CN106646919B - Circular polarized light device and manufacturing and application method thereof - Google Patents

Abstract

The invention relates to the field of optical lenses, in particular to a circularly polarized light device and a manufacturing and application method thereof. The invention provides a circular polarized light device, which comprises a liquid crystal box and a circular polarized light sheet, wherein the liquid crystal box is arranged in an antiparallel manner, the circular polarized light sheet is used for reflecting circular polarized light, the liquid crystal box is positioned at a position where a natural light reflected by the surface of an object forms an angle of 45 degrees with the direction of a parallel vibration component of a reflecting surface, the circular polarized light sheet is arranged behind the liquid crystal box, the liquid crystal box is filled with liquid crystal which can be electrified to adjust the arrangement direction, electrodes, a power supply and a photosensitive controller are arranged on two sides of the liquid crystal box, the photosensitive controller is connected with. The invention also provides a method for manufacturing and applying the device, and the device can effectively filter out strong reflection without losing transmittance, so that interference sources in front of the sight line are filtered out, and the sight line is clearer. The liquid crystal arrangement can be automatically adjusted by sensing the light intensity, so that the light can be automatically adjusted.

Description

Circular polarized light device and manufacturing and application method thereof

Technical Field

The invention relates to the field of optical lenses, in particular to a circularly polarized light device and a manufacturing and application method thereof.

Background

When the sunlight is projected on the road surface or water surface, the sunlight forms scattering, directly stimulates eyes, makes the eyes feel dazzling and tired, and cannot look for objects for a long time. Particularly, when driving a car and carrying out outdoor recreational activities, the driving device not only influences the working and recreational moods of people, but also influences the judgment of people on the object image to cause danger; when the eye drops under the direct irradiation of sunlight for a long time, the eye drops rapidly, and myopia, hypermetropia, astigmatism or cataract is formed. Although the existing polarized glasses can filter the scattered light in the light beam, only the light in a fixed direction passes through the existing polarized glasses, so that the eyes receive the incident light in the same direction, and the scenery looks soft and not dazzling; however, since the polarized glasses can only pass light in a fixed direction, the transmittance is lost by at least 40%, which results in a dark sight. In addition, there are also dyed glasses or color-changing glasses to solve the above problems, however, both the linear polarizer and the dye (the color change itself is also a dye absorption) can absorb a part of the light totally, and the strong light-reflecting object can not be selectively absorbed.

Disclosure of Invention

The invention provides a circularly polarized light device and a manufacturing and application method thereof, and aims to solve the problem of high light transmittance loss of the existing polarized glasses.

The invention provides a circular polarized light device, which comprises a liquid crystal box and a circular polarized light sheet, wherein the liquid crystal box is arranged in an antiparallel manner, the circular polarized light sheet is used for reflecting circular polarized light, the liquid crystal box is positioned at a position where a natural light reflected by the surface of an object forms an angle of 45 degrees with the direction of a parallel vibration component of a reflecting surface, the circular polarized light sheet is arranged behind the liquid crystal box, the liquid crystal box is filled with liquid crystal which can be electrified to adjust the arrangement direction, electrodes, a power supply and a photosensitive controller are arranged on two sides of the liquid crystal box, the photosensitive controller is connected with.

As a further improvement of the invention, the electrode is an ITO-plated electrode.

As a further development of the invention, the power source is a battery.

The invention also provides a manufacturing method of the circular polarized light device, which comprises the following steps:

s1, performing anti-parallel rubbing alignment on a liquid crystal box, plating ITO (indium tin oxide) electrodes on two surfaces of the liquid crystal box, and filling liquid crystal into the liquid crystal box;

s2, setting the friction direction of the liquid crystal box to form an angle of 45 degrees with the road surface;

s3, attaching a reflection-type circular polarizer to the near-eye side of the liquid crystal box;

and S4, arranging a battery circuit on the liquid crystal box, communicating the battery circuit with the electrode, and arranging a photosensitive controller on the battery circuit.

As a further improvement of the present invention, the method for manufacturing a circularly polarized light device further comprises the steps of:

and S5, processing the liquid crystal box and the circular polaroid into a lens shape, installing the liquid crystal box and the circular polaroid in a glasses frame, and arranging a battery circuit on the glasses frame.

The invention also provides an application method of the circular polarized light device, which comprises the following steps:

t1, sensing the intensity of external light by a photosensitive controller;

t2, if the external light is strong, the photosensitive controller controls the battery circuit to stop working, no current passes through the electrodes, liquid crystals in the liquid crystal box are horizontally arranged, the component of the external light which vibrates in parallel with the reflecting surface is converted into circularly polarized light through the liquid crystal box and is reflected and filtered by the circular polarizer to be removed, and other light passes through the circular polarizer to enter eyes;

and T3, if the external light is weak, the photosensitive controller controls the battery circuit to start working, the electrodes on the two sides of the liquid crystal box are electrified, the liquid crystal is vertically arranged, and the external light completely penetrates through the liquid crystal box and the circular polarizer and enters eyes.

The invention has the beneficial effects that: the device of the invention can effectively filter out strong reflection without losing transmittance, and filter out interference sources in front of the sight line, so that the sight line is clearer. The liquid crystal arrangement can be automatically adjusted by sensing the light intensity, so that the light can be automatically adjusted.

Drawings

Fig. 1 is a schematic structural diagram of a circularly polarized light device according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

Based on the above-mentioned drawbacks of the glasses, the present invention designs a circularly polarizing component comprising an antiparallel aligned liquid crystal cell 1 whose retardation conforms to 1/4 wave plate, a circularly polarizing plate 2 reflecting circularly polarized light 4, and necessary glass or metal parts to form a complete component.

As shown in fig. 1, the circularly polarized light device of the present invention includes a liquid crystal cell 1 arranged in an antiparallel manner, and a circularly polarized light sheet 2 reflecting circularly polarized light 4, wherein the liquid crystal cell 1 is located at a position where a natural light reflected by a surface of an object and a direction of a parallel vibration component of a reflecting surface form an angle of 45 °, the circularly polarized light sheet 2 is disposed behind the liquid crystal cell 1, the liquid crystal cell 1 is filled with a liquid crystal capable of adjusting an arrangement direction by energization, two surfaces of the liquid crystal cell 1 are provided with an electrode, a power supply, and a light sensing controller, the light sensing controller is connected to the power supply, and the power supply is connected.

Preferably, the electrode is an ITO-plated electrode; the power source is a battery.

When natural light is reflected by the surface of an object, the component of the natural light, which vibrates perpendicularly to the surface of the object, is greatly absorbed, the reflected light is mainly the component of the light vibrating in the direction parallel to the reflecting surface, an 1/4 wave plate is arranged in the direction of 45 degrees of the light vibrating direction, the linearly polarized light 3 is converted into circularly polarized light 4, a circular polarizer 2 for reflecting the circularly polarized light is arranged behind the 1/4 wave plate, the converted circularly polarized light 4 is reflected back, and other light normally enters human eyes, so that the effect of only filtering out strong reflected light without weakening other light is achieved.

The method for manufacturing the circularly polarized light device comprises the following steps of:

s1, performing anti-parallel rubbing alignment on a liquid crystal box 1, plating ITO (indium tin oxide) electrodes on two surfaces of the liquid crystal box, and filling liquid crystal into the liquid crystal box 1;

s2, setting the friction direction of the liquid crystal box 1 to form an angle of 45 degrees with the road surface;

s3, attaching a reflection-type circular polarizer 2 to the eye-near side of the liquid crystal box 1;

s4, arranging a battery circuit on the liquid crystal box 1, communicating the battery circuit with an electrode, and arranging a photosensitive controller on the battery circuit;

and S5, processing the liquid crystal box 1 and the circular polarizer 2 into a lens shape, installing the liquid crystal box and the circular polarizer in a glasses frame, and arranging the battery circuit on the glasses frame.

Pouring liquid crystal with delta n of 0.08 into a liquid crystal box 1 with the thickness of 1.5 microns, wherein the liquid crystal box 1 adopts antiparallel friction, and ITO electrodes are vapor-plated on two surfaces; the rubbing direction of the liquid crystal box is arranged to form an angle of 45 degrees with the road surface. The near-eye side of the liquid crystal box is attached with a reflection type circular polarizer 2. The device is processed into a glasses shape and is installed in a proper glasses frame, a button cell circuit is arranged to supply power to the liquid crystal box, and a control device is arranged on the circuit to realize automatic adjustment of liquid crystal arrangement through sensing light intensity, so that automatic adjustment of light is realized.

The application method of the circularly polarized light device comprises the following steps:

t1, sensing the intensity of external light by a photosensitive controller;

t2, if the external light is strong, the photosensitive controller controls the battery circuit to stop working, no current passes through the electrodes, liquid crystals in the liquid crystal box are horizontally arranged, the component of the external light which vibrates in parallel with the reflecting surface is converted into circularly polarized light through the liquid crystal box 1 and is reflected and filtered by the circular polarizer 2 to be removed, and other light passes through the circular polarizer and enters eyes;

and T3, if the external light is weak, the photosensitive controller controls the battery circuit to start working, the two electrodes of the liquid crystal box 1 are electrified, the liquid crystal is vertically arranged, and the external light completely penetrates through the liquid crystal box and the circular polarizer 2 to enter eyes.

The 1/4 wave plate is replaced by the liquid crystal box 1 which is arranged in an anti-parallel mode, so that the liquid crystal box plays a role of a 1/4 wave plate when needed, electrodes on two sides of the liquid crystal box 1 are electrified when not needed, liquid crystals are vertically arranged, and the function of the 1/4 wave plate is lost, so that the liquid crystal box 1 can be adjusted through an electric field to be automatically switched between the 1/4 wave plate and the non-1/4 wave plate, and automatic work can be achieved under a dark environment without manually taking off glasses.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (6)

1. A circular polarization device is characterized by comprising a liquid crystal box and a circular polarizer, wherein the liquid crystal box is arranged in an anti-parallel mode, the circular polarizer reflects circular polarization, the liquid crystal box is positioned at a position, at which a 45-degree angle is formed between natural light reflected by the surface of an object and the direction of a parallel vibration component of a reflecting surface, the circular polarizer is arranged behind the liquid crystal box, when the natural light is reflected by the surface of the object, the component vibrating perpendicular to the surface of the object is greatly absorbed, the reflected light is mainly a component vibrating in the direction parallel to the reflecting surface, an 1/4 wave plate is arranged in the direction forming an angle of 45 degrees with the vibration direction of the light, the linear polarization is converted into circular polarization, a circular polarizer reflecting the circular polarization is arranged behind a 1/4 wave plate, the converted circular polarization is reflected back, and the liquid crystal capable of electrically adjusting the arrangement direction is filled in, electrodes, a power supply and a photosensitive controller are arranged on two sides of the liquid crystal box, the photosensitive controller is connected with the power supply, and the power supply is connected with the electrodes.

2. The circularly polarized light device of claim 1, wherein the electrode is an ITO-plated electrode.

3. The circularly polarized light apparatus according to claim 1, wherein the power source is a battery.

4. A method of making a circularly polarized light device according to any of claims 1 to 3, comprising the steps of:

s1, performing anti-parallel rubbing alignment on a liquid crystal box, plating ITO (indium tin oxide) electrodes on two surfaces of the liquid crystal box, and filling liquid crystal into the liquid crystal box;

s2, setting the friction direction of the liquid crystal box to form an angle of 45 degrees with the road surface;

s3, attaching a reflection-type circular polarizer to the near-eye side of the liquid crystal box;

and S4, arranging a battery circuit on the liquid crystal box, communicating the battery circuit with the electrode, and arranging a photosensitive controller on the battery circuit.

5. The method for manufacturing a circularly polarized light device according to claim 4, further comprising the steps of:

and S5, processing the liquid crystal box and the circular polaroid into a lens shape, installing the liquid crystal box and the circular polaroid in a glasses frame, and arranging a battery circuit on the glasses frame.

6. A method of using a circularly polarized light device according to any of claims 1-3, characterized in that it comprises the steps of:

t1, sensing the intensity of external light by a photosensitive controller;

t2, if the external light is strong, the photosensitive controller controls the battery circuit to stop working, no current passes through the electrodes, liquid crystals in the liquid crystal box are horizontally arranged, the component of the external light which vibrates in parallel with the reflecting surface is converted into circularly polarized light through the liquid crystal box and is reflected and filtered by the circular polarizer to be removed, and other light passes through the circular polarizer to enter eyes;

and T3, if the external light is weak, the photosensitive controller controls the battery circuit to start working, the electrodes on the two sides of the liquid crystal box are electrified, the liquid crystal is vertically arranged, and the external light completely penetrates through the liquid crystal box and the circular polarizer and enters eyes.

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