area D2 Line B1, B2 and B3 are connected to display driver circuit 02 by data lead；Data lead specifically includes: be arranged on first area D1 In and vertical data lead m1 consistent with the bearing of trend of data wire B1, B2 and B3 and m2, and be used for being connected to the secondth district Data wire B1, B2 in the D2 of territory and B3 and vertical data lead m1 and m2's and the horizontal data consistent with the bearing of trend of grid line Lead-in wire n1, n2, n3 and n4.The most as shown in Figure 2 a and 2 b, data wire B1 passes sequentially through horizontal data lead-in wire n1, vertical data are drawn After line m1, horizontal data lead-in wire n2 is connected with data wire B2, pass sequentially through horizontal data lead-in wire n3, vertical data lead m2, water Flat data lead n4 is connected with data wire B3, is connected with display driver circuit 02 afterwards.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, as shown in Figure 2 a, Vertically data lead m1 and m2 specifically can be arranged between the row between the sub-pixel in the territory, effective display area of first area D1 At gap, now, itself set due to the row gap location between each sub-pixel in the territory, effective display area of first area D1 Be equipped with data wire A, then the row gap location between each sub-pixel arranges vertical data lead m1 and m2 may be to first area The aperture opening ratio of D1 affects, therefore, as shown in Figure 2 b, it is also possible to vertical data lead m1 and m2 are arranged on first The non-display area of region D1, but at non-display area too much vertical data lead m1 is set and m2 is unfavorable for that narrow frame sets Meter, the row gap between therefore, it can according to the design needs sub-pixel in the territory, effective display area of first area D1 simultaneously Place and non-display area vertical data lead m1 of setting unit and m2 simultaneously.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, as shown in Figure 3 a, can vertical data lead m1 be set with layer with data wire A Put, now can cause the loss of aperture opening ratio.Or, in order to meet for the demand of larger open rate, as shown in Figure 3 b, can be by Vertically data lead m1 layer different with data wire A arranges and partly overlaps in the orthographic projection of substrate with data wire A, now can increase and cover The usage quantity of lamina membranacea.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, as shown in Figure 2 a, Horizontal data lead-in wire n1, n2, n3 and n4 specifically can be arranged on the row gap location between the sub-pixel in territory, effective display area, this Time, owing to the row gap location between each sub-pixel in territory, effective display area itself is already provided with grid line, then at each sub-picture Row gap location between element arranges horizontal data lead-in wire n1, n2, n3 and n4 and may affect aperture opening ratio, because of This, as shown in Figure 2 b, it is also possible to gone between by horizontal data n1, n2, n3 and n4 are arranged on non-display area, but at non-display area Too much horizontal data lead-in wire n1, n2, n3 and n4 is set and is unfavorable for narrow frame design, therefore, it can need simultaneously according to design Row gap location between sub-pixel in territory, effective display area and non-display area setting unit horizontal data lead-in wire n1 simultaneously, N2, n3 and n4.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, and in like manner, can be gone between by horizontal data n1, n2, n3 and n4 set with layer with grid line Put, now can cause the loss of aperture opening ratio.Or, in order to meet the demand for larger open rate, in like manner, can be by number of levels Arrange according to lead-in wire n1, n2, n3 and n4 layer different with grid line and partly overlap in the orthographic projection of substrate with grid line, now can increase mask The usage quantity of plate.

Embodiment two:

Abnormity display floater 01 be shaped as irregular hollow closed figures, and outline to comprise multistage central angle different Arc, such as the letter b shown in Fig. 4 a.Now, display driver circuit 02 be bound to abnormity display floater 01 top edge or Lower limb；Abnormity display floater 01 can be divided into the first area D1 with rectangular shape along minor face, comprises hollow 3rd region D3, comprises the 4th region D4 of arc.

The wiring of the data wire in the D1 of first area can use conventional design, i.e. effectively showing at first area D1 In showing region, as shown in fig. 4 a, data wire A is the row gap location that vertical straight line is arranged between sub-pixel, afterwards in the firstth district The data wire A of territory D1 causes the fan-out area (Fanout) of IC directly down from territory, effective display area.

Owing to the territory, effective display area in the 3rd region D3 is discontinuous, therefore, data wire C can not draw from the fan-out area of IC Directly connect up straight up after going out, need to use first area D1 or the position of the 4th region D4.Specifically, at the 3rd region D3 Territory, effective display area in, data wire C1, C2 and C3 are the row gap location that vertical straight line is arranged between sub-pixel；In the 3rd district Data wire C1, C2 and C3 in the D3 of territory are connected to display driver circuit 02 by data lead；Data lead specifically includes: arrange In first area D1 or the 4th region D4 and vertical data lead M1 consistent with the bearing of trend of data wire C1, C2 and C3 and M2, and for data wire C1, C2 and C3 of being connected in the 3rd region D3 and vertical data lead M1 and M2's and and grid line Bearing of trend consistent horizontal data lead-in wire N1, N2, N3 and N4.The most as shown in fig. 4 a, data wire C1 passes sequentially through number of levels After being connected with data wire C2 according to lead-in wire N1, vertical data lead M1, horizontal data lead-in wire N2, pass sequentially through horizontal data lead-in wire N3, vertical data lead M2, horizontal data lead-in wire N4 is connected with data wire C3, is connected with display driver circuit 02 afterwards.

Due to the arc that comprises in irregular shape in the 4th region D4, therefore, existing in the 4th region D4 can not be direct The data wire connected up straight up, specifically, in the territory, effective display area of the 4th region D4, data wire O1 and O2 is vertical straight Line arrangement row gap location between the sub-pixels；Data wire O1 and O2 in the 4th region D4 is connected to show by data lead Show drive circuit 02；Data lead specifically includes: be arranged in the 4th region D4 and with the bearing of trend one of data wire O1 and O2 Vertical data lead M1 caused ', and for data wire O1 and O2 being connected in the 4th region D4 and vertical data lead M1 ' And horizontal data lead-in wire N1 ', N2 ' and N3 ' that bearing of trend with grid line is consistent.The most as shown in fig. 4 a, data wire O1 is successively Gone between N1 ', vertical data lead M1 by horizontal data ', horizontal data lead-in wire is after N2 ' is connected with data wire O2, by level Data lead N3 ' it is connected with display driver circuit 02.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, such as in Fig. 4 a the In three region D3 shown in the data wire on the left side, vertical data lead M1 and M2 specifically can be arranged on the son in territory, effective display area Row gap location between pixel, now, due to the row gap location between each sub-pixel in territory, effective display area itself Be provided with data wire A, then the row gap location between each sub-pixel arranges vertical data lead M1 and M2 may be to the firstth district The aperture opening ratio of territory D1 affects, therefore, as shown in the data wire on the right in the 3rd region D3 in Fig. 4 a, and can be by perpendicular Straight data lead M1 and M2 are arranged on non-display area, but arrange too much vertical data lead M1 and M2 not at non-display area Be beneficial to narrow frame design, therefore, it can according to design need simultaneously territory, effective display area in sub-pixel between row between At gap and non-display area simultaneously vertical data lead M1 of setting unit and M2.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, with similar, and can be by vertical data lead M1 and data wire A Arrange with layer, now can cause the loss of aperture opening ratio.Or, in order to meet the demand for larger open rate, with such as Fig. 3 b institute Show similar, vertical data lead M1 and the different layer of data wire A can be arranged and with data wire A at the orthographic projection part weight of substrate Folded, now can increase the usage quantity of mask plate.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, such as in Fig. 4 a the In three region D3 shown in the data wire on the left side, horizontal data lead-in wire N1, N2, N3 and N4 specifically can be arranged on territory, effective display area The interior row gap location between sub-pixel, now, due to the row gap location between each sub-pixel in territory, effective display area originally Body already provided with grid line, then the row gap location between each sub-pixel arrange horizontal data lead-in wire N1, N2, N3 and N4 may Aperture opening ratio is affected, therefore, as shown in the data wire on the right in the 3rd region D3 in Fig. 4 a, it is also possible to by level Data lead N1, N2, N3 and N4 are arranged on non-display area, but non-display area arrange too much horizontal data lead-in wire N1, N2, N3 and N4 are unfavorable for narrow frame design, therefore, it can the sub-pixel that needs simultaneously in territory, effective display area according to design it Between row gap location and non-display area simultaneously setting unit horizontal data lead-in wire N1, N2, N3 and N4.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, and in like manner, can be gone between by horizontal data N1, N2, N3 and N4 set with layer with grid line Put, now can cause the loss of aperture opening ratio.Or, in order to meet the demand for larger open rate, in like manner, can be by number of levels Arrange according to lead-in wire N1, N2, N3 and N4 layer different with grid line and partly overlap in the orthographic projection of substrate with grid line, now can increase mask The usage quantity of plate.

Additionally, due to abnormity display floater 01 be shaped as irregular hollow closed figures, the most as shown in Figure 4 b, Abnormity display floater 01 can also can be divided into the 5th region D5 with solid closed figures and comprise sky along long limit 6th region D6 of the heart.

The wiring of the grid line in the 5th region D5 can use conventional design, i.e. in effective display of the 5th region D5 In region, as shown in Figure 4 b, grid line P is horizontal linear arrangement row gap location between the sub-pixels.

Owing to the territory, effective display area in the 6th region D6 is discontinuous, therefore, grid line Q can not directly horizontal wiring, needs Use the position of the 5th region D5.Specifically, in the territory, effective display area of the 6th region D6, grid line Q1 and Q2 is horizontal linear Arrangement row gap location between the sub-pixels；Grid line Q1 and Q2 in the 6th region D6 is connected to display by grid lead and drives Galvanic electricity road 02；Grid lead specifically includes: be arranged on interior and consistent with the bearing of trend of the grid line P horizontal grid of the 5th region D5 Lead-in wire R1, and for grid line Q1 and Q2 that be connected in the 6th region D6 and horizontal grid lead R1's and with the prolonging of data wire Stretch vertical grid lead S1 and S2 that direction is consistent.The most as shown in Figure 4 b, grid line Q1 passes sequentially through vertical grid lead S1, level Grid lead R1, vertical grid lead S2 are connected with grid line Q2.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, such as in Fig. 4 b the In six region D6 shown in the grid line of top, horizontal grid lead R1 specifically can be arranged on the sub-pixel in territory, effective display area it Between row gap location, now, due to the row gap location between each sub-pixel in territory, effective display area itself already provided with Grid line P, then the row gap location between each sub-pixel horizontal grid lead R1 is set may be to the aperture opening ratio of the 5th region D5 Affect, therefore, as shown in grid line following in the 6th region D6 in Fig. 4 b, horizontal grid lead R1 can be set Put at non-display area, but too much horizontal grid lead R1 is set at non-display area and is unfavorable for narrow frame design, therefore, can With according to design need simultaneously territory, effective display area in sub-pixel between row gap location and non-display area set simultaneously Put part of horizontal grid lead R1.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, as shown in Figure 5 a, can be arranged with layer by horizontal grid lead R1 and grid line P, Now can cause the loss of aperture opening ratio.Or, in order to meet the demand for larger open rate, as shown in Figure 5 b, can be by water Screen-gri lead-in wire R1 layer different with grid line P arranges and partly overlaps in the orthographic projection of substrate with grid line P, now can increase mask plate Usage quantity.

In the specific implementation, in order to not affect the normal display of each sub-pixel in abnormity display floater, such as in Fig. 4 b the In six region D6 shown in the grid line of top, vertical grid lead S1 and S2 specifically can be arranged on the sub-picture in territory, effective display area Row gap location between element, now, owing to the row gap location between each sub-pixel in territory, effective display area has set itself Be equipped with data wire, then the row gap location between each sub-pixel arranges vertical grid lead S1 and S2 and may cause aperture opening ratio Certain impact, therefore, as shown in grid line following in the 6th region D6 in Fig. 4 b, it is also possible to by vertical grid lead S1 and S2 It is arranged on non-display area, but too much vertical grid lead S1 and S2 is set at non-display area and is unfavorable for narrow frame design, The while of therefore, it can need according to design, row gap location and non-display area between the sub-pixel in territory, effective display area are same Time setting unit vertical grid lead S1 and S2.

Further, in the above-mentioned abnormity display floater that this utility model embodiment provides, in order to save as far as possible Processing technology, reduces the usage quantity of mask plate, in like manner, can be arranged with layer with data wire by vertical grid lead S1 and S2, Now can cause the loss of aperture opening ratio.Or, in order to meet the demand for larger open rate, in like manner, can be by vertical grid Lead-in wire S1 and S2 layer different with data wire arranges and partly overlaps in the orthographic projection of substrate with data wire, now can increase mask plate Usage quantity.

In the specific implementation, the special-shaped display floater 01 in the above-mentioned abnormity display screen that this utility model embodiment provides Concrete shape can be polygon, circular, the letter of A-Z, or the numeral of 0-9, and the combination in any of these shapes above-mentioned, Meet the personalized abnormity display device of customer demand being combined into required logo etc..

In the specific implementation, the special-shaped display floater 01 in the above-mentioned abnormity display screen that this utility model embodiment provides can With any one in employing display panels, electroluminescence display panel, Plasmia indicating panel or Electronic Paper, at this not Limit.

The above-mentioned abnormity display screen that this utility model embodiment provides, including the abnormity being shaped as irregular closed figures Display floater, and be bound at any edge of abnormity display floater and for the grid line in abnormity display floater and data Line provides the display driver circuit to induction signal.The special-shaped display screen that this utility model embodiment provides is by an edge Bind an IC chip that signal can be provided to data wire and grid line simultaneously, so the abnormity of unbound IC chip can be shown It is set to narrow frame at other frames of display screen, reduces the border width of abnormity display screen to greatest extent, to reach narrow frame Special-shaped display screen show.

Obviously, those skilled in the art can carry out various change and modification without deviating from this practicality to this utility model Novel spirit and scope.So, if of the present utility model these amendment and modification belong to this utility model claim and Within the scope of its equivalent technologies, then this utility model is also intended to comprise these change and modification.

Claims (11)

1. a special-shaped display screen, it is characterised in that including: be shaped as the special-shaped display floater of irregular closed figures, with And be bound at any edge of described abnormity display floater and for the grid line in described abnormity display floater and data wire Display driver circuit to induction signal is provided.

2. abnormity display screen as claimed in claim 1, it is characterised in that the edge binding described display driver circuit is described The minor face of the circumscribed rectangle of the closed figures of abnormity display floater.

3. abnormity display screen as claimed in claim 2, it is characterised in that described display driver circuit is bound to described abnormity and shows Show top edge or the lower limb of panel；Described abnormity display floater be shaped as irregular solid closed figures；Described abnormity Display floater is divided into the first area with rectangular shape, and second area in irregular shape along described minor face；

In the territory, effective display area of described first area and second area, described data wire is that vertical straight line is arranged in sub-pixel Between row gap location；

Described data wire in described second area is connected to described display driver circuit by data lead；Described data are drawn Line includes: in being arranged on described first area and the vertical data lead consistent with the bearing of trend of described data wire, Yi Jiyong Described data wire in being connected to described second area and described vertical data lead and bearing of trend with described grid line Consistent horizontal data lead-in wire.

4. abnormity display screen as claimed in claim 2, it is characterised in that described display driver circuit is bound to described abnormity and shows Show top edge or the lower limb of panel；Described abnormity display floater be shaped as irregular hollow closed figures, and outline Comprise the arc that multistage central angle is different；Described abnormity display floater is divided into along described minor face and has the of rectangular shape One region, comprises the 3rd hollow region, comprises the 4th region of described arc；

In described first area, the 3rd region and territory, four-range effective display area, described data wire is that vertical straight line is arranged Cloth row gap location between the sub-pixels；

Described data wire in described 3rd region is connected to described display driver circuit by data lead；Described data are drawn Line includes: in being arranged on described first area or the 4th region and the vertical data consistent with the bearing of trend of described data wire are drawn Line, and for the described data wire that is connected in described 3rd region and described vertical data lead and with described grid line Bearing of trend consistent horizontal data lead-in wire；

Described data wire in described 4th region is connected to described display driver circuit by data lead；Described data are drawn Line includes: in being arranged on described 4th region and the vertical data lead consistent with the bearing of trend of described data wire, Yi Jiyong Described data wire in being connected to described 4th region and described vertical data lead and bearing of trend with described grid line Consistent horizontal data lead-in wire.

5. abnormity display screen as claimed in claim 4, it is characterised in that described abnormity display floater is divided into along long limit There is the 5th region of solid closed figures, comprise the 6th hollow region；

In the territory, effective display area in described 5th region and the 6th region, described grid line be horizontal linear be arranged in sub-pixel it Between row gap location；

Described grid line in described 6th region is connected to described display driver circuit by grid lead；Described grid lead Including: in being arranged on described 5th region and the horizontal grid lead consistent with the bearing of trend of described grid line, and for even The described grid line being connected in described 6th region is with described horizontal grid lead and consistent with the bearing of trend of described data wire Vertical grid lead.

6. the special-shaped display screen as described in claim 3 or 4, it is characterised in that described vertical data lead is arranged on sub-pixel Between row gap location, and/or be arranged on non-display area；

Described horizontal data lead-in wire arranges row gap location between the sub-pixels, and/or is arranged on non-display area.

7. abnormity display screen as claimed in claim 6, it is characterised in that described vertical data lead and the same layer of described data wire Arrange, or, described vertical data lead and the different layer of described data wire are arranged and with described data wire in the orthographic projection part of substrate Overlapping；

Described horizontal data lead-in wire is arranged with layer with described grid line, or, described horizontal data lead-in wire is arranged with the different layer of described grid line And partly overlap in the orthographic projection of substrate with described grid line.

8. abnormity display screen as claimed in claim 5, it is characterised in that described horizontal grid lead is arranged between the sub-pixels Row gap location, and/or be arranged on non-display area；

Described vertical grid lead arranges row gap location between the sub-pixels, and/or is arranged on non-display area.

9. abnormity display screen as claimed in claim 8, it is characterised in that described horizontal grid lead sets with layer with described grid line Put, or, described horizontal grid lead layer different with described grid line arranges and partly overlaps in the orthographic projection of substrate with described grid line；

Described vertical grid lead is arranged with layer with described data wire, or, described vertical grid lead and the different layer of described data wire Arrange and partly overlap in the orthographic projection of substrate with described data wire.

10. the special-shaped display screen as described in claim 1-5,8,9 any one, it is characterised in that described abnormity display floater tool There is the shape of letter or number.

The 11. special-shaped display screens as described in claim 1-5,8,9 any one, it is characterised in that described abnormity display floater is Any one in display panels, electroluminescence display panel, Plasmia indicating panel or Electronic Paper.