CN106448474A - Seamless inner spherical display large screen of any arc angle - Google Patents

Abstract

A seamless inner spherical display large screen of any arc angle belongs to the technical field of simulation display. The seamless inner spherical display large screen comprises a pentagonal inner spherical image guided screen splicing unit, a hexagonal inner spherical image guided screen splicing unit, an inner spherical image guided screen splicing unit back rack and an inner spherical splicing unit suspension supporting framework, wherein the inner spherical image guided screen splicing unit back rack is fixed on back surfaces of the pentagonal inner spherical image guided screen splicing unit and the hexagonal inner spherical image guided screen splicing unit, and is spliced and fixed through the inner spherical splicing unit suspension supporting framework. The seamless inner spherical display large screen has the advantage that the inner spherical display of any arc angle, especially the inner spherical display of the arc angle greater than 180 degrees is realized. The seamless inner spherical display large screen has wide usages in occasions such as combat command, virtual reality, game display and dome cinema.

Description

A kind of seamless interior Surface of Sphere display large-size screen monitors of any arc angle

Technical field

The invention belongs to emulation display technology field, in particular, provide a kind of seamless interior Surface of Sphere of any arc angle Display large-size screen monitors, in places such as operational commanding, virtual reality, game display, ball screen cinemas, have purposes widely.

Background technology

It is visual characteristic using human eye that immersion shows, using the method for visual field reduction, so that the curved face of display surface is shown Show, each pixel of image is equidistant with the retina of people, on the premise of not changing people's eyes viewing custom, have plane simultaneously Image restoring is the image that video camera and human eye are watched, by the depth of cambered surface make picture be naturally formed with longitudinal separation sense and There is the picture of certain depth.The display of arc immersion, not only makes one to incorporate the immersion impression of picture image, and permissible Reduce because of the injury to cervical region and waist caused by the long-time distortion of head and waist, the health to incidence and waist There is very positive meaning.

The display surface of Internal Spherical Surface meets human eye ecology, can farthest reduce the vision that human eye watches true what comes into a driver's Custom, has been widely used in emulation display field.The fidelity how ensureing true what comes into a driver's is that high-end display industry chases after for a long time The target asked, Belgian bar can, section of the U.S. depending on, Britain DP be emulation display field outstanding person, large-scale ball curtain emulation display Substantially monopolized by above-mentioned three companies, its conventional means is the means being merged using six scialyscope jointing edges in interior ball Interior spherical picture is projected out on the curtain of shape.Projection screen is added using front projection machine and shows that the method for spherical picture is simply easy OK, but the position of scialyscope needs positioned at the centre of sphere, and the centre of sphere should be the position of beholder's eyes, and the two has contradiction；Adopt There is the contradiction that focal length is difficult to adjust with the mode of back projection again, less interior spherical especially for radius of curvature, using normal The transmissive viewing screen of rule cannot obtain all interior spherical pictures rich in detail.Television set producer is intensive to be proposed curved surface TV, purpose It is also the display effect pursuing similar IMAX movie theatre, but, screen-bending slightly and too small display screen make arc TV Immersion effect have a greatly reduced quality, far do not reach the effect that producers publicize.It is that Internal Spherical Surface shows and is that real immersion shows Unquestionable, only Internal Spherical Surface can be only achieved real immersion and shows and can have 3D display effect for beholder's offer Image.

The problem of large-size screen monitors generally existing difficult, in general, the large-size screen monitors more than 100 inches do not only exist elevator and are difficult to The problem entering, and be also required to be selected on the road of transport, it is also more than more than 150 inches using module splicing The selection that large-size screen monitors are had to, and on the premise of splicing gap is less than pixel interval, if contiguous concatenation mould can be controlled Pixel interval between block is constant, equally can be spliced into the seamless large-screen image of large-size screen monitors display image, LED giant-screen Using be exactly this principle, LED giant-screen is not no physics splicing seams gap, but constitute LED giant-screen LED splicing module it Between splicing gap be less than or equal to the pixel interval of LED display and do not produce the black seam of optics.

Arc angle be less than 180 degree interior Surface of Sphere large-size screen monitors can optical fiber arranged in parallel by display screen, preposition lead as shield make Internal Spherical Surface is solving, but arc angle is more than the Internal Spherical Surface display screen of 180 degree, just cannot be solved by above-mentioned method.Arc angle is big Interior Surface of Sphere display large-size screen monitors in 180 degree have been widely used in emulation display field, and especially the drive simulating in aircraft is led Domain and its simulation games field, Internal Spherical Surface display screen needs bigger arc angle, such as：The advanced flying of four generations above fighter plane and The arc angle that tactical flying needs is that level is not less than 200 degree, is vertically not less than 60 degree.

Content of the invention

It is an object of the invention to provide a kind of seamless interior Surface of Sphere display large-size screen monitors of any arc angle, big by LED The theory of constitution of screen and Internal Spherical Surface are led as screen, and the interior Surface of Sphere realizing any arc angle shows, especially greater than 180 degree arc angle Interior Surface of Sphere show.

The principle of the present invention is can to splice globulate using pentagon and hexagon, and what recycling optical fiber was made can enter The interior spherical of row pixels conduct or displacement is led as screen is by the Internal Spherical Surface of the plane of display or curved surface picture displacement to certain curvature Lead and show as in the Internal Spherical Surface of screen, thus the display module of plane or curved-surface display is converted into the Internal Spherical Surface that Internal Spherical Surface shows and leads As screen unit, then by Internal Spherical Surface lead as screen unit spliced be combined into certain curvature Internal Spherical Surface round and smooth Internal Spherical Surface display large-size screen monitors.

The present invention includes pentagon Internal Spherical Surface and leads leading as screen concatenation unit 2, interior as screen concatenation unit 1, hexagon Internal Spherical Surface Sphere is led as screen concatenation unit backrest 3, Internal Spherical Surface concatenation unit suspension support frame 4；Internal Spherical Surface is led as screen concatenation unit backrest 3 Be fixed on pentagon Internal Spherical Surface lead as screen concatenation unit 1 and hexagon Internal Spherical Surface lead as screen concatenation unit 2 the back side, by interior ball Face concatenation unit suspension support frame 4 carries out splicing and fixes.As shown in Figure 1.

The implementation process of the present invention is to lead display module 11, Pentagon or obform body pentagon Internal Spherical Surface optical fiber first As screen 12 and display module 21 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22, by transparent adhesive tape or super Thin strength tensionless winkler foundation adhesive tape 123 composition pentagon Internal Spherical Surface is led and is led as screen concatenation unit as screen concatenation unit 1, hexagon Internal Spherical Surface 2；Next to that lead in pentagon Internal Spherical Surface leading as in the back side installation of screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface Sphere is led as screen concatenation unit backrest 3；It is that Internal Spherical Surface concatenation unit suspension support frame 4 is installed again, and according in pentagon Sphere is led and is led to lead as the position suspension pentagon Internal Spherical Surface of screen concatenation unit 2 and spell as screen as screen concatenation unit 1, hexagon Internal Spherical Surface Order unit 1, hexagon Internal Spherical Surface lead as screen concatenation unit 2；It is finally that fine setting Internal Spherical Surface is led as upper in screen concatenation unit backrest 3 Bolt 43 in lower regulating bolt 33 and Internal Spherical Surface concatenation unit suspension support frame 4, makes pentagon Internal Spherical Surface lead as screen splicing Unit 1, hexagon Internal Spherical Surface are led as shielding the splicing gap between concatenation unit 2, front-back staggered is less than 0.1mm.

The pentagon Internal Spherical Surface of the present invention is led as screen concatenation unit 1 is by display module 11, Pentagon or obform body five side Shape Internal Spherical Surface optical fiber is led and is formed as screen 12, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123, Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led and is close to the display surface of display module 11 as screen 12, by transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123 It is fixed together.As shown in Figure 2.The present invention in the case of not considering Internal Spherical Surface round and smooth degree, lead and spell as screen by pentagon Internal Spherical Surface Order unit 1 is exactly display module 11, and Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and transparent adhesive tape or ultra-thin Strength tensionless winkler foundation adhesive tape 123 can omit.

The hexagon Internal Spherical Surface of the present invention is led as screen concatenation unit 2 is by display module 21, hexagon body or obform body six side Shape Internal Spherical Surface optical fiber is led and is formed as screen 22, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123, hexagon body or obform body hexagon Internal Spherical Surface optical fiber is led and is close to the display surface of display module 21 as screen 22, by transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123 It is fixed together.As shown in Figure 3；The present invention on the premise of not considering Internal Spherical Surface round and smooth degree, lead and spell as screen by hexagon Internal Spherical Surface Order unit 1 is exactly display module 21, and hexagon body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22 and transparent adhesive tape or ultra-thin Strength tensionless winkler foundation adhesive tape 123 can omit.

The display module 11 of the present invention, display module 21 can be LED display module, LCD display module, OLED display mould Group, QLED display module, PLED display module etc., its surface configuration can be plane or curved surface, its corner shape Shape can be tetragon or pentagon, hexagon or other polygonal.When display module 11 selects pentagon to show When showing module, it is Pentagon Internal Spherical Surface that Pentagon in combination or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 Optical fiber is led as screen；When display module 21 selects hexagon display, in hexagon body in combination or obform body hexagon It is that in hexagon body, sphere optical fiber is led as screen that sphere optical fiber is led as screen 22.When display module all select same model, specification four During the shape display module of side, it is incidence surface or to enter image planes be four sides that Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 Shape, display surface be one be tetragon, one be pentagonal obform body Internal Spherical Surface optical fiber lead as shield；Hexagon body or obform body Hexagon Internal Spherical Surface optical fiber lead as screen 22 be incidence surface or enter image planes be tetragon, display surface be one be tetragon, one be Hexagonal obform body Internal Spherical Surface optical fiber is led as screen.

The display module 11 of the present invention, display module 21 size less, and its cooperation composition pentagon Internal Spherical Surface lead picture Screen concatenation unit 1, hexagon Internal Spherical Surface are led and are led as in screen 12 or hexagon as the obform body pentagon Internal Spherical Surface of screen concatenation unit 2 Sphere lead as the thickness of screen 22 just can make thinner, the pentagon Internal Spherical Surface that thus forms is led as shielding concatenation unit 1, six sides Shape Internal Spherical Surface is led also can be lighter as the weight of screen concatenation unit 2, installs and also can be easier, is that tetragon is another especially for one One is that pentagon, hexagonal Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or abnormity For body hexagon Internal Spherical Surface optical fiber is led as screen 22, it also can be got over due to the gap of the pixel interval caused by pixel shift Little.The Diagonal Dimension scope of the display module 11 of the present invention and display module 21 is 3～30 inches, is shaped as regular polygon, Including：Square, regular pentagon, regular hexagon, other regular polygons.

The transparent adhesive tape of the present invention or the ultra-thin tensionless winkler foundation adhesive tape 123 of strength are model identical same material transparent adhesive tape or strength nothing Stretch tape, is to consider to reduce installation accuracy using transparent adhesive tape, is mainly from later maintenance using strength tensionless winkler foundation adhesive tape From the point of view of convenient, such as：When display screen selects LED display, change lamp after the damage that should be taken into account LED conveniently, To be advisable using ultra-thin strength tensionless winkler foundation adhesive tape, and when using LCD, OLED, QLED, PLED module, compared from transparent adhesive tape Have more preferable anti-reflective effect from strength tensionless winkler foundation adhesive tape.

, when using transparent gemel connection, bonding simultaneously bundlees aobvious for the transparent adhesive tape of the present invention or ultra-thin strength tensionless winkler foundation adhesive tape 123 Show that module 11 and Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12, bonding simultaneously bundlees display module 21 and six sides Body or obform body hexagon Internal Spherical Surface are led and as the transparent adhesive tape of screen 22 or the thickness range of ultra-thin strength tensionless winkler foundation adhesive tape 123 are 0.05～0.5mm.

The transparent adhesive tape of the present invention or ultra-thin strength tensionless winkler foundation adhesive tape 123 when being connected using ultra-thin strength tensionless winkler foundation adhesive tape, Bonding simultaneously bundlees display screen 11 and Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12, and bonding simultaneously bundlees display screen 21 and hexagon body or obform body hexagon Internal Spherical Surface lead as screen 22 transparent adhesive tape or the thickness of ultra-thin strength tensionless winkler foundation adhesive tape 123 Scope is 0.05～0.2mm.

It is pentagonal interior that the Pentagon of the present invention or obform body pentagon Internal Spherical Surface are led as the front end display surface of screen 12 Sphere, it is aobvious with display module 11 that rear end contact surface is the shape that can fit tightly with display module 11 display surface and its size Show that face size is identical.Pentagon or obform body pentagon Internal Spherical Surface lead as the outer shape of screen 12 be polygonal after big Front little trapezoidal shape, as shown in Figure 4.

It is hexagonal interior that the hexagon body of the present invention or obform body hexagon Internal Spherical Surface are led as the front end display surface of screen 22 Sphere, it is aobvious with display module 21 that rear end contact surface is the shape that can fit tightly with display module 21 display surface and its size Show that face size is identical.Hexagon body or obform body hexagon Internal Spherical Surface lead as the outer shape of screen 22 be polygonal after big Front little trapezoidal shape, as shown in Figure 5.

In view of the display module of routine is usually tetragon, Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 rear end contact surface is the shape of display module 11, front end shows the shaped body that Internal Spherical Surface is pentagon shaped, as Fig. 6 institute Show；Hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead as the rear end contact surface of screen 22 be the shape of display module 21, front End display Internal Spherical Surface is the special-shaped shape of hexagonal shape, as shown in Figure 7.

The seamless interior Surface of Sphere of a kind of any arc angle of the present invention shows the Internal Spherical Surface of large-size screen monitors by pentagon Internal Spherical Surface Lead and lead and intersect cooperation splicing composition as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface, also if football is by 12 five The principle that side shape, 20 hexagons are constituted is the same, and difference is the pentagon of the arc angle of sphere forming and composition ball, six sides The quantity of shape is different.The pentagon Internal Spherical Surface of the present invention is led and is led as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface The Internal Spherical Surface splicing and combining formation, its pentagon Internal Spherical Surface used leads and leads as screen as screen concatenation unit 1, hexagon Internal Spherical Surface The quantity of concatenation unit 2 is that the Internal Spherical Surface according to a kind of any arc angle shows that the arc angle size of large-size screen monitors and pentagon Internal Spherical Surface lead picture Arc that screen concatenation unit 1, hexagon Internal Spherical Surface are led as shared by screen concatenation unit 2 divides to determine, such as：Pentagon Internal Spherical Surface is led As the arc that screen concatenation unit 1, hexagon Internal Spherical Surface are led as shared by screen concatenation unit 2 divides less, the Internal Spherical Surface of the certain arc angle of composition The quantity that the pentagon Internal Spherical Surface of display large-size screen monitors is led as shielding concatenation unit 1, hexagon Internal Spherical Surface is led as shielding concatenation unit 2 is just many, Equally, lead as shielding concatenation unit 1 for the pentagon Internal Spherical Surface that certain arc divides, hexagon Internal Spherical Surface leads picture screen concatenation unit 2, one The Internal Spherical Surface planting any arc angle shows that the arc angle of large-size screen monitors is bigger, and a kind of Internal Spherical Surface of composition shows that the pentagon Internal Spherical Surface of large-size screen monitors leads picture Screen concatenation unit 1, hexagon Internal Spherical Surface are led also can be many as the quantity of screen concatenation unit 2, and vice versa.

The Pentagon of the present invention or obform body pentagon Internal Spherical Surface are led as in screen 12, hexagon body or obform body hexagon Sphere is led and can also be made up of other polygonal shapes, as long as polyhedral face, rib, top as the front end display Internal Spherical Surface of screen 22 The relation of point, the length of side and spherical radius meets Euler's formula.

The Pentagon of the present invention or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or obform body six It is to be made up of the optical fiber perpendicular to both ends of the surface that side shape Internal Spherical Surface optical fiber is led as screen 22, and manufacture method can refer to patent ZL 2007 1 0176403.1《Leaded light image amplification screen》The method molding proposing.Adopt one thin one thick change mirror optical fiber, optical fiber Length 30～200mm, sensitive surface piled up using dense accumulation mode and by light area source irradiate physical dimension banding, be stained with Connect, to sensitive surface cutting, polishing, polishing, paste after the photic zone of front end, form sensitive surface.Bonding front end photic zone and rear end are saturating Form guide-lighting screen after photosphere.Difference is that the Pentagon of the present invention or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead and need the moulds of special shape as screen 22, optical fiber needs specific Mould within molding, and the size of in-mold molding is greater than Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead as the standard size at least 2mm of screen 22 needs；Carry out two afterwards The standard size that secondary Precision Machining extremely needs, after the shape making them complies fully with the shape of its place Internal Spherical Surface position； Finally it is surface-treated, form qualified Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12 and hexagon again Body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22, the method that the method for surface treatment adopts spraying plating, method can refer to The patent of invention that the present invention declares the same period《A kind of optical fiber of polygon optical fiber composition is led as screen》The surface treatment method of middle proposition Implement, that is, surface-treated layer is that refractive index is less than among 1.5 high transparency liquid after the solidification having affinity with fiber-optic core material Add weight and be less than high transparency liquid weight 1% less than the nanometer light diffusing agent granule of high transparency liquid weight 2% and weight Black developing agent, wherein black developing agent can be solubility black essences, soluble metal complex is black, nano-graphite is black, RGB three primary colours are joined Black becoming etc..

It is that pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon that the Internal Spherical Surface of the present invention is led as screen concatenation unit backrest 3 Internal Spherical Surface is led as screen concatenation unit 2 back rack, is made up of backboard 31, spring shim 32, screw 33, four angles of backboard 31 are left Screw hole, on screw 33 cushioning spring shim 32 on screw hole.By 3 or 4 screws 33 and spring shim 32 by backboard 31 lead as shielding concatenation unit 1 with pentagon Internal Spherical Surface, hexagon Internal Spherical Surface is led and tightened together as screen concatenation unit 2, as Fig. 8 institute Show.Internal Spherical Surface is led has 0.1 as the screw hole through screw 33 on the backboard 31 of screen concatenation unit backrest 3 relative to screw diameter The plus tolerance of～0.5mm, leads in order to pentagon Internal Spherical Surface and leads as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface Micro adjustment up and down.Internal Spherical Surface is led has four M1～M8 spiral shells as the four corners position of the backboard 31 of screen concatenation unit backrest 3 Silk hole, specific size is led depending on the pentagon Internal Spherical Surface selected and is led as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface Size or weight size depending on, as shown in Figure 9.

Internal Spherical Surface concatenation unit suspension support frame 4 is that pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon Internal Spherical Surface Lead as the suspension support frame of screen concatenation unit 2, be made up of grid type spheroidal skeleton 41, spring shim 42, bolt 43, grid Fixing threaded hole is left on formula spheroidal skeleton 41, on bolt 43 cushioning spring shim 42 on screw.Wherein grid type spheroidal Size of mesh opening outside skeleton 41 is in interior Surface of Sphere shows greatly with the seamless interior Surface of Sphere forming a kind of any arc angle The pentagon Internal Spherical Surface of screen is led as shielding concatenation unit 1, hexagon Internal Spherical Surface is led as the size of screen concatenation unit 2 is to correspond , grid edge bolt hole and pentagon Internal Spherical Surface lead as screen concatenation unit 1, hexagon Internal Spherical Surface lead as screen concatenation unit 2 it On Internal Spherical Surface lead as screen concatenation unit backrest 3 on screw hole be also one-to-one, pentagon Internal Spherical Surface lead as screen spell Order unit 1, hexagon Internal Spherical Surface lead and pass through spring shim 42, bolt 43 by grid type spheroidal skeleton 41 as screen concatenation unit 2 Lead with pentagon Internal Spherical Surface and lead and be closely joined together as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface, such as scheme Shown in 10.Wherein the bolt hole on grid type spheroidal skeleton 41 compares the plus tolerance that bolt 43 has 0.1～0.5mm, with It is conveniently adjusted the installation that pentagon Internal Spherical Surface is led as shielding concatenation unit 1, hexagon Internal Spherical Surface is led between picture screen concatenation unit 2 to stitch Gap.The diameter range of bolt 43 is M1～M8, and specific size is led as screen concatenation unit 1, six sides depending on the pentagon Internal Spherical Surface selected Depending on shape Internal Spherical Surface leads size or weight size as shielding concatenation unit 2.

It is an advantage of the current invention that interior Surface of Sphere shows the effective field of view expanding people, bigger visual angle can be met or regard Wild requirement, especially in retina resolution " holographic " movie theatre, the drive simulating field of aircraft, simulation games field, has non- Often important realistic meaning.

Brief description

Fig. 1 is the structural representation of the present invention, and wherein pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon Internal Spherical Surface Lead and lead as screen concatenation unit backrest 3, Internal Spherical Surface concatenation unit suspension support frame 4 as screen concatenation unit 2, Internal Spherical Surface.

Fig. 2 leads as the schematic diagram of screen concatenation unit 1 for pentagon Internal Spherical Surface.Wherein, display module 11, Pentagon or different Body pentagon Internal Spherical Surface optical fiber is led as screen 12, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123.

Fig. 3 leads as the schematic diagram of screen concatenation unit 2 for hexagon Internal Spherical Surface.Wherein, display module 21, hexagon body or different Body hexagon Internal Spherical Surface optical fiber is led as screen 22, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123.

Fig. 4 is Pentagon or obform body pentagon Internal Spherical Surface is led as the outer shape figure of screen 12.After polygonal big before Little trapezoidal shape.

Fig. 5 is hexagon body or obform body hexagon Internal Spherical Surface is led as the outer shape figure of screen 22.After polygonal big before Little trapezoidal shape.

When Fig. 6 is tetragon for display module 11, Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 Rear end contact surface is the shape of display module 11, front end shows the shaped body figure that Internal Spherical Surface is pentagon shaped.

When Fig. 7 is tetragon for display module 21, hexagon body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22 Rear end contact surface is the shape of display module 21, front end shows the shaped body shape graph that Internal Spherical Surface is hexagonal shape.

Fig. 8 is members assembling schematic diagram.Wherein, pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon Internal Spherical Surface Lead and lead as screen concatenation unit backrest 3, backboard 31, spring shim 32, screw 33 as screen concatenation unit 2, Internal Spherical Surface.

Fig. 9 leads for Internal Spherical Surface has four M1～M8 screw holes as the four corners position of the backboard 31 of screen concatenation unit backrest 3 Schematic diagram.

Figure 10 is members assembling schematic diagram.Wherein, pentagon Internal Spherical Surface is led as ball in screen concatenation unit 1, hexagon Face lead as screen concatenation unit 2, Internal Spherical Surface concatenation unit suspension support frame 4, grid type spheroidal skeleton 41, spring shim 42, Bolt 43.

Specific embodiment

Fig. 1～Figure 10 is a kind of specific embodiment of the present invention.

The present invention is led by pentagon Internal Spherical Surface and leads as screen concatenation unit 2, interior ball as screen concatenation unit 1, hexagon Internal Spherical Surface Face is led and is formed, as shown in Figure 1 as screen concatenation unit backrest 3, Internal Spherical Surface concatenation unit suspension support frame 4.

The pentagon Internal Spherical Surface of the present invention is led as screen concatenation unit 1 is by display module 11, Pentagon or obform body five side Shape Internal Spherical Surface optical fiber is led and is formed as screen 12, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123.As shown in Figure 2.The present invention is not examining In the case of considering Internal Spherical Surface round and smooth degree, it is exactly display module 11 that pentagon Internal Spherical Surface is led as screen concatenation unit 1, Pentagon or different Body pentagon Internal Spherical Surface optical fiber is led and can be omitted as screen 12 and transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123.

The hexagon Internal Spherical Surface of the present invention is led as screen concatenation unit 2 is by display module 21, hexagon body or obform body six side Shape Internal Spherical Surface optical fiber is led and is formed, as shown in Figure 3 as screen 22, transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123；The present invention is not examining On the premise of considering Internal Spherical Surface round and smooth degree, it is exactly display module 21 that hexagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon body or different Body hexagon Internal Spherical Surface optical fiber is led and can be omitted as screen 22 and transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape 123.

The display module 11 of the present invention, display module 21 can be LED display module, LCD display module, OLED display mould Group, QLED display module, PLED display module etc., its surface configuration can be plane or curved surface, its corner shape Shape can be tetragon or pentagon, hexagon or other polygonal.When display module 11 selects pentagon to show When showing module, it is Pentagon Internal Spherical Surface that Pentagon in combination or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 Optical fiber is led as screen；When display module 21 selects hexagon display, in hexagon body in combination or obform body hexagon It is that in hexagon body, sphere optical fiber is led as screen that sphere optical fiber is led as screen 22.When display module all select same model, specification four During the shape display module of side, it is incidence surface or to enter image planes be four sides that Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 Shape, display surface be one be tetragon, one be pentagonal obform body Internal Spherical Surface optical fiber lead as shield；Hexagon body or obform body Hexagon Internal Spherical Surface optical fiber lead as screen 22 be incidence surface or enter image planes be tetragon, display surface be one be tetragon, one be Hexagonal obform body Internal Spherical Surface optical fiber is led as screen.

The display module 11 of the present invention, display module 21 size less, and its cooperation composition pentagon Internal Spherical Surface lead picture Screen concatenation unit 1, hexagon Internal Spherical Surface are led and are led as in screen 12 or hexagon as the obform body pentagon Internal Spherical Surface of screen concatenation unit 2 Sphere lead as the thickness of screen 22 just can make thinner, the pentagon Internal Spherical Surface that thus forms is led as shielding concatenation unit 1, six sides Shape Internal Spherical Surface is led also can be lighter as the weight of screen concatenation unit 2, installs and also can be easier, is that tetragon is another especially for one One is that pentagon, hexagonal Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or abnormity For body hexagon Internal Spherical Surface optical fiber is led as screen 22, it also can be got over due to the gap of the pixel interval caused by pixel shift Little.The Diagonal Dimension scope of the display module 11 of the present invention and display module 21 is 3～30 inches, is shaped as regular polygon, Including：Square, regular pentagon, regular hexagon, other regular polygons.

The transparent adhesive tape of the present invention or the ultra-thin tensionless winkler foundation adhesive tape 123 of strength are model identical same material transparent adhesive tape or strength nothing Stretch tape, is to consider to reduce installation accuracy using transparent adhesive tape, is mainly from later maintenance using strength tensionless winkler foundation adhesive tape From the point of view of convenient, such as：When display screen selects LED display, change lamp after the damage that should be taken into account LED conveniently, To be advisable using ultra-thin strength tensionless winkler foundation adhesive tape, and when using LCD, OLED, QLED, PLED module, compared from transparent adhesive tape Have more preferable anti-reflective effect from strength tensionless winkler foundation adhesive tape.

, when using transparent gemel connection, bonding simultaneously bundlees aobvious for the transparent adhesive tape of the present invention or ultra-thin strength tensionless winkler foundation adhesive tape 123 Show that module 11 and Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12, bonding simultaneously bundlees display module 21 and six sides Body or obform body hexagon Internal Spherical Surface are led and as the transparent adhesive tape of screen 22 or the thickness range of ultra-thin strength tensionless winkler foundation adhesive tape 123 are 0.05～0.5mm.

The transparent adhesive tape of the present invention or ultra-thin strength tensionless winkler foundation adhesive tape 123 when being connected using ultra-thin strength tensionless winkler foundation adhesive tape, Bonding simultaneously bundlees display screen 11 and Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12, and bonding simultaneously bundlees display screen 21 and hexagon body or obform body hexagon Internal Spherical Surface lead as screen 22 transparent adhesive tape or the thickness of ultra-thin strength tensionless winkler foundation adhesive tape 123 Scope is 0.05～0.2mm.

It is pentagonal interior that the Pentagon of the present invention or obform body pentagon Internal Spherical Surface are led as the front end display surface of screen 12 Sphere, it is aobvious with display module 11 that rear end contact surface is the shape that can fit tightly with display module 11 display surface and its size Show that face size is identical.Pentagon or obform body pentagon Internal Spherical Surface lead as the outer shape of screen 12 be polygonal after big Front little trapezoidal shape, as shown in Figure 4.

It is hexagonal interior that the hexagon body of the present invention or obform body hexagon Internal Spherical Surface are led as the front end display surface of screen 22 Sphere, it is aobvious with display module 21 that rear end contact surface is the shape that can fit tightly with display module 21 display surface and its size Show that face size is identical.Hexagon body or obform body hexagon Internal Spherical Surface lead as the outer shape of screen 22 be polygonal after big Front little trapezoidal shape, as shown in Figure 5.

In view of the display module of routine is usually tetragon, Pentagon or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 rear end contact surface is the shape of display module 11, front end shows the shaped body that Internal Spherical Surface is pentagon shaped, as Fig. 6 institute Show；Hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead as the rear end contact surface of screen 22 be the shape of display module 21, front End display Internal Spherical Surface is the special-shaped shape of hexagonal shape, as shown in Figure 7.

The seamless interior Surface of Sphere of a kind of any arc angle of the present invention shows the Internal Spherical Surface of large-size screen monitors by pentagon Internal Spherical Surface Lead and lead and intersect cooperation splicing composition as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface, also if football is by 12 five The principle that side shape, 20 hexagons are constituted is the same, and difference is the pentagon of the arc angle of sphere forming and composition ball, six sides The quantity of shape is different.The pentagon Internal Spherical Surface of the present invention is led and is led as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface The Internal Spherical Surface splicing and combining formation, its pentagon Internal Spherical Surface used leads and leads as screen as screen concatenation unit 1, hexagon Internal Spherical Surface The quantity of concatenation unit 2 is that the Internal Spherical Surface according to a kind of any arc angle shows that the arc angle size of large-size screen monitors and pentagon Internal Spherical Surface lead picture Arc that screen concatenation unit 1, hexagon Internal Spherical Surface are led as shared by screen concatenation unit 2 divides to determine, such as：Pentagon Internal Spherical Surface is led As the arc that screen concatenation unit 1, hexagon Internal Spherical Surface are led as shared by screen concatenation unit 2 divides less, the Internal Spherical Surface of the certain arc angle of composition The quantity that the pentagon Internal Spherical Surface of display large-size screen monitors is led as shielding concatenation unit 1, hexagon Internal Spherical Surface is led as shielding concatenation unit 2 is just many, Equally, lead as shielding concatenation unit 1 for the pentagon Internal Spherical Surface that certain arc divides, hexagon Internal Spherical Surface leads picture screen concatenation unit 2, one The Internal Spherical Surface planting any arc angle shows that the arc angle of large-size screen monitors is bigger, and a kind of Internal Spherical Surface of composition shows that the pentagon Internal Spherical Surface of large-size screen monitors leads picture Screen concatenation unit 1, hexagon Internal Spherical Surface are led also can be many as the quantity of screen concatenation unit 2, and vice versa.

The Pentagon of the present invention or obform body pentagon Internal Spherical Surface are led as in screen 12, hexagon body or obform body hexagon Sphere is led and can also be made up of other polygonal shapes, as long as polyhedral face, rib, top as the front end display Internal Spherical Surface of screen 22 The relation of point, the length of side and spherical radius meets Euler's formula.

The Pentagon of the present invention or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or obform body six It is to be made up of the optical fiber perpendicular to both ends of the surface that side shape Internal Spherical Surface optical fiber is led as screen 22, and manufacture method can refer to patent ZL 2007 1 0176403.1《Leaded light image amplification screen》The method molding proposing.Adopt one thin one thick change mirror optical fiber, optical fiber Length 30～200mm, sensitive surface piled up using dense accumulation mode and by light area source irradiate physical dimension banding, be stained with Connect, to sensitive surface cutting, polishing, polishing, paste after the photic zone of front end, form sensitive surface.Bonding front end photic zone and rear end are saturating Form guide-lighting screen after photosphere.Difference is that the Pentagon of the present invention or obform body pentagon Internal Spherical Surface optical fiber are led as screen 12 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead and need the moulds of special shape as screen 22, optical fiber needs specific Mould within molding, and the size of in-mold molding is greater than Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber lead as the standard size at least 2mm of screen 22 needs；Carry out two afterwards The standard size that secondary Precision Machining extremely needs, after the shape making them complies fully with the shape of its place Internal Spherical Surface position； Finally it is surface-treated, form qualified Pentagon or obform body pentagon Internal Spherical Surface optical fiber is led as screen 12 and hexagon again Body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22, the method that the method for surface treatment adopts spraying plating, method can refer to The patent of invention that the present invention declares the same period《A kind of optical fiber of polygon optical fiber composition is led as screen》The surface treatment method of middle proposition Implement, that is, surface-treated layer is that refractive index is less than among 1.5 high transparency liquid after the solidification having affinity with fiber-optic core material Add weight and be less than high transparency liquid weight 1% less than the nanometer light diffusing agent granule of high transparency liquid weight 2% and weight Black developing agent, wherein black developing agent can be solubility black essences, soluble metal complex is black, nano-graphite is black, RGB three primary colours are joined Black becoming etc..

It is that pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon that the Internal Spherical Surface of the present invention is led as screen concatenation unit backrest 3 Internal Spherical Surface is led as screen concatenation unit 2 back rack, is made up of backboard 31, spring shim 32, screw 33.Internal Spherical Surface is led as screen splicing list Unit 2 is led backboard 31 and pentagon Internal Spherical Surface as screen concatenation unit 1, hexagon by 3 or 4 screws 33 and spring shim 32 Internal Spherical Surface is led and is tightened together, as shown in Figure 8 as screen concatenation unit 2.Internal Spherical Surface is led as on the backboard 31 of screen concatenation unit backrest 3 The screw hole through screw 33 there is the plus tolerance of 0.1～0.5mm relative to screw diameter, lead picture in order to pentagon Internal Spherical Surface Screen concatenation unit 1, hexagon Internal Spherical Surface are led as screen concatenation unit 2 micro adjustment up and down.Internal Spherical Surface is led as screen splicing list The four corners position of the backboard 31 of first backrest 3 has four M1～M8 screw holes, and specific size leads picture depending on the pentagon Internal Spherical Surface selected Depending on screen concatenation unit 1, hexagon Internal Spherical Surface lead size or weight size as shielding concatenation unit 2, as shown in Figure 9.

Internal Spherical Surface concatenation unit suspension support frame 4 is that pentagon Internal Spherical Surface is led as screen concatenation unit 1, hexagon Internal Spherical Surface Lead as the suspension support frame of screen concatenation unit 2, be made up of grid type spheroidal skeleton 41, spring shim 42, bolt 43, wherein Grid type spheroidal skeleton 41 be in interior Surface of Sphere outside size of mesh opening and form a kind of the seamless interior of any arc angle Surface of Sphere shows that the pentagon Internal Spherical Surface of large-size screen monitors is led leads as the size of screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface It is one-to-one, grid edge bolt hole and pentagon Internal Spherical Surface are led and led and spell as screen as screen concatenation unit 1, hexagon Internal Spherical Surface The screw hole that Internal Spherical Surface on order unit 2 leads on as screen concatenation unit backrest 3 is also one-to-one, pentagon Internal Spherical Surface Lead to lead as screen concatenation unit 1, hexagon Internal Spherical Surface and pass through spring shim 42, bolt 43 by grid type ball as screen concatenation unit 2 Shape skeleton 41 and pentagon Internal Spherical Surface are led and are led and be close-coupled at one as screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface Rise, as shown in Figure 10.The wherein bolt hole on grid type spheroidal skeleton 41 is compared bolt 43 and is just had 0.1～0.5mm Tolerance, in order to adjust, pentagon Internal Spherical Surface is led as shielding concatenation unit 1, hexagon Internal Spherical Surface is led as shielding between concatenation unit 2 Gap is installed.The diameter range of bolt 43 is M1～M8, and specific size is led as screen concatenation unit depending on the pentagon Internal Spherical Surface selected 1st, depending on hexagon Internal Spherical Surface leads size or the weight size as shielding concatenation unit 2.

The implementation process of the present invention is to lead display module 11, Pentagon or obform body pentagon Internal Spherical Surface optical fiber first As screen 12 and display module 21 and hexagon body or obform body hexagon Internal Spherical Surface optical fiber are led as screen 22, by transparent adhesive tape or super Thin strength tensionless winkler foundation adhesive tape 123 composition pentagon Internal Spherical Surface is led and is led as screen concatenation unit as screen concatenation unit 1, hexagon Internal Spherical Surface 2；Next to that lead in pentagon Internal Spherical Surface leading as in the back side installation of screen concatenation unit 2 as screen concatenation unit 1, hexagon Internal Spherical Surface Sphere is led as screen concatenation unit backrest 3；It is that Internal Spherical Surface concatenation unit suspension support frame 4 is installed again, and according in pentagon Sphere is led and is led to lead as the position suspension pentagon Internal Spherical Surface of screen concatenation unit 2 and spell as screen as screen concatenation unit 1, hexagon Internal Spherical Surface Order unit 1, hexagon Internal Spherical Surface lead as screen concatenation unit 2；It is finally that fine setting Internal Spherical Surface is led as upper in screen concatenation unit backrest 3 Bolt 43 in lower regulating bolt 33 and Internal Spherical Surface concatenation unit suspension support frame 4, makes pentagon Internal Spherical Surface lead as screen splicing Unit 1, hexagon Internal Spherical Surface are led as shielding the splicing gap between concatenation unit 2, front-back staggered is less than 0.1mm.

Claims (5)

1. a kind of seamless interior Surface of Sphere display large-size screen monitors of any arc angle lead picture it is characterised in that including pentagon Internal Spherical Surface Screen concatenation unit (1), hexagon Internal Spherical Surface are led and are led as screen concatenation unit backrest (3), interior ball as screen concatenation unit (2), Internal Spherical Surface Face concatenation unit suspension support frame (4)；Internal Spherical Surface is led and is led as screen as screen concatenation unit backrest (3) is fixed on pentagon Internal Spherical Surface Concatenation unit (1) and hexagon Internal Spherical Surface are led as the back side of screen concatenation unit (2), by Internal Spherical Surface concatenation unit suspension strut frame Frame (4) carries out splicing to be fixed.

2. the seamless interior Surface of Sphere display large-size screen monitors of any arc angle according to claim 1 are it is characterised in that described Pentagon Internal Spherical Surface is led as screen concatenation unit (1) is by display module (11), Pentagon or obform body pentagon Internal Spherical Surface optical fiber Lead as screen (12), transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape (123) composition；Pentagon or obform body pentagon Internal Spherical Surface light Fibre is led and is close to the display surface of display module (11) as screen (12), solid by transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape (123) It is scheduled on together.

3. the seamless interior Surface of Sphere display large-size screen monitors of any arc angle according to claim 1 are it is characterised in that described Hexagon Internal Spherical Surface is led as screen concatenation unit (2) is by display module (21), hexagon body or obform body hexagon Internal Spherical Surface optical fiber Lead as screen (22), transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape (123) composition；Hexagon body or obform body hexagon Internal Spherical Surface light Fibre is led and is close to the display surface of display module (21) as screen (22), solid by transparent adhesive tape or ultra-thin strength tensionless winkler foundation adhesive tape (123) It is scheduled on together.

4. the seamless interior Surface of Sphere display large-size screen monitors of any arc angle according to claim 1 are it is characterised in that described It is that pentagon Internal Spherical Surface is led as shielding concatenation unit (1), hexagon Internal Spherical Surface is led as screen that Internal Spherical Surface is led as screen concatenation unit backrest (3) Backrest after concatenation unit (2), is made up of backboard (31), spring shim (32), screw (33)；Four angles of backboard (31) are left Screw hole, on screw (33) cushioning spring shim (32) on screw hole.

5. the seamless interior Surface of Sphere display large-size screen monitors of any arc angle according to claim 1 are it is characterised in that described Internal Spherical Surface concatenation unit suspension support frame (4) is that pentagon Internal Spherical Surface is led as shielding concatenation unit (1), hexagon Internal Spherical Surface leads picture The suspension support frame of screen concatenation unit (2), is made up of grid type spheroidal skeleton (41), spring shim (42), bolt (43)； Fixing threaded hole is left on grid type spheroidal skeleton (41), on bolt (43) cushioning spring shim (42) on screw.