CN207067618U - A kind of full visual angle TN liquid crystal displays - Google Patents

Abstract

The utility model discloses a kind of full visual angle TN liquid crystal displays, including top glass substrate, lower glass substrate, upper ITO conductive layer, lower ITO conductive layer, upper PI oriented layers, lower PI oriented layers and liquid crystal molecule, the liquid crystal molecule surround arranged distribution between upper PI oriented layers and lower PI oriented layers in 360 °, upper PI oriented layers top is provided with upper ITO conductive layer, and upper ITO conductive layer top is provided with top glass substrate；The lower PI oriented layers bottom is provided with lower ITO conductive layer, and lower ITO conductive layer bottom is provided with lower glass substrate.The utility model is simple in construction, and angular field of view reaches 360 ° of full visual angles, TN type liquid crystal displays is not limited by angular field of view, and then increases the use range of TN class products, and significantly reduces the cost using TN class product industries.

Description

A kind of full visual angle TN liquid crystal displays

Technical field

It the utility model is related to a kind of TN liquid crystal displays, more particularly to a kind of full visual angle TN liquid crystal displays.

Background technology

Current TN liquid crystal displays are positioned against in the presence of electric field, are changed using the orientation of liquid crystal molecule (4), made The transmitance of external light source changes to complete display.As shown in figure 1, it is the visual angle of general T N liquid crystal displays, wherein up and down Angular field of view θ is 40 °~60 °, and LOOK LEFT range Theta 1 is 20 °~30 °, and LOOK RIGHT range Theta 2 is 20 °~30 °, therefore visual angle model Enclose and be restricted, it is impossible to reach full visual angle；The main reason for causing this angular field of view to be restricted be：Limited by material technology System result in liquid crystal molecule (4) and distort 60 °~90 °.Due to the limitation of angular field of view so that TN liquid crystal display applications field It is restricted.

Utility model content

In order to solve the above technical problems, the utility model proposes a kind of full visual angle TN liquid crystal displays, the display device structure Simply, solve the problems, such as that current TN visual angle of liquid crystal display is limited.

In order to achieve the above object, the technical solution of the utility model is as follows：A kind of full visual angle TN liquid crystal displays, including Top glass substrate, lower glass substrate, upper ITO conductive layer, lower ITO conductive layer, upper PI oriented layers, lower PI oriented layers and liquid crystal point Son, the liquid crystal molecule surround arranged distribution between upper PI oriented layers and lower PI oriented layers in 360 °, upper PI oriented layers top Provided with upper ITO conductive layer, upper ITO conductive layer top is provided with top glass substrate；It is conductive that the lower PI oriented layers bottom is provided with lower ITO Layer, lower ITO conductive layer bottom is provided with lower glass substrate.

Preferably, the upper PI oriented layers and lower PI oriented layers are in the same direction with 360 ° by the friction head of compound arrangement in the same direction Spin friction.

Preferably, a diameter of 10mm of the friction head of compound arrangement in the same direction.

Described PI oriented layers primarily serve the effect of orientation, are rubbed out groove, allowed on PI oriented layers using friction head Liquid crystal molecule arranges according to the direction of friction.Full visual angle TN liquid crystal displays of the present utility model, by the same of a diameter of 10mm To the friction head of compound arrangement, 360 ° of rotating Vortex frictions are carried out from left to right from the X sides of PI oriented layers first, then orient from PI The Y sides of layer carry out 360 ° of rotating Vortex frictions from left to right, form 360 ° and are collectively aligned friction groove.

Between described upper ITO conductive layer and lower ITO conductive layer, electric field, work of the liquid crystal molecule in electric field are formed after energization With it is lower generation orientation change, so as to interfere passing through for light.In full visual angle TN liquid crystal displays of the present utility model Liquid crystal molecule, it is collectively aligned in 360 ° of be arranged around upper PI oriented layers and lower PI oriented layers 360 ° in friction groove, when upper It is powered between ITO conductive layer and lower ITO conductive layer after forming electric field, 360 ° of arrangements of liquid crystal molecule are light tight, reach 360 ° and regard entirely Angle is shown.

The beneficial effects of the utility model：The utility model is simple in construction, and PI oriented layers form 360 ° and are collectively aligned friction Groove, and liquid crystal molecule surround arrangement in 360 °, so as to improve the liquid crystal molecule of existing TN liquid crystal displays along PI oriented layers Rubbing angle be in aligned twisted, and then eliminate visual angle blind zone, reach 360 ° of full visual angles and show.Because removing angular field of view limitation, Increase TN class products use range, and significantly reduce the cost using TN class product industries.

Brief description of the drawings

Fig. 1 is the structural representation of general T N visual angle of liquid crystal display；

Fig. 2 is structural representation of the friction head of the present utility model from X sides friction PI oriented layers；

Fig. 3 is structural representation of the friction head of the present utility model from Y sides friction PI oriented layers；

Fig. 4 is PI oriented layers friction effect structural representation of the present utility model；

Fig. 5 is structural representation of the present utility model；

Wherein：11. top glass substrate, 12. lower glass substrates, ITO conductive layer on 21., 22. times ITO conductive layers, on 31. PI oriented layers, 32. times PI oriented layers, 4. liquid crystal molecules, 5. friction heads.

Embodiment

The utility model is described in further detail with reference to embodiment.

As shown in figure 5, it is a kind of visual angle TN liquid crystal displays, including top glass substrate 11, lower glass entirely of the utility model Substrate 12, upper ITO conductive layer 21, lower ITO conductive layer 22, upper PI oriented layers 31, lower PI oriented layers 32 and liquid crystal molecule 4, it is described Liquid crystal molecule 4 surround arranged distribution between upper PI oriented layers 31 and lower PI oriented layers 32 in 360 °, the upper top of PI oriented layers 31 Provided with upper ITO conductive layer 21, the upper top of ITO conductive layer 21 is provided with top glass substrate 11；The lower bottom of PI oriented layers 32 is provided with Lower ITO conductive layer 22, the lower bottom of ITO conductive layer 22 are provided with lower glass substrate 12.

The upper PI oriented layers 31 and lower PI oriented layers 32 are by the friction head 5 of compound arrangement in the same direction with 360 ° of rotating Vortexes Friction.

A diameter of 10mm of the friction head 5 of compound arrangement in the same direction.

PI oriented layers in the utility model primarily serve the effect of orientation, are rubbed using friction head 5 on PI oriented layers Go out groove, allow liquid crystal molecule 4 to be arranged according to the direction of friction.As shown in Fig. 2 full visual angle TN liquid crystal displays of the present utility model Device, by the friction head 5 of a diameter of 10mm compound arrangement in the same direction, carried out from left to right from the X sides of upper PI oriented layers 31 first 360 ° of rotating Vortex frictions；As shown in figure 3, the friction head 5 of the compound arrangement in the same direction of a diameter of 10mm, then oriented from upper PI The Y sides of layer 31 carry out 360 ° of rotating Vortex frictions to upper PI oriented layers 31 from left to right.As shown in figure 4, it is upper PI oriented layers 31 Design sketch after friction, after the 360 ° of spin frictions in the same direction of friction head 5, finally formed on upper PI oriented layers 31 360 ° are collectively aligned friction groove.Lower PI oriented layers 32 are entered using the friction head 5 of compound arrangement in the same direction with same method again 360 ° of rotating Vortex frictions of row, make also to form 360 ° on lower PI oriented layers 32 and are collectively aligned friction groove.

Between upper ITO conductive layer 21 and lower ITO conductive layer 22 in the utility model, electric field, liquid crystal point are formed after energization The change of orientation occurs in the presence of electric field for son 4, so as to interfere passing through for light.It is as shown in figure 5, of the present utility model Liquid crystal molecule 4 in full visual angle TN liquid crystal displays, upper PI oriented layers 31 and lower PI oriented layers 32 are arranged around in 360 ° 360 ° are collectively aligned in friction groove, after energization forms electric field between upper ITO conductive layer 21 and lower ITO conductive layer 22, liquid crystal It is light tight that molecule 4 forms 360 ° of arrangements in the presence of electric field, and then 360 ° of full visual angles are shown.

The utility model is simple in construction, and liquid crystal molecule reaches 360 ° of full visual angles, make TN in 360 ° around arrangement, angular field of view Type liquid crystal display is not limited by angular field of view；Because removing angular field of view limitation, increase TN class products use range, and greatly Width reduces the cost using TN class product industries.

Claims (3)

1. A kind of 1. full visual angle TN liquid crystal displays, it is characterised in that including top glass substrate (11), lower glass substrate (12), on ITO conductive layer (21), lower ITO conductive layer (22), upper PI oriented layers (31), lower PI oriented layers (32) and liquid crystal molecule (4), it is described Liquid crystal molecule (4) surround arranged distribution between upper PI oriented layers (31) and lower PI oriented layers (32) in 360 °, upper PI oriented layers (31) top is provided with upper ITO conductive layer (21), and upper ITO conductive layer (21) top is provided with top glass substrate (11)；The lower PI determines Lower ITO conductive layer (22) is provided with to layer (32) bottom, lower ITO conductive layer (22) bottom is provided with lower glass substrate (12).
2. A kind of 2. full visual angle TN liquid crystal displays according to claim 1, it is characterised in that the upper PI oriented layers (31) With lower PI oriented layers (32) by the friction head (5) of compound arrangement in the same direction with 360 ° of rotating Vortex frictions.
3. 3. a kind of full visual angle TN liquid crystal displays according to claim 2, it is characterised in that the compound arrangement in the same direction A diameter of 10mm of friction head (5).