CN205029710U - Display screen and mobile terminal - Google Patents

Abstract

The utility model relates to a display screen and mobile terminal, the display screen includes base plate, liquid crystal layer and circuit subassembly, the base plate includes installation face, bottom surface, and the side, liquid crystal district and circuit district are drawn together to installation bread, the liquid crystal district sets up the drive circuit, the circuit subassembly including bend the basic unit with set up in drive transmission line in the basic unit bends, bend the basic unit include first bend the portion and the second portion of bending, the first portion of bending laminate in in the circuit district, the second portion of bending laminate in the side or the bottom surface, drive transmission line electric connection the drive incoming end. Drive transmission line can obtain sufficient live width to greatly the degree reduces drive transmission line's resistance to can not increase the width in circuit district, can not influence promptly the non -display area width of display screen, the while can also effectively reduce the width of non -display area to improved user experience, promoted the performance of display screen.

Description

Display screen and mobile terminal

Technical field

The utility model and electronic device field, particularly relate to a kind of display screen and mobile terminal.

Background technology

In current mobile phone, the holding wire of display screen more and more affects the display effect of mobile phone display screen, signal line in usual display screen is all be arranged in non-display area, and the non-display area of display screen is arranged at all sides of viewing area usually, namely cabling is set in all sides of the viewing area of display screen, but when cabling is arranged, in order to not affect signal transmission quality, need circuit resistance to be done more low better, according to resistance formula R=PL/S, the wider resistance of live width is less, thus when ensureing that circuit resistance is less, need the live width increasing circuit, if but increasing live width can increase non-display area width, thus increase the width of mobile phone frame, namely the black surround of mobile phone is increased, thus affect product performance.

Utility model content

The utility model provides a kind of and improves Consumer's Experience, the display screen of improving product performance and mobile terminal.

A kind of display screen provided by the utility model, wherein, described display screen comprises substrate, liquid crystal layer and circuit pack, described substrate comprises installed surface and is connected to the side of described installed surface, described installed surface comprises liquid crystal area and is arranged at the line areas of described liquid crystal area side, described liquid crystal area arranges driver circuit, and described line areas is provided with the driving incoming end connecting described driver circuit, described liquid crystal layer correspondence is covered in described liquid crystal area, and is electrically connected described driver circuit, described circuit pack comprises bending basic unit and is arranged at the driving transmission line in described bending basic unit, described bending basic unit comprises the first bending part and the second bending part that are connected, described first bending part fits in described line areas, relatively described first bending part of described second bending part bends and fits in described side, described driving transmission line comprises many and drives winding displacement, one end of each described driving winding displacement extends to described first bending part, and be electrically connected to described driving incoming end, many described driving winding displacements are arranged in order to described second bending part from described first bending part.

Wherein, described display screen also comprises touch control layer, described touch control layer correspondence is covered on described liquid crystal layer, described liquid crystal area also arranges induction line, described induction line is electrically connected described touch control layer, described line areas is also provided with the induction output connecting described induction line, described induction output and described driving incoming end mutually isolated, described circuit pack also comprises the induction transmission line be arranged in described bending basic unit, described induction transmission line and described driving transmission line mutually isolated, described induction transmission line comprises many induction winding displacements, one end of each described induction winding displacement extends to described first bending part, and be electrically connected to described driving incoming end, many described induction winding displacements are arranged in order to described second bending part from described first bending part, many described driving winding displacements are arranged in order to described 3rd bending part from described first bending part.

Wherein, described line areas comprises the driver circuit district and induction line district that lay respectively at both sides, described liquid crystal area, and described driving incoming end and described induction output are arranged at described driver circuit district and described induction line district respectively.

Wherein, described bending basic unit is two, is respectively the first bending basic unit and the second bending basic unit, and described first bending basic unit and described second bending basic unit are separately positioned on the both sides of described substrate; First bending part of described first bending basic unit fits in described driver circuit district, first bending part of described second bending basic unit fits in described induction line district, described driving transmission line is arranged in described first bending basic unit, and described induction transmission line is arranged in described second bending basic unit.

Wherein, described bending basic unit also comprises the 3rd bending part being connected to described second bending part, the relatively described second bending part bending of described 3rd bending part, and fit in described bottom surface, described driving winding displacement is arranged in order to described 3rd bending part from described first bending part.

Wherein, described driving incoming end comprises multiple driving wiring point along the arrangement of described liquid crystal area side, and one end correspondence that described driving winding displacement extends to described first bending part is connected to described driving wiring point.

Wherein, each several part thickness of described bending basic unit is all less than 0.05mm.

Wherein, described line areas is less than 0.8mm away from the distance of described liquid crystal area to described liquid crystal area.

Wherein, described display screen also comprises glass cover-plate, and described glass cover-plate is laminated in described liquid crystal layer and deviates from described substrate side, and described glass cover-plate covers described liquid crystal layer completely.

The utility model is a kind of mobile terminal also, wherein, described mobile terminal comprises the display screen described in above-mentioned any one, and described mobile terminal also comprises control assembly, described control assembly is electrically connected described driving transmission line, sends drive singal to described driving port.

Display screen provided by the utility model and mobile terminal, described line areas is fitted in by the first bending part of described bending basic unit, described second bending part fits in the side of described substrate, many described driving winding displacements are arranged in order in described second bending part from described first bending part, many described driving winding displacements increase compared to the arrangement width on described line areas at the arrangement width of described first bending part to described second bending part, thus make many described driving winding displacement entirety can obtain enough arrangement width, namely the live width of winding displacement is driven to increase described in each, thus the resistance of described driving transmission line can be reduced by high degree, and the width of line areas can not be increased, namely the non-display area width of described display screen can not be affected, the width of non-display area can also be effectively reduced simultaneously, thus improve Consumer's Experience, improve the performance of described display screen.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical solution of the utility model, be briefly described to the accompanying drawing used required in execution mode below, apparently, accompanying drawing in the following describes is execution modes more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the decomposing schematic representation of display screen provided by the utility model.

Embodiment

Below in conjunction with the accompanying drawing in the utility model execution mode, the technical scheme in the utility model execution mode is clearly and completely described.

Refer to Fig. 1, a kind of display screen 100 that the utility model provides, described display screen comprises substrate 10, liquid crystal layer 20 and circuit pack 30.The bottom surface 12 that described substrate 10 comprises installed surface 11, relatively described installed surface 11 is arranged, and be fixed on the side 13 between described installed surface 11 and bottom surface 12.Described installed surface 11 comprises liquid crystal area 111 and is arranged at the line areas 112 of described liquid crystal area 111 side.Described liquid crystal area 111 arranges driver circuit 113, and described line areas 112 is provided with the driving incoming end 114 connecting described driver circuit 113.Described liquid crystal layer 20 correspondence is covered in described liquid crystal area 111, and is electrically connected described driver circuit 113.The driving transmission line 32 that described circuit pack 30 comprises bending basic unit 31 and is arranged in described bending basic unit 31.Described bending basic unit 31 comprises the first bending part 311 and the second bending part 312 be connected, and described first bending part 311 fits in described line areas 112, and relatively described first bending part 311 of described second bending part 312 bends and fits in described side 13.Described driving transmission line 32 comprises many and drives winding displacement 321, and one end of each described driving winding displacement 321 extends to described first bending part 311, and is electrically connected to described driving incoming end 114.Many described driving winding displacements 321 are arranged in order to described second bending part 312 from described first bending part 311.

Be understandable that, described display screen 100 is LCDs, and described driver circuit 113 sends drive singal to described liquid crystal layer 20, to change the liquid crystal molecular orientation of liquid crystal layer 20, thus makes described liquid crystal layer 20 luminescence display.Described driver circuit 113 obtains drive singal through described driving transmission line 32, the driving winding displacement 321 of described driving transmission line 32 can be between the external driven unit of electrical connection and described driving incoming end 114, thus make described driving transmission line 32 drive singal be transferred to described liquid crystal layer 20, thus described display screen 100 is shown.Described display screen 100 can be applied to mobile terminal, and this mobile terminal can be the electronic equipments such as mobile phone, panel computer, notebook computer or electronic reader.

By being provided with the driving incoming end 114 connecting driver circuit 113 in described line areas 112, and utilize the first bending part 311 of described bending basic unit 31 to fit in described line areas 112, described second bending part 312 fits in the side 13 of described substrate 10, thus make described bending basic unit 31 have enough width, described driving transmission line 32 is electrically connected described driving incoming end 114 on described first bending part 311, and have to be arranged in order to many of described second bending part 312 from described first bending part 311 and drive winding displacements 321, thus the arrangement width of described driving winding displacement 321 is increased, described driving winding displacement 321 can obtain enough live widths, thus the resistance of described driving transmission line 32 can be reduced by high degree, and the width of line areas 112 can not be increased, namely the non-display area width of described display screen 100 can not be affected, the width of non-display area can also be effectively reduced simultaneously, thus improve Consumer's Experience, improve the performance of described display screen 100.

There is provided a kind of execution mode, described display screen 100 also comprises backlight module 40, and described backlight module 40 is laminated in described substrate 10 and deviates from described liquid crystal layer 20 side.Namely described backlight module 40 is fixed on described bottom surface 12.Described backlight module 40 provides back light to described liquid crystal layer 20, promotes display effect to make described display screen 100.Concrete, described backlight module 40 comprises the light guide plate 41 fitting in described bottom surface 12 and the LED 42 being fixed on described light guide plate 41 weeks sides, the described the liquid crystal layer 20 thus light of described LED 42 leads by described light guide plate 41.In other embodiments, described backlight module 40 can also be the LED arranging two kinds of different colours in all sides of described light guide plate 41, to increase the display effect of described display screen 100.

In present embodiment, described substrate 10 is rectangle plate.Described substrate 10 adopts glass material, and described bottom surface 12 receives the backlight light of described backlight module 40, and described installed surface 11 is through the backlight light of described backlight module 40.Described installed surface 11 plates and establishes ITO (IndiumTinOxide, tin indium oxide) film on described liquid crystal area 111, thus described driver circuit 113 is formed at described ito thin film.Described line areas 112 is arranged at around described liquid crystal area 111.Driving incoming end 114 on described line areas 112 can be utilize sheet metal to be connected to described driver circuit 113.In other embodiments, the material of described substrate 10 also can be PET plastic cement material.

In present embodiment, described liquid crystal layer 20 correspondence is covered in the ito thin film on described liquid crystal area 111, thus described liquid crystal layer 20 can receive the drive singal that described driver circuit 113 sends, thus the liquid crystal molecular orientation changed in described liquid crystal layer 20, thus described liquid crystal layer 20 is made to send colored light.

In present embodiment, described display screen 100 also comprises filter 50.Described filter 50 is laminated in described liquid crystal layer 20 and deviates from described substrate 10 side.Described filter 50 comprises the filter (not shown) of multiple array, at least two kinds of color filters are provided with in the filter of multiple array, each color filter can allow the light of respective color to pass through, thus makes the colored light of described liquid crystal layer 20 present coloured image through after described filter 50.

In present embodiment, described circuit pack 30 utilizes transmission line to described display screen 100 transmission pulse signal.Concrete, described driving transmission line 32 can be metal grill copper cash, and described driving transmission line 32 can be adopt hot-pressing technique to be formed in described bending basic unit 31.The width size of described bending basic unit 31 determines the live width size of described driving transmission line 32.Described bending basic unit 31 utilizes self bending, thus by relatively described for described second bending part 312 first bending part 311 bending, make described second bending part 312 can be fit on described side 13, thus the width of described bending basic unit 31 can be made to be not limited to the width of described line areas 112, namely the width of described bending basic unit 31 can be increased, thus greatly can increase the arrangement width of the driving winding displacement 321 of described driving transmission line 32, thus make described in each, to drive winding displacement 321 can obtain enough live widths, thus the resistance high degree of described driving transmission line 32 reduces, thus described circuit pack 30 signal transmission performance can be promoted, the serviceability of described display screen 100 is improved.And utilize relatively described first bending part 311 bending of the second bending part 312 of described bending basic unit 31, thus described bending basic unit 31 is coated on the periphery of described substrate 10, thus described circuit pack 30 does not affect the width of described line areas 112, and obtaining in wider described driving transmission line 32 situation, the width of described line areas 112 can also be reduced, thus the non-display area width of described display screen 100 can be reduced, thus further improve the serviceability of described display screen 100.In other embodiments, described circuit pack 30 can also be that PET coverlay is established in plating in described bending basic unit 31, and this PET coverlay covers described driving transmission line 32, with the protection to described driving transmission line 32.

Further, described bending basic unit 31 also comprises the 3rd bending part 313 fitting in described bottom surface 12, described 3rd bending part 313 is connected to described second bending part 312, and relatively described second bending part 312 of described 3rd bending part 313 bends and fits in described bottom surface 12.And increase the width of described bending basic unit 31 further, thus utilize many described driving winding displacements 321 to be arranged in order from described first bending part 311 to described 3rd bending part, the arrangement width of described driving winding displacement 321 is increased further, thus the live width of described driving winding displacement 321 can also increase further, thus the resistance of described driving transmission line 32 can be reduced further.

Further, described display screen 100 also comprises the polaroid 60 and glass cover-plate 70 that stack gradually on described filter 50.Described polaroid 60 makes the display light of described display screen 100 softer; described glass cover-plate 70 is laminated in described liquid crystal layer 20 and deviates from described substrate 10 side; described glass cover-plate 70 covers described liquid crystal layer 20 completely; described glass cover-plate 70 forms protection to described liquid crystal layer 20, thus increases the serviceability of described display screen 100.

Further, described display screen 100 comprises touch control layer 80, described touch control layer 80 correspondence is covered on described liquid crystal layer 10, described liquid crystal area 111 also arranges induction line 115, described induction line 115 is electrically connected described touch control layer 80, described line areas 113 is also provided with the induction output 116 connecting described induction line 115, and described induction output 116 is mutually isolated with described driving incoming end 114.Described circuit pack 30 also comprises the induction transmission line 33 be arranged in described bending basic unit 31, described induction transmission line 33 is mutually isolated with described driving transmission line 32, described induction transmission line 33 comprises many induction winding displacements 331, one end of each described induction winding displacement 331 extends to described first bending part 311, and is electrically connected to described induction output 116.Many described induction winding displacements 331 are arranged in order to described 3rd bending part 313 from described first bending part 311.Many described induction winding displacements 331 can be connected between external control assembly and described induction output 116, realize the touch-control sensing signal transmission of described touch control layer 80 to external control assembly.

In present embodiment, described display screen 100 is In-cell display screen.Described touch control layer 80 is arranged between described filter 50 and described liquid crystal layer 20, described touch control layer 80.Described induction line 115 is formed in the ito thin film on described liquid crystal area 111 equally, and described induction line 115 receives the induced signal of described touch control layer 80, thus described induction line 115 can obtain touch command from described touch control layer 80.Described induction line 115 is mutually isolated with described driver circuit 113, thus the induced signal of described induction line 115 can't interfere the drive singal of described driver circuit 113.Same, when described induction output 116 is mutually isolated with described driving incoming end 114, the transmission of described induction transmission line 33 pairs of induced signals can not interfere the transmission of described driving transmission line 32 pairs of drive singal.Described induction transmission line 33 can be identical setting with the structure of described driving induction line 32, does not repeat them here.Described induction winding displacement 331 can be the center-control assembly of electrical connection mobile terminal, described induction winding displacement 331 obtains induced signal through described induction transmission line 33 from described touch control layer 80, and this induced signal is transferred to center-control assembly, thus realize mobile terminal acquisition touch command, namely realizing described display screen 100 can input control order, thus increases the using function of described display screen 100.In other embodiments, described touch control layer 80 can also be arranged at described filter 50 to deviate from described liquid crystal layer 20 side.

Further, described line areas 112 comprises the driver circuit district 112a and induction line district 112b that lay respectively at both sides, described liquid crystal area 111, and described driving incoming end 114 and described induction output 116 are arranged at described driver circuit district 112a and described induction line district 112b respectively.

In present embodiment, described driver circuit district 112a and described induction line district 112b is arranged at the both sides of described liquid crystal area 111 length direction respectively.Described driving incoming end 114 and the described end 116 that induces are respectively adjacent to dual-side in described liquid crystal area 111 length direction.Thus facilitating described driving incoming end 114 to be electrically connected the driver circuit 113 of described liquid crystal area 111, described induction output 116 is electrically connected described induction line 115.In other embodiments, described driver circuit district 112a and described induction line district 112b is arranged at adjacent both sides, described liquid crystal area 111 respectively.

Further, the number of described bending basic unit 30 is two, be respectively the second bending basic unit 31b that the first bending basic unit 31a is arranged with relative described first bending basic unit 31a, described first bending basic unit 31a and described second bending basic unit 31b is separately positioned on the both sides of described substrate 10.First bending part 311 of described first bending basic unit 31a fits in described driver circuit district 112a.First bending part 311 of described second bending basic unit 31b fits in described induction line district 112b.Described driving transmission line 32 is arranged on described first bending basic unit 31a, and described induction transmission line 33 is arranged on described second bending basic unit 31b.

In present embodiment, described first bending basic unit 31a and described second bending basic unit 31b is coated on the dual-side of described substrate 10 length direction respectively.Described first bending basic unit 31a and described second bending basic unit 31b increases the live width of described driving transmission line 32 and the live width of described induction transmission line 33 respectively, thus improves the serviceability of described display screen 100.In other embodiments, the number of described bending basic unit can also be four, namely described bending basic unit can also increase the 3rd bending basic unit and the 4th bending basic unit respectively, and described 3rd bending basic unit and described 4th bending basic unit can also be the dual-sides being coated on described basic 10 Widths; Described 3rd bending basic unit and described 4th bending basic unit can also arrange other signal transmission lines, promote the serviceability of described display screen 100 further.

Further, described driving incoming end 114 comprises multiple driving wiring point 114a along the arrangement of described liquid crystal area side.One end correspondence that described driving winding displacement 321 extends to described first bending part 311 is connected to described driving wiring point 114a.

In present embodiment, multiple described driving wiring point 114a can be the metal pad utilizing metal wire network to be connected to described driver circuit 113.Thus facilitate one end of each the driving winding displacement 321 on described first bending part 311 to be welded on described driving wiring point 114a, thus increase the connection of described circuit pack 30 and described substrate 10, ensure that described driving transmission line 32 contacts well with described driving incoming end 114 simultaneously, ensure that drive singal effectively transmits.In other embodiments described, many on described first bending part 311 described driving winding displacement lines 321 can also be adhered on described driving wiring point 114a.

In present embodiment, described induction output 116 and the identical setting of described driving incoming end 114 structure, described induction transmission line 33 and the identical setting of described driving transmission line 32 structure, do not repeat them here.

Further, described bending basic unit 31 each several part thickness is all less than 0.05mm.Described bending basic unit 31 each several part thickness is utilized all to be less than 0.05mm, thus the integral thickness of described display screen 100 is unaffected, thus make the thickness of the mobile terminal applying described display screen 100 unaffected, thus ensure effective serviceability of described display screen 100.

Further, described display screen 100 also comprises flexible PCB (not shown), and described flexible PCB one end is electrically connected on described driving transmission line 32, and the other end is for connecting external assembly.Described external assembly can be the center-control assembly being applied to mobile terminal, by described flexible PCB, the drive singal of external assembly is passed to described display screen 100, thus increases the suitability of described display screen 100.

The utility model also provides a kind of mobile terminal (not shown), described mobile terminal comprises described display screen 100, described mobile terminal also comprises control assembly (not shown), described control assembly is electrically connected described driving transmission line 32, sends drive singal to described driving incoming end 114.Described control assembly is also electrically connected described induction transmission line 33, receives touch-control sensing signal from described induction output 116.Described mobile terminal 100 can be mobile phone, panel computer, panel computer or electronic reader etc.

Display screen provided by the utility model and mobile terminal, described line areas is fitted in by the first bending part of described bending basic unit, described second bending part fits in the side of described substrate, many described driving winding displacements are arranged in order in described second bending part from described first bending part, many described driving winding displacements increase compared to the arrangement width on described line areas at the arrangement width of described first bending part to described second bending part, thus make many described driving winding displacement entirety can obtain enough arrangement width, namely the live width of winding displacement is driven to increase described in each, thus the resistance of described driving transmission line can be reduced by high degree, and the width of line areas can not be increased, namely the non-display area width of described display screen can not be affected, the width of non-display area can also be effectively reduced simultaneously, thus greatly promote the experience performance of described display screen.

The above is preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection range of the present utility model.

Claims (10)

1. a display screen, it is characterized in that, described display screen comprises substrate, liquid crystal layer and circuit pack, described substrate comprises installed surface and is connected to the side of described installed surface, described installed surface comprises liquid crystal area and is arranged at the line areas of described liquid crystal area side, described liquid crystal area arranges driver circuit, and described line areas is provided with the driving incoming end connecting described driver circuit, described liquid crystal layer correspondence is covered in described liquid crystal area, and is electrically connected described driver circuit, described circuit pack comprises bending basic unit and is arranged at the driving transmission line in described bending basic unit, described bending basic unit comprises the first bending part and the second bending part that are connected, described first bending part fits in described line areas, relatively described first bending part of described second bending part bends and fits in described side, described driving transmission line comprises many and drives winding displacement, one end of each described driving winding displacement extends to described first bending part, and be electrically connected to described driving incoming end, many described driving winding displacements are arranged in order to described second bending part from described first bending part.

2. display screen according to claim 1, it is characterized in that, described display screen also comprises touch control layer, described touch control layer correspondence is covered on described liquid crystal layer, described liquid crystal area also arranges induction line, described induction line is electrically connected described touch control layer, described line areas is also provided with the induction output connecting described induction line, described induction output and described driving incoming end mutually isolated, described circuit pack also comprises the induction transmission line be arranged in described bending basic unit, described induction transmission line and described driving transmission line mutually isolated, described induction transmission line comprises many induction winding displacements, one end of each described induction winding displacement extends to described first bending part, and be electrically connected to described induction output, many described induction winding displacements are arranged in order to described second bending part from described first bending part.

3. display screen according to claim 2, it is characterized in that, described line areas comprises the driver circuit district and induction line district that lay respectively at both sides, described liquid crystal area, and described driving incoming end and described induction output are arranged at described driver circuit district and described induction line district respectively.

4. display screen according to claim 3, it is characterized in that, described bending basic unit is two, be respectively the first bending basic unit and the second bending basic unit, described first bending basic unit and described second bending basic unit are separately positioned on the both sides of described substrate, first bending part of described first bending basic unit fits in described driver circuit district, first bending part of described second bending basic unit fits in described induction line district, described driving transmission line is arranged in described first bending basic unit, and described induction transmission line is arranged in described second bending basic unit.

5. display screen according to claim 1, it is characterized in that, described substrate also comprises the bottom surface that relatively described installed surface is arranged, described bending basic unit also comprises the 3rd bending part being connected to described second bending part, the relatively described second bending part bending of described 3rd bending part, and fitting in described bottom surface, described driving winding displacement is arranged in order to described 3rd bending part from described first bending part.

6. display screen according to claim 1, is characterized in that, described driving incoming end comprises multiple driving wiring point along the arrangement of described liquid crystal area side, and one end correspondence that described driving winding displacement extends to described first bending part is connected to described driving wiring point.

7. display screen according to claim 1, is characterized in that, each several part thickness of described bending basic unit is all less than 0.05mm.

8. display screen according to claim 1, is characterized in that, described line areas is less than 0.8mm away from the distance of described liquid crystal area to described liquid crystal area.

9. display screen according to claim 1, is characterized in that, described display screen also comprises glass cover-plate, and described glass cover-plate is laminated in described liquid crystal layer and deviates from described substrate side, and described glass cover-plate covers described liquid crystal layer completely.

10. a mobile terminal, it is characterized in that, described mobile terminal comprises the display screen described in claim 1 ~ 9 any one, and described mobile terminal also comprises control assembly, described control assembly is electrically connected described driving transmission line, sends drive singal to described driving incoming end.