CN203224695U - Liquid crystal display eyeglass - Google Patents

Abstract

The utility model relates to a liquid crystal display eyeglass, comprising an upper eyeglass, a lower eyeglass, a plastic frame, and a liquid crystal material. A sealing chamber is formed by enclosing the upper eyeglass, the lower eyeglass and the plastic frame. The sealing chamber is filled with the liquid crystal material. The liquid crystal display eyeglass also comprises a liner material in the sealing chamber. The liner material comprises a liner material body and a fine hair structure disposed on the surface of the liner material body. The liner material is fixedly connected to an upper orientation layer and/or a lower orientation layer in the upper eyeglass and the lower eyeglass. The liquid crystal display eyeglass is advantageous in that the liner material is fixedly connected to the orientation layer in the upper eyeglass or the lower eyeglass of the liquid crystal display eyeglass by means of the fine hair structure, and thereby the liner material can be prevented from high frequency oscillation, and noise can be prevented, and wide market space can be achieved.

Description

A kind of liquid crystal display eyeglass

Technical field

The utility model relates to the technical field of 3D glasses, relates in particular to a kind of liquid crystal display eyeglass.

Background technology

At present, because the market that a large amount of 3D film brings is impacted, the 3D demonstration just progressively enters family, and its range of application also enlarges gradually, and its product comprises 3D movie theatre, 3D TV, 3D display and 3D notebook etc.

Need wear the 3D glasses when watching the 3D film, mostly being and using active liquid crystal 3D glasses, the principle of demonstration is the right and left eyes anaglyph (refreshing frequency is more than the 120Hz) that shows by the projection timesharing, and 3D glasses LCD eyeglass is driven in synchronism with it.When showing left-eye image, left eye LCD eyeglass is opened, and right eye LCD eyeglass is closed; When liquid showed eye image, right eye LCD eyeglass was opened, and left eye LCD eyeglass is closed.So all the time, left eye can only be seen left-eye image, and right eye can only be seen eye image, combines through brain, has just formed the 3D demonstration.

Because the drive waveforms of 3D glasses is the square wave of high frequency, the electric field that between liquid crystal cell, exists high frequency to switch, and in order to strengthen the impact resistance of liquid crystal cell, generally can in liquid crystal cell, spray wadding as support component, in the high-speed switching process of direction of an electric field, the Liquid Crystal Molecules Alignment direction in the liquid crystal cell is subjected to torsion and changes, simultaneously, wadding produces the higher-order of oscillation along with liquid crystal molecule, send the noise that creaks.The 3D glasses that people wear when watching the 3D film are pressed close to head, and are nearer from people's ear, are easy to hear these noises, and influence is watched.

The utility model content

The utility model provides a kind of liquid crystal display eyeglass for there is the technical matters of noise in 3D glasses in the solution prior art, plays and effectively prevents the liquid crystal glasses function of noise.Concrete technical scheme is as follows:

A kind of liquid crystal display eyeglass, comprise eyeglass, following eyeglass, glue frame and liquid crystal material, described eyeglass, following eyeglass and the glue frame gone up surrounds annular seal space, fill described liquid crystal material in the described annular seal space, described go up eyeglass comprise electro-conductive glass, be positioned at the electro-conductive glass upper surface last polaroid, be positioned at the last oriented layer of electro-conductive glass lower surface; Described down eyeglass comprises electro-conductive glass down, be positioned at electro-conductive glass upper surface down following oriented layer, be positioned at the following polaroid of electro-conductive glass lower surface down; Also comprise the wadding that is arranged in described annular seal space, described wadding comprises the wadding body and is positioned at the fluff structures of wadding body surface that described wadding is fixedlyed connected with last oriented layer and/or following oriented layer by described fluff structures.

Further, the described fluff structures that contacts with last oriented layer that is positioned at the wadding body surface embeds and goes up oriented layer.

Further, the described fluff structures that contacts with following oriented layer that is positioned at the wadding body surface embeds oriented layer down.

Further, described wadding body is spheroidite.

Further, the particle diameter of described wadding body is 2.5 μ m-4 μ m.

Further, the described electro-conductive glass of going up comprises top glass substrate and the last conductive layer that is positioned at described top glass substrate lower surface.

Further, described upward conductive layer is indium tin oxide layer.

Further, described electro-conductive glass down comprises lower glass substrate and the lower conductiving layer that is positioned at described lower glass substrate upper surface.

Further, described lower conductiving layer is indium tin oxide layer.

Liquid crystal display eyeglass of the present utility model, have last eyeglass, following eyeglass, glue frame, liquid crystal material lining and bedding and padding, last eyeglass, following eyeglass include oriented layer, wadding has the wadding body and is positioned at the fluff structures of wadding body surface, by between last eyeglass, following eyeglass, adding wadding, utilize fluff structures that wadding is fixedlyed connected with the last eyeglass of liquid crystal display eyeglass or the oriented layer in the following eyeglass, thereby avoided liquid crystal cell wadding generation higher-order of oscillation when the electric field that high frequency switches, send the phenomenon of noise, have the space, large market.

Other characteristics of the present utility model and advantage will be illustrated in conjunction with the following drawings with following embodiment.

Description of drawings

Fig. 1 is the structural representation of the liquid crystal display eyeglass of embodiment of the present utility model.

Fig. 2 is the utility model wadding structural representation.

Embodiment

Clearer for technical matters, technical scheme and beneficial effect that the utility model is solved, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.

In description of the present utility model, it will be appreciated that, orientation or position pass occurring is based on orientation shown in the drawings or position relation, only be the utility model and simplification description for convenience of description, as term " on ", D score, " preceding ", " back ", " left side ", " right side ", " interior ", " outward " etc., only be the utility model and simplification description for convenience of description, rather than indication or the hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only are used for describing purpose, and can not be interpreted as indication or hint relative importance or the implicit quantity that indicates indicated technical characterictic.

Fig. 1 is the structural representation of the liquid crystal display eyeglass of the utility model embodiment, and Fig. 2 is the utility model wadding structural representation.As shown in Figure 1, liquid crystal display eyeglass of the present utility model comprises eyeglass 1, following eyeglass 2, glue frame 3 and liquid crystal material 4, described eyeglass 1, following eyeglass 2 and the glue frame 3 gone up surrounds annular seal space, fill described liquid crystal material 4 in the described annular seal space, described go up eyeglass 1 comprise electro-conductive glass 11, be positioned at electro-conductive glass 11 upper surfaces last polaroid 12, be positioned at the last oriented layer 13 of electro-conductive glass 11 lower surfaces; Described down eyeglass 2 comprises electro-conductive glass 21 down, be positioned at electro-conductive glass 21 upper surfaces down following oriented layer 23, be positioned at the following polaroid 22 of electro-conductive glass 21 lower surfaces down; Also comprise the wadding 5 that is arranged in described annular seal space, as shown in Figure 2, described wadding 5 comprises wadding body 51 and is positioned at the fluff structures 52 on wadding body 51 surfaces that described wadding 5 is fixedlyed connected with last oriented layer 13 and/or following oriented layer 23 by described fluff structures 52.

Liquid crystal display eyeglass of the present utility model, the surface of wadding body 51 has fluff structures 52, and by fluff structures 52 wadding 5 and last oriented layer 13 and/or time oriented layer 23 are fixedlyed connected, when liquid crystal cell during at the electric field that high frequency switches, wadding 5 is owing to be fixed on oriented layer 13 and/or following oriented layer 23, can not produce the higher-order of oscillation along with liquid crystal molecule, thereby avoided the liquid crystal display eyeglass to send noise, improved user's experience greatly, wadding 5 materials of the present utility model there is no specific (special) requirements, as general knowledge known in this field, as long as have certain intensity and certain stability, can be to last eyeglass 1, following eyeglass 2 is played a supporting role and can not formed to pollute to liquid crystal material 4 and gets final product, can be resin as wadding 5 selections, plastic cement, glass etc., wadding 5 of the present utility model comprises wadding body 51 and is positioned at the fluff structures 52 on wadding body 51 surfaces, wadding body 51 is as the main support parts, can be by resin, plastic cement, glass is made, has supporting role preferably, fluff structures 52 is mainly used in wadding 5 is fixed in oriented layer 13 and/or following oriented layer 23, therefore, its selection be there is no specific (special) requirements, as being resin, plastic cement or other high molecular polymers, as long as have certain toughness, fracture does not get final product easily.

Liquid crystal display eyeglass of the present utility model, wadding 5 can be fixed oriented layer 13 or be fixed in oriented layer 23 down, or are fixed in oriented layer 13 and following oriented layer 23 simultaneously; Therefore, the described fluff structures that contacts with last oriented layer 13 52 that is positioned at wadding body 51 surfaces can be embedded and go up oriented layer 13, by this structure wadding 5 is fixed in oriented layer 13, also the described fluff structures that contacts with following oriented layer 23 52 that is positioned at wadding body 51 surfaces can be embedded oriented layer 23 down, by this structure wadding 5 is fixed in oriented layer 23 down, also can simultaneously the described fluff structures 52 with last oriented layer 13 contacts with following oriented layer 23 that is positioned at wadding body 51 surfaces be embedded described oriented layer 13 and the following oriented layer 23 of going up respectively, by this structure wadding 5 is fixed in oriented layer 13 and following oriented layer 23 simultaneously.

The wadding 5 of liquid crystal display eyeglass of the present utility model, has vital role for eyeglass 1 and 2 spacings of following eyeglass on the control liquid crystal display eyeglass, the spacing that guarantees 2 on eyeglass 1 and following eyeglass is even, wadding 5 should be uniformly distributed between eyeglass 1 and the following eyeglass 2, therefore, as preferred version, wadding body 51 preferred spheroidites of the present utility model, spheroidite is convenient to roll, wadding 5 more is evenly distributed between eyeglass 1 and the following eyeglass 2, thickness for the eyeglass of control liquid crystal display rationally, the preferred 2.5 μ m-4 μ m of the particle diameter of wadding body 51 of the present utility model can guarantee in this scope that eyeglass 1 and following eyeglass 2 spacings keep appropriate distance.

The last electro-conductive glass 11 of liquid crystal display eyeglass of the present utility model comprises top glass substrate 111 and is positioned at the last conductive layer 112 of described top glass substrate 111 lower surfaces, be arranged on top glass substrate 111 lower surfaces by going up conductive layer 112, thereby reduce to go up the distance of conductive layer 112 and liquid crystal material 4, can make liquid crystal material 4 reactions sensitiveer, last conductive layer 112 can be indium tin oxide layer, has good electrical conductivity.

The following electro-conductive glass 21 of liquid crystal display eyeglass of the present utility model comprises lower glass substrate 211 and is positioned at the lower conductiving layer 212 of described lower glass substrate 211 upper surfaces, by lower conductiving layer 212 being arranged on lower glass substrate 211 upper surfaces, thereby reduce the distance of lower conductiving layer 212 and liquid crystal material 4, can make liquid crystal material 4 reactions sensitiveer, lower conductiving layer 212 can be indium tin oxide layer, has good electrical conductivity.

Liquid crystal display eyeglass of the present utility model, between last eyeglass, following eyeglass, add wadding, wadding has the wadding body and is positioned at the fluff structures of wadding body surface, by this fluff structures wadding is fixedlyed connected with the last eyeglass of liquid crystal display eyeglass or the oriented layer in the following eyeglass, thereby suppressed liquid crystal cell wadding generation higher-order of oscillation when the electric field that high frequency switches, send the phenomenon of noise, improved user's experience greatly, have the space, large market.

The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (9)

1. liquid crystal display eyeglass, comprise eyeglass, following eyeglass, glue frame and liquid crystal material, described eyeglass, following eyeglass and the glue frame gone up surrounds annular seal space, fill described liquid crystal material in the described annular seal space, it is characterized in that, described go up eyeglass comprise electro-conductive glass, be positioned at the electro-conductive glass upper surface last polaroid, be positioned at the last oriented layer of electro-conductive glass lower surface; Described down eyeglass comprises electro-conductive glass down, be positioned at electro-conductive glass upper surface down following oriented layer, be positioned at the following polaroid of electro-conductive glass lower surface down; Also comprise the wadding that is arranged in described annular seal space, described wadding comprises the wadding body and is positioned at the fluff structures of wadding body surface that described wadding is fixedlyed connected with last oriented layer and/or following oriented layer by described fluff structures.

2. liquid crystal display eyeglass as claimed in claim 1 is characterized in that, the described fluff structures that contacts with last oriented layer that is positioned at the wadding body surface embeds goes up oriented layer.

3. liquid crystal display eyeglass as claimed in claim 1 is characterized in that, the described fluff structures that contacts with following oriented layer that is positioned at the wadding body surface embeds oriented layer down.

4. liquid crystal display eyeglass as claimed in claim 1 is characterized in that, described wadding body is spheroidite.

5. liquid crystal display eyeglass as claimed in claim 2 is characterized in that, the particle diameter of described wadding body is 2.5 μ m-4 μ m.

6. liquid crystal display eyeglass as claimed in claim 1 is characterized in that, the described electro-conductive glass of going up comprises top glass substrate and the last conductive layer that is positioned at described top glass substrate lower surface.

7. liquid crystal display eyeglass as claimed in claim 6 is characterized in that, described upward conductive layer is indium tin oxide layer.

8. liquid crystal display eyeglass as claimed in claim 1 is characterized in that, described electro-conductive glass down comprises lower glass substrate and is positioned at the lower conductiving layer of described lower glass substrate upper surface.

9. liquid crystal display eyeglass as claimed in claim 8 is characterized in that, described lower conductiving layer is indium tin oxide layer.

Images