CN103747235B - Normal signal is utilized to form television set and the manufacture craft thereof of stereoscopic visual effect - Google Patents

Abstract

The invention discloses a kind of television set utilizing normal signal to form stereoscopic visual effect, comprise LCDs, stereo display eyeglass, regulate eyeglass, light-collecting lens, outer screen and shading housing, described stereo display eyeglass is the outermost glass substrate of LCDs, described adjustment eyeglass is located at 1-2 centimeters outside stereo display eyeglass, described light-collecting lens is located at and regulates 1.5-2.5 centimeters outside eyeglass, described outer screen is located at light-collecting lens and is located at outside condenser, and the distance of outer screen and concentration piece is equal with the focal length of outer screen; LCDs, regulate eyeglass, light-collecting lens and outer screen all parallel to each other and be all fixedly located in shading housing.The TV function utilizing normal signal to form stereoscopic visual effect converts common TV signal to stereo-picture, and imaging effect is better and cost is lower.

Description

Normal signal is utilized to form television set and the manufacture craft thereof of stereoscopic visual effect

Technical field

The present invention relates to technical field of television sets, refer in particular to the television set and the manufacture craft thereof that utilize normal signal to form stereoscopic visual effect.

Background technology

Existing television screen is planar, why we can enjoy just like the 3-D view as material object, be make human eye produce visual illusion because of the difference of color gray scale when being presented on television screen, and the television screen of two dimension is perceived as 3-D view.Based on the relevant knowledge of color science, the projection generally aobvious high luminance color at three-dimensional body edge, and sunk part is due to aobvious dark-coloured by blocking of light.This understanding is widely used in the drafting to button, 3d lines in webpage or other application.The 3d word such as will drawn, namely in home position exhibit high brilliance color, and sketches the contours of its profile in the position such as lower-left or upper right low-light level color, so visually just can produce the effect of 3d word.During specific implementation, available duplicate font draws the 2d word of two different colours respectively in different positions, as long as make the coordinate of two words suitable, just visually can produce the 3d word of different-effect completely.Nowadays the 3D stereo display technique of main flow, us still can not be made to break away from the constraint of Special spectacles, and this makes its range of application and comfort all make a discount.And many 3D technology can allow long experiencer have the nauseating sensation such as dizzy.

China Patent Publication No. CN102238409A, publication date on November 9th, 2011, disclose a kind of bore hole 3D video wall in the patent of invention that name is called " a kind of bore hole 3D video wall ", bore hole 3D video wall is made up of full-color LED array of display and grating; Described grating is positioned over full-color LED array of display front, and keep at a distance with full-color LED array of display plane parallel, grating orientation becomes angle of inclination with full-color LED column direction; When multi-view image is staggered mix and be presented on full-color LED array time, make display resolution loss share in level and vertical both direction simultaneously, namely video wall can watch 3D rendering without the need to wearing special glasses.Weak point is, this video wall changes the structure of television internal, and cost is higher, and display effect is not good.

Summary of the invention

The object of the invention is to overcome in prior art the shortcoming lacking technology normal tv signal being converted to stereoeffect, a kind of television set and the manufacture craft thereof that normal signal can be formed stereoscopic visual effect are provided.

The object of the invention is to be achieved by following technical proposals:

A kind of television set utilizing normal signal to form stereoscopic visual effect, comprise LCDs, stereo display eyeglass, regulate eyeglass, light-collecting lens, outer screen and shading housing, described stereo display eyeglass is the outermost glass substrate of LCDs, described adjustment eyeglass is located at 1-2 centimeters outside stereo display eyeglass, described light-collecting lens is located at and regulates 1.5-2.5 centimeters outside eyeglass, described outer screen is located at light-collecting lens and is located at outside condenser, and the distance of outer screen and concentration piece is equal with the focal length of outer screen; LCDs, regulate eyeglass, light-collecting lens and outer screen all parallel to each other and be all fixedly located in shading housing.Stereo display eyeglass, adjustment eyeglass, light-collecting lens and outer screen make by acrylic polymethyl methacrylate.Stereo display eyeglass makes the Nonlinear magnify of common TV signal or reduces, and forms " slur " vision, and time preliminary, picture forms third dimension; Regulate eyeglass to be used for image to compare, eliminate ghost effect; Light-collecting lens is used for image to carry out optically focused, increases brightness; Outer screen is used for enlarged image, makes viewing better effects if.The distance of outer screen and concentration piece is equal with the focal length of outer screen makes picture clear, can not be fuzzy.

As a kind of preferred version, LCDs, regulate eyeglass, light-collecting lens and outer screen area successively from small to large, and shading housing LCDs place area of section to shading housing outside screen place area of section increase gradually.The TV play display screen that this design can make common size less demonstrates large-sized image, has saved cost, makes beholder obtain good viewing effect, has saved the energy simultaneously.

As a kind of preferred version, stereo display eyeglass is divided into concave structure, planar structure and convex configuration, 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration form imaging lens blade unit, and stereo display eyeglass forms by several imaging lens blade units are horizontally-spliced successively; The center thickness of described concave structure is 0.01 centimetre, the both sides thickness of concave structure is 0.15 centimetre, several half sphere shape are also provided with in concave structure, the size of half sphere shape increases from center gradually to both sides, described planar structure thickness is 0.075 centimetre, and the center thickness of described convex configuration is 0.15 centimetre, and the both sides thickness of convex configuration is 0.01 centimetre, also be provided with several half sphere shape in convex configuration, the size of half sphere shape reduces from center gradually to both sides.This structure can tentatively make plane picture have third dimension, and 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration can make imaging effect better.

As a kind of preferred version, regulate eyeglass to comprise and regulate horizontal eyeglass and regulate longitudinal eyeglass, horizontal eyeglass is regulated to comprise several horizontal lens units, horizontal eyeglass is regulated to form by several horizontal lens units are longitudinal spliced successively, horizontal lens unit comprises 3-5 left wedge structure and 3-5 right wedge structure, one end of one end of 3-5 left wedge structure and 3-5 right wedge structure overlaps, the thickness of left wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from left to right, several half sphere shape are also provided with in left wedge structure, the size of half sphere shape increases from left to right gradually, the thickness of right wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from left to right, several half sphere shape are also provided with in right wedge structure, the size of half sphere shape reduces from left to right gradually, longitudinal eyeglass is regulated to comprise several longitudinal lens units, longitudinal eyeglass is regulated to form by several longitudinal lens units are longitudinal spliced successively, longitudinal lens unit comprises 3-5 upper wedge structure and 3-5 lower wedge structure, one end of one end of 3-5 upper wedge structure and 3-5 lower wedge structure overlaps, the thickness of upper wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from the top down, several half sphere shape are also provided with in upper wedge structure, the size of half sphere shape increases from top to bottom gradually, the thickness of lower wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from the top down, several half sphere shape are also provided with in lower wedge structure, the size of half sphere shape reduces from top to bottom gradually, the horizontal eyeglass of described adjustment and regulate the space being provided with 0.1 centimetre between longitudinal eyeglass, is provided with seal fluid in space.

Regulate eyeglass for eliminating ghost effect, during calibration, first will regulate horizontal eyeglass and regulate longitudinal eyeglass overlapping, then rotate and regulate horizontal eyeglass or the longitudinal eyeglass of adjustment, make the horizontal eyeglass of adjustment or regulate longitudinal eyeglass to rotate 0-5 degree, whether eliminating ghost image by visually observing, after eliminating ghost image, horizontal for the adjustment adjusting angle eyeglass and the longitudinal lens position of adjustment being fixed.

As a kind of preferred version, condenser is a part for the first circular mirror surface, and the cornerwise length of condenser is the diameter of the first circular mirror surface, and the ratio of the long limit of condenser and broadside equals the ratio of the long limit of LCDs and broadside; First circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre; Annulus inward flange thickness between any two adjacent concentric circless is 0.15 centimetre, and outward flange thickness is 0.01 centimetre, is provided with several half sphere shape in annulus, and the size of half sphere shape reduces from center gradually to edge.

As a kind of preferred version, outer screen is a part for the second circular mirror surface, and the cornerwise length of outer screen is the diameter of the second circular mirror surface, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside; Second circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre; Single concentrically ringed center thickness is 0.01 centimetre, and edge thickness is 0.15 centimetre, is provided with several half sphere shape in single concentric circles, and the size of half sphere shape subtracts gradually from center to edge greatly.The focal length of outer screen is at 2-3cm, and focal length is excessive affects TV thickness, the performance that the too small impact of focal length is shielded outward.

Utilize normal signal to form a manufacture craft for the television set of stereoscopic visual effect, comprise the making of stereo display eyeglass, regulate the making of eyeglass, the making of light-collecting lens and outer screen to make, wherein the making of stereo display eyeglass comprises the following steps:

Step 1, is divided into several imaging lens blade units by stereo display eyeglass, the width of each imaging lens blade unit is 1 centimetre;

Step 2, each imaging lens blade unit is divided into 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration structure, wherein, the process of scribing of concave structure is sub-step 2a, the process of scribing of planar structure is sub-step 2b, and the process of scribing of convex configuration is 2c;

Sub-step 2a, icking tool is scribed from central point, the thickness that central point is scribed is 0.01 centimetre, and the angle of central point icking tool and stereo display eyeglass is 90 degree, cut out the half sphere shape that diameter is minimum, the thickness that marginal point is scribed is 0.15 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 40 degree of half sphere shape cutting out largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 2b, icking tool is scribed from central point, and the thickness scribed is 0.075 centimetre, can play the plane forming thickness equalization;

Sub-step 2c, icking tool is scribed from central point, the thickness that central point is scribed is 0.15 centimetre, and the angle of central point icking tool and stereo display eyeglass is 40 degree, cut out the half sphere shape of largest diameter, the thickness that marginal point is scribed is 0.01 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 90 degree and cuts out the minimum half sphere shape of diameter, angle along with central point to the direction of marginal point by subtracting increase.

As a kind of preferred version, the making of eyeglass is regulated to comprise the following steps:

Step 3, is divided into several horizontal lens units by horizontal for adjustment eyeglass, and each horizontal lens unit is divided into 3-5 left wedge structure and 3-5 right wedge structure, and the process of scribing of left wedge structure is 3a, and the process of scribing of right wedge structure is 3b;

Sub-step 3a, icking tool is scribed to the right from the left side, when Far Left, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, when rightmost, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 3b, icking tool is scribed to the right from the left side, when Far Left, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, when rightmost, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle adds by subtracting along with the direction of central point to marginal point;

Step 4, is divided into several longitudinal lens units by longitudinal for adjustment eyeglass, and each longitudinal lens unit is divided into 3-5 upper wedge structure and 3-5 lower wedge structure, and the process of scribing of upper wedge structure is 4a, and the process of scribing of lower wedge structure is 4b;

Sub-step 4a, icking tool is scribed downwards from top, when the top, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, bottom time, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 4b, icking tool is scribed downwards from top, when the top, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, bottom time, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle along with central point to the direction of marginal point by subtracting increase;

Step 5, by horizontal for adjustment eyeglass with regulate longitudinal lens set to be fitted together, is regulated the space being provided with 1 centimetre between the longitudinal eyeglass of horizontal eyeglass and adjustment, is provided with liquid and is sealed by sealing strip in space.

As a kind of preferred version, the making of light-collecting lens comprises the following steps:

Step 6, is divided into several concentric circless by the first circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 7, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, during its outer edges, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, angle along with central point to the direction of marginal point by minimizing;

Step 8, is cut into condenser by the first circular mirror surface, and condenser is with the diagonal of the diameter of the first circular mirror surface as condenser, and the ratio of the long limit of condenser and broadside equals the ratio of the long limit of LCDs and broadside.

As a kind of preferred version, the making of outer screen comprises the following steps:

Step 9, is divided into several concentric circless by the second circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 10, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, during its outer edges, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, and angle adds by subtracting along with the direction of central point to marginal point;

Step 11, is cut into outer screen by the second circular mirror surface, and outer screen is with the diagonal of the diameter of the second circular mirror surface as outer screen, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside.

The invention has the beneficial effects as follows, the TV function utilizing normal signal to form stereoscopic visual effect converts common TV signal to stereo-picture, and imaging effect is better and cost is lower.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of the present invention;

Fig. 2 is the schematic cross-section of stereo display eyeglass concave structure of the present invention;

Fig. 3 is the schematic cross-section of the convex configuration of stereo display eyeglass of the present invention;

Fig. 4 is the front view of the horizontal eyeglass of adjustment of the present invention;

Fig. 5 is the front view of the longitudinal eyeglass of adjustment of the present invention;

Fig. 6 is the schematic cross-section of Fig. 4;

Fig. 7 is the schematic cross-section of Fig. 5;

Fig. 8 is the front view of condenser of the present invention.

Wherein: 1, LCDs, 2, stereo display eyeglass, 3, regulate eyeglass, 4, light-collecting lens, 5, outer screen, 6, shading housing, the 7, first circular mirror surface, 8, half sphere shape, 31, regulate horizontal eyeglass, 32, regulate longitudinal eyeglass, 311, horizontal lens unit, 321, longitudinal lens unit.

Embodiment

Below in conjunction with drawings and Examples, the present invention is further described.

Embodiment: a kind of television set utilizing normal signal to form stereoscopic visual effect, its structural representation as shown in Figure 1, comprise LCDs 1, stereo display eyeglass 2, regulate eyeglass 3, light-collecting lens 4, outer screen 5 and shading housing 6, described stereo display eyeglass is the outermost glass substrate of LCDs, described adjustment eyeglass is located at 1.5 centimeters outside stereo display eyeglass, described light-collecting lens is located at and regulates 2 centimeters outside eyeglass, described outer screen is located at light-collecting lens and is located at outside condenser, the distance of outer screen and concentration piece is equal with the focal length of outer screen, LCDs, regulate eyeglass, light-collecting lens and outer screen all parallel to each other and be all fixedly located in shading housing.Stereo display eyeglass, adjustment eyeglass, light-collecting lens and outer screen make by acrylic polymethyl methacrylate.LCDs, regulate eyeglass, light-collecting lens and outer screen area successively from small to large, and shading housing LCDs place area of section to shading housing outside screen place area of section increase gradually.

Stereo display eyeglass is divided into concave structure, planar structure and convex configuration, and 4 pieces of concave structures, 2 pieces of planar structures, 4 pieces of convex configuration form imaging lens blade unit, and stereo display eyeglass forms by several imaging lens blade units are horizontally-spliced successively; Described concave structure as shown in Figure 2, the center thickness of concave structure is 0.01 centimetre, the both sides thickness of concave structure is 0.15 centimetre, several half sphere shape 8 are also provided with in concave structure, the size of half sphere shape increases from center gradually to both sides, described planar structure thickness is 0.075 centimetre, described convex configuration as shown in Figure 3, the center thickness of convex configuration is 0.15 centimetre, the both sides thickness of convex configuration is 0.01 centimetre, also be provided with several half sphere shape in convex configuration, the size of half sphere shape reduces from center gradually to both sides.The half sphere shape one side of stereo display eyeglass is fitted with LCDs body, the plane LCDs body dorsad of stereo display eyeglass, this design makes to leave space between stereo display eyeglass and LCDs body, and convenient heat radiation, adds the life-span of LCDs.

Regulate eyeglass to comprise and regulate horizontal eyeglass 31 and regulate longitudinal eyeglass 32, regulate horizontal eyeglass as shown in Figure 4 and Figure 6, horizontal eyeglass is regulated to comprise several horizontal lens units 311, horizontal eyeglass is regulated to form by several horizontal lens units are longitudinal spliced successively, horizontal lens unit comprises 5 left wedge structures and 5 right wedge structures, one end of one end of 5 left wedge structures and 5 right wedge structures overlaps, the thickness of left wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from left to right, several half sphere shape are also provided with in left wedge structure, the size of half sphere shape increases from left to right gradually, the thickness of right wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from left to right, several half sphere shape are also provided with in right wedge structure, the size of half sphere shape reduces from left to right gradually.Regulate longitudinal eyeglass as shown in figure 5 and figure 7, longitudinal eyeglass is regulated to comprise several longitudinal lens units 312, longitudinal eyeglass is regulated to form by several longitudinal lens units are longitudinal spliced successively, longitudinal lens unit comprises 5 upper wedge structures and 5 lower wedge structures, one end of 5 upper wedge structures and one end of 5 lower wedge structures overlap, the thickness of upper wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from the top down, several half sphere shape are also provided with in upper wedge structure, the size of half sphere shape increases from top to bottom gradually, the thickness of lower wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from the top down, several half sphere shape are also provided with in lower wedge structure, the size of half sphere shape reduces from top to bottom gradually.The horizontal eyeglass of described adjustment and regulate the space being provided with 0.1 centimetre between longitudinal eyeglass, be provided with seal fluid in space, sealing one is led by top and is imported with water hole.

As shown in Figure 8, condenser is a part for the first circular mirror surface 7 to condenser, and the cornerwise length of condenser is the diameter of the first circular mirror surface, and the ratio of the long limit of condenser and broadside equals the ratio of the long limit of LCDs and broadside; First circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre; Annulus inward flange thickness between any two adjacent concentric circless is 0.15 centimetre, and outward flange thickness is 0.01 centimetre, is provided with several half sphere shape in annulus, and the size of half sphere shape reduces from center gradually to edge.

Structure and the condenser of outer screen are similar, and difference is that outer screen is a part for the second circular mirror surface, and the cornerwise length of outer screen is the diameter of the second circular mirror surface, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside; Second circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre; Single concentrically ringed center thickness is 0.01 centimetre, and edge thickness is 0.15 centimetre, is provided with several half sphere shape in single concentric circles, and the size of half sphere shape subtracts gradually from center to edge greatly.The outer surface of outer screen is also provided with T-coating, reduces electric light source to human injury.

Utilize normal signal to form a manufacture craft for the television set of stereoscopic visual effect, comprise the making of stereo display eyeglass, regulate the making of eyeglass, the making of light-collecting lens and outer screen to make, wherein the making of stereo display eyeglass comprises the following steps:

Step 1, is divided into several imaging lens blade units by stereo display eyeglass, the width of each imaging lens blade unit is 1 centimetre;

Step 2, each imaging lens blade unit is divided into 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration structure, wherein, the process of scribing of concave structure is sub-step 2a, the process of scribing of planar structure is sub-step 2b, and the process of scribing of convex configuration is 2c;

Sub-step 2a, icking tool is scribed from central point, the thickness that central point is scribed is 0.01 centimetre, and the angle of central point icking tool and stereo display eyeglass is 90 degree, cut out the half sphere shape that diameter is minimum, the thickness that marginal point is scribed is 0.15 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 40 degree of half sphere shape cutting out largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 2b, icking tool is scribed from central point, and the thickness scribed is 0.075 centimetre, can play the plane forming thickness equalization;

Sub-step 2c, icking tool is scribed from central point, the thickness that central point is scribed is 0.15 centimetre, and the angle of central point icking tool and stereo display eyeglass is 40 degree, cut out the half sphere shape of largest diameter, the thickness that marginal point is scribed is 0.01 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 90 degree and cuts out the minimum half sphere shape of diameter, angle along with central point to the direction of marginal point by subtracting increase.

The making of eyeglass is regulated to comprise the following steps:

Step 3, is divided into several horizontal lens units by horizontal for adjustment eyeglass, and each horizontal lens unit is divided into 3-5 left wedge structure and 3-5 right wedge structure, and the process of scribing of left wedge structure is 3a, and the process of scribing of right wedge structure is 3b;

Sub-step 3a, icking tool is scribed to the right from the left side, when Far Left, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, when rightmost, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 3b, icking tool is scribed to the right from the left side, when Far Left, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, when rightmost, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle adds by subtracting along with the direction of central point to marginal point;

Step 4, is divided into several longitudinal lens units by longitudinal for adjustment eyeglass, and each longitudinal lens unit is divided into 5 upper wedge structures and 5 lower wedge structures, and the process of scribing of upper wedge structure is 4a, and the process of scribing of lower wedge structure is 4b;

Sub-step 4a, icking tool is scribed downwards from top, when the top, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, bottom time, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle along with central point to the direction of marginal point by minimizing;

Sub-step 4b, icking tool is scribed downwards from top, when the top, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, bottom time, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle along with central point to the direction of marginal point by subtracting increase;

Step 5, by horizontal for adjustment eyeglass with regulate longitudinal lens set to be fitted together, is regulated the space being provided with 1 centimetre between the longitudinal eyeglass of horizontal eyeglass and adjustment, is provided with liquid and is sealed by sealing strip in space.

The making of light-collecting lens comprises the following steps:

Step 6, is divided into several concentric circless by the first circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 7, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, during its outer edges, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, angle along with central point to the direction of marginal point by minimizing;

Step 8, is cut into condenser by the first circular mirror surface, and condenser is with the diagonal of the diameter of the first circular mirror surface as condenser, and the ratio of the long limit of condenser and broadside equals the ratio of the long limit of LCDs and broadside.

The making of outer screen comprises the following steps:

Step 9, is divided into several concentric circless by the second circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 10, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, during its outer edges, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, and angle adds by subtracting along with the direction of central point to marginal point;

Step 11, is cut into outer screen by the second circular mirror surface, and outer screen is with the diagonal of the diameter of the second circular mirror surface as outer screen, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside.

Claims (1)

1. the television set utilizing normal signal to form stereoscopic visual effect, comprise LCDs, it is characterized in that, also comprise stereo display eyeglass, regulate eyeglass, light-collecting lens, outer screen and shading housing, described stereo display eyeglass is the outermost glass substrate of LCDs, described adjustment eyeglass is located at 1-2 centimeters outside stereo display eyeglass, described light-collecting lens is located at and regulates 1.5-2.5 centimeters outside eyeglass, described outer screen is located at outside light-collecting lens, and the distance of outer screen and light-collecting lens is equal with the focal length of outer screen, LCDs, regulate eyeglass, light-collecting lens and outer screen all parallel to each other and be all fixedly located in shading housing, described LCDs, regulate eyeglass, light-collecting lens and outer screen area successively from small to large, and shading housing LCDs place area of section to shading housing outside screen place area of section increase gradually, described stereo display eyeglass is divided into concave structure, planar structure and convex configuration, 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration form imaging lens blade unit, and stereo display eyeglass forms by several imaging lens blade units are horizontally-spliced successively, the center thickness of described concave structure is 0.01 centimetre, the both sides thickness of concave structure is 0.15 centimetre, several half sphere shape are also provided with in concave structure, the size of half sphere shape increases from center gradually to both sides, described planar structure thickness is 0.075 centimetre, and the center thickness of described convex configuration is 0.15 centimetre, and the both sides thickness of convex configuration is 0.01 centimetre, also be provided with several half sphere shape in convex configuration, the size of half sphere shape reduces from center gradually to both sides, described adjustment eyeglass comprises the horizontal eyeglass of adjustment and regulates longitudinal eyeglass, horizontal eyeglass is regulated to comprise several horizontal lens units, horizontal eyeglass is regulated to form by several horizontal lens units are longitudinal spliced successively, horizontal lens unit comprises 3-5 left wedge structure and 3-5 right wedge structure, one end of one end of 3-5 left wedge structure and 3-5 right wedge structure overlaps, the thickness of left wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from left to right, several half sphere shape are also provided with in left wedge structure, the size of half sphere shape increases from left to right gradually, the thickness of right wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from left to right, several half sphere shape are also provided with in right wedge structure, the size of half sphere shape reduces from left to right gradually, longitudinal eyeglass is regulated to comprise several longitudinal lens units, longitudinal eyeglass is regulated to form by several longitudinal lens units are longitudinal spliced successively, longitudinal lens unit comprises 3-5 upper wedge structure and 3-5 lower wedge structure, one end of one end of 3-5 upper wedge structure and 3-5 lower wedge structure overlaps, the thickness of upper wedge structure is increased to 0.15 centimetre gradually from 0.01 centimetre from the top down, several half sphere shape are also provided with in upper wedge structure, the size of half sphere shape increases from top to bottom gradually, the thickness of lower wedge structure is gradually reduced to 0.01 centimetre from 0.15 centimetre from the top down, several half sphere shape are also provided with in lower wedge structure, the size of half sphere shape reduces from top to bottom gradually, the horizontal eyeglass of described adjustment and regulate the space being provided with 0.1 centimetre between longitudinal eyeglass, is provided with seal fluid in space, light-collecting lens is a part for the first circular mirror surface, and the cornerwise length of light-collecting lens is the diameter of the first circular mirror surface, and the ratio of condenser length of a film limit and broadside equals the ratio of the long limit of LCDs and broadside, first circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre, annulus inward flange thickness between any two adjacent concentric circless is 0.15 centimetre, and outward flange thickness is 0.01 centimetre, is provided with several half sphere shape in annulus, and the size of half sphere shape reduces from center gradually to edge, outer screen is a part for the second circular mirror surface, and the cornerwise length of outer screen is the diameter of the second circular mirror surface, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside, second circular mirror surface comprises several concentric circless, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre, single concentrically ringed center thickness is 0.01 centimetre, and edge thickness is 0.15 centimetre, is provided with several half sphere shape in single concentric circles, and the size of half sphere shape subtracts gradually from center to edge greatly.

2. the manufacture craft utilizing normal signal to form the television set of stereoscopic visual effect, based on a kind of television set utilizing normal signal to form stereoscopic visual effect according to claim 1, it is characterized in that, comprise the making of stereo display eyeglass, regulate the making of eyeglass, the making of light-collecting lens and outer screen to make, wherein the making of stereo display eyeglass comprises the following steps:

Step 1, is divided into several imaging lens blade units by stereo display eyeglass, the width of each imaging lens blade unit is 1 centimetre;

Step 2, is divided into 4-5 block concave structure, 2-3 block planar structure, 4-5 block convex configuration by each imaging lens blade unit;

The making of eyeglass is regulated to comprise the following steps:

Step 3, is divided into several horizontal lens units by horizontal for adjustment eyeglass, and each horizontal lens unit is divided into 3-5 left wedge structure and 3-5 right wedge structure;

Step 4, is divided into several longitudinal lens units by longitudinal for adjustment eyeglass, and each longitudinal lens unit is divided into 3-5 upper wedge structure and 3-5 lower wedge structure;

Step 5, by horizontal for adjustment eyeglass with regulate longitudinal lens set to be fitted together, is regulated the space being provided with 1 centimetre between the longitudinal eyeglass of horizontal eyeglass and adjustment, is provided with liquid and is sealed by sealing strip in space;

The making of light-collecting lens comprises the following steps:

Step 6, is divided into several concentric circless by the first circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 7, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, during its outer edges, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, and angle is along with reducing gradually in the direction of central point to marginal point;

Step 8, is cut into condenser by the first circular mirror surface, and condenser is with the diagonal of the diameter of the first circular mirror surface as condenser, and the ratio of the long limit of condenser and broadside equals the ratio of the long limit of LCDs and broadside;

The making of outer screen comprises the following steps:

Step 9, is divided into several concentric circless by the second circular mirror surface, and minimum concentrically ringed diameter is 1 centimetre, and remaining concentrically ringed diameter increases for tolerance successively gradually with 1 centimetre;

Step 10, in annulus between any two adjacent concentric circless, icking tool is scribed to outward flange from inward flange, when inward flange, the angle of icking tool and the first circular mirror surface is 40 degree, the thickness scribed is 0.01 centimetre, cuts out the half sphere shape that diameter is minimum, during its outer edges, the angle of icking tool and the first circular mirror surface is 90 degree, the thickness scribed is 0.15 centimetre, cuts out the half sphere shape of largest diameter, and angle adds along with central point to the direction of marginal point subtracts gradually;

Step 11, is cut into outer screen by the second circular mirror surface, and outer screen is with the diagonal of the diameter of the second circular mirror surface as outer screen, and the ratio of the long limit of outer screen and broadside equals the ratio of the long limit of LCDs and broadside.

3. a kind of manufacture craft utilizing normal signal to form the television set of stereoscopic visual effect according to claim 2, it is characterized in that, in step 2, the process of scribing of concave structure is sub-step 2a, and the process of scribing of planar structure is sub-step 2b, and the process of scribing of convex configuration is 2c;

Sub-step 2a, icking tool is scribed from central point, the thickness that central point is scribed is 0.01 centimetre, and the angle of central point icking tool and stereo display eyeglass is 90 degree, cut out the half sphere shape that diameter is minimum, the thickness that marginal point is scribed is 0.15 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 40 degree of half sphere shape cutting out largest diameter, and angle is along with reducing gradually in the direction of central point to marginal point;

Sub-step 2b, icking tool is scribed from central point, and the thickness scribed is 0.075 centimetre, can play the plane forming thickness equalization;

Sub-step 2c, icking tool is scribed from central point, the thickness that central point is scribed is 0.15 centimetre, and the angle of central point icking tool and stereo display eyeglass is 40 degree, cut out the half sphere shape of largest diameter, the thickness that marginal point is scribed is 0.01 centimetre, and the angle of marginal point icking tool and stereo display eyeglass is 90 degree and cuts out the minimum half sphere shape of diameter, and angle increases gradually along with the direction of central point to marginal point.

4. a kind of manufacture craft utilizing normal signal to form the television set of stereoscopic visual effect according to claim 2, it is characterized in that, in step 3, the process of scribing of left wedge structure is sub-step 3a, and the process of scribing of right wedge structure is sub-step 3b;

Sub-step 3a, icking tool is scribed to the right from the left side, when Far Left, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, when rightmost, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle is along with reducing gradually in the direction of central point to marginal point;

Sub-step 3b, icking tool is scribed to the right from the left side, when Far Left, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, when rightmost, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle adds along with central point to the direction of marginal point subtracts gradually;

In step 4, the process of scribing of upper wedge structure is sub-step 4a, and the process of scribing of lower wedge structure is sub-step 4b;

Sub-step 4a, icking tool is scribed downwards from top, when the top, icking tool is 90 degree with the angle of adjustment eyeglass, the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, bottom time, icking tool is 40 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, angle is along with reducing gradually in the direction of central point to marginal point;

Sub-step 4b, icking tool is scribed downwards from top, when the top, icking tool is 40 degree with the angle of adjustment eyeglass, the thickness scribed is 0.15 centimetre, cut out the half sphere shape of largest diameter, bottom time, icking tool is 90 degree with the angle of adjustment eyeglass, and the thickness scribed is 0.01 centimetre, cut out the half sphere shape that diameter is minimum, angle increases gradually along with the direction of central point to marginal point.