CN103763906B - Circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus - Google Patents

Abstract

Circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus and belongs to electromangnetic spectrum field, three kinds of different-diameter metal rings respectively as basic annulus, connect annulus, fill annulus and by the limit arrangement altogether of triangular arranged, regular hexagon, regular hexagon altogether the arrangement of zenithal alignment contiguity form two-dimensional mesh grid and load on optical window transparent substrate surface; The metal ring homogeneous phase of same diameter is communicated with from, the connection annulus all having 6 to be spacedly distributed outside each basic annulus and 6 filling annulus be spacedly distributed are circumscribed with it; Basic annulus inside is containing the sub-annulus be communicated with its inscribe.In the junction of the tangent connection of each annulus, overlapping or the metal ensureing reliably to electrically connect between metal ring tangent point is set by lines, guarantee that all annulus conduct electricity mutually.Metallic mesh structure of the present invention can reduce the inhomogeneities of net grid senior diffraction intensity distribution significantly, and the stray light that diffraction is caused distribution is more even, less to Imaging.

Description

Circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus

Technical field

The invention belongs to optical clear part electromagnetic shielding field, particularly a kind of circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus.

Background technology

Along with the broadening of electromagnetic wave application frequency spectrum and the increase of intensity, more and more higher to the requirement of the electromagnetic shielding optical window of the field such as space flight and aviation equipment, advanced optical instrument, communication apparatus, medical diagnostic equipment and secured facilities application, while mainly requiring that optical window has superpower broadband electromagnetic shielding capability, also there is high light transmittance, the smaller the better on the impact of optical imagery, observation, detection.Such as, the optical window of aircraft in space flight and aviation equipment field, must high-quality realize inside and outside cabin electromagnetic signal isolation, shielding external electromagnetic interference and harmful electromagnetic signal on the one hand, in order to avoid cause cabin inner electronic equipment to lose efficacy, when preventing cabin inner electronic equipment from working on the one hand, electromagnetic signal appears optical window and causes electromagnetic leakage, but the light transmission of optical window is the function of its indispensability, the impact that electromagnetic shielding should reduce its transparency is as much as possible carried out on optical window, does not particularly affect optical detection or optical imagery function as much as possible; Similar, the optical window of advanced optical instrument also will have light transmittance high as far as possible and the impact of alap image quality, to realize detection and the measurement of high-quality, electromagnetic interference will be prevented the impact of instrument internal photoelectric detector simultaneously; For the secret Architectural Equipment of Party and government offices, military commanding place, important R&D institution, need the glass pane in its house while guarantee daylighting, carry out design of Electromagnetic Shielding, during to prevent the electronic device works such as indoor electric brain, important information is divulged a secret to propagating to cause outside window with electromagnetic radiation form; Medical electric Magnetic isolation room optical window will ensure indoor electromagnetic wave overwhelming majority conductively-closed and prevent field operation personnel from being impaired one's health by electromagenetic wave radiation for a long time, etc.The electromagnetic shielding of current this kind of optical window mainly adopts transparent conductive film, metal inducement transmission-type multi-layer film structure, band resistance type frequency-selective surfaces and has millimeter metallic mesh etc. in submillimeter cycle.

The transparent metal oxide film of transparent conductive film to be a kind of with tin indium oxide be main material, is often applied to the occasion that visible light wave range is transparent, but can not takes into account wider transmission region, though it is not strong to have wider micro-wave screening wave band screening ability.Metal inducement transmission-type multi-layer film structure adopts multi-layer thin metal film and deielectric-coating composite construction to realize shielding electromagnetic waves, and comparatively strong to low frequency microwave screening ability, transmission region is mainly visible ray and ultraviolet light, but light transmittance is not high.Frequency-selective surfaces adopts periodically resonant element structure to realize being with logical or band stop filter function, because its metal coverage rate is higher, can interference electromagnetic wave well beyond reflective operation frequency band, but optics light transmittance is lower, reduce the image quality of optical detection, bring difficulty to optical image security, pattern recognition, target search and tracking.In sum, meet broadband high transmission rate and two requirements of wide-band electromagnetic shielding of optical window, all there is obvious deficiency in above-mentioned each technical scheme simultaneously.Comparatively speaking, there is millimeter metallic mesh in submillimeter cycle, because its period ratio interference electromagnetic wavelength is much smaller, stronger low width wave band electromagnetic shielding can be realized; And the metallic mesh cycle is much larger than optical wavelength, the light transmittance of optical region can be ensured.Therefore, the metallic mesh in millimeter submillimeter cycle has good electrically conducting transparent performance, can meet the requirement of optical window to high transmission rate and wide-band electromagnetic shielding, be widely used in optical window electromangnetic spectrum field.

1. patent 03135313.5 " a kind of electromagnetic shielding observation window " substance or multi-metal silk screen and based semiconductor quantum well structure is combined into electromagnetic armouring structure, can realize the shield effectiveness more than 50dB within 10GHz, this structure reaches more than 50% at the light transmittance of visible ray height regional transmission.

2. patent 93242068.0 " electromagnetic shielding glass " presss from both sides conductive metal mesh between layer glass, and make it to be bonded in form electromagnetic armouring structure on window frame of metal at glass outer side conductive transparent film, this structure has certain daylighting.

3. patent 94231862.5 " without Moire fringe electromagnetic shielding observation window " adopts by the parallel placement of the wire netting that two number of layers are different, and their warps or parallel have certain angle, overcome Moire fringe phenomenon to reach, and realizes the visual field more clearly.

4. patent 02157954.7 " high shielding effect Tempest glass " respectively has one deck polycarbonate film in woven wire both sides, each attaching one deck glass outside film, last hot pressing forms electromagnetic armouring structure, and this structure, when light transmittance reaches 60%, has stronger shield effectiveness.

5. patent 200610084149.8 " electromagnetic shielded film and manufacture method thereof " describes a kind of high transparency electromagnetic wave shield film with metal mesh pattern formed by photoetching process, and the main purpose of this invention is to reduce metal consumption and overcome the environmental pollution using solidification glue to cause between metal level and film substrate.

6. US Patent No. 4871220 " Short wavelength pass filter having a metal mesh on a semiconducting substrate " describes a kind of metallic mesh with square structure, for realizing the electromagnetism interference performance of optical window.

7. patent 201010239355.8 " a kind of electromagnetic shielding conformal optical window with longitude and latitude shape net grid structure " describes a kind of conformal electromagnetic shielding optical window with longitude and latitude shape metallic mesh structure realized by metallic mesh technology and conformal optics window setting technique, mainly solve the Structure Designing Problem of conformal optics window metallic mesh, improve the capability of electromagnetic shielding of conformal optics window.

8. patent 200610010066.4 " having the electromagnetic shielding optical window of annulus metallic mesh structure " describes a kind of metallic mesh unit with annulus profile, for realizing the electro-magnetic screen function of optical window; Compare individual layer grid metallic mesh, light transmittance and screening ability are improved, and the stray light that senior diffraction causes have also been obtained certain homogenizing.

9. patent 200810063988.0 " a kind of electromagnetic shielding optical window with double-layer pane metallic mesh structure " describes a kind of grid metallic mesh identical by structural parameters or woven wire and is placed in parallel in the electromagnetic shielding optical window that optical window or transparent substrates both sides form, while not reducing light transmittance, increase substantially electromagnetic shielding efficiency.

10. patent 200810063987.6 " a kind of electromagnetic shielding optical window with double-layer circular ring metallic mesh structure " describes and a kind ofly loads on by two-layer annulus metallic mesh the electromagnetic shielding optical window that optical window both sides form, and solves the problem that high transmission rate and strong electromagnetic shield effectiveness can not be taken into account simultaneously.

Hub-the spoke type arrangement based on annulus unit of people's exploitation such as 11. Battelle research institute of U.S. Jennifer I.Halman and perceptual metallic mesh (the Jennifer I.Halman etc. of many annulus overlapping configuration, " Predicted and measured transmission and diffraction by a metallic mesh coating " .Proc.SPIE, 2009,7302:73020Y-1 ~ 73020Y-8), and think, make net grid senior Diffraction fringe distribution homogenizing, realize low sidelobe, favourable to imaging.

12. the Ian B.Murray of Exotic Electro-Optics company of the U.S., the people such as the Victor Densmore of Arizona, USA university and Vaibhav Bora jointly report and introduce impact (Ian B.Murray on diffraction characteristic after stochastic parameter distribution design to the perceptual net grid of hub-spoke type arrangement and many annulus overlapping configuration, Victor Densmore, the people such as Vaibhav Bora, " Numerical comparision of grid pattern diffraction effects through measurement and modeling with OptiScan software ", Proc.SPIE, 2011, 8016:80160U ~ 1-80160U-15), point out each ring interval and diameter random value within the specific limits, be conducive to the uniformity improving senior Diffraction fringe distribution.

Above-mentioned each scheme, owing to adopting metallic mesh (or woven wire) as the core devices of shielding, can realize good effectiveness and certain light transmittance.But adopt metallic mesh (or woven wire) as electromagnetic armouring structure, be just inevitably subject to the impact of net grid at optical region diffraction.Due to cycle of metallic mesh at millimeter to submillimeter magnitude, be realize higher light transmittance, its metal wire width generally at micron to sub-micrometer scale, such structural parameters have very strong diffraction effect at optical region.Incident light overwhelming majority energy is by metallic mesh transmission, transmissive portion comprises zero order diffracted light and senior diffraction light, and usually, zero level time diffraction light is the useful information for imaging and observation, senior time diffraction light then forms stray light, produces interference to imaging and detection.Therefore, should improve the proportion of zero level time shared by diffraction light as much as possible, meanwhile, under the prerequisite that senior diffraction light unavoidably occurs, make senior diffraction light distribution relatively more even as far as possible, its stray light formed becomes more uniform background or noise.

At present, metallic mesh is mainly traditional grid grid structure, (structure of patent 7 is because processing is on curved surface for the structure mainly adopted as above-mentioned patent 1-6, a kind grid structure), there is intrinsic contradiction in grid grid structure transmittancy and screening ability, be difficult to take into account high transmission rate and strong electromagnetic shield effectiveness simultaneously, particularly senior diffraction energy of grid grid mainly concentrates on mutually perpendicular diaxon, have a certain impact to image quality, the occasion even required at high imaging quality is difficult to application.Change net grid diffraction characteristic generally to need to change its architectural feature, above-mentioned patent 200610010066.4 " having the electromagnetic shielding optical window of annulus metallic mesh structure " proposition metal ring is built into annulus metallic mesh, improve the shortcoming of grid metallic mesh senior diffraction energy integrated distribution, and the contradiction of its transmittancy and screening ability can be alleviated.In above-mentioned document 11 and 12, the people such as the people such as Jennifer I.Halman and Ian B.Murray, also the metallic mesh structure be proposed based on annulus unit improves the uniformity of senior Diffraction fringe distribution, but the research of the people such as Jennifer I.Halman is also monocycle annulus arrangement architecture, and orientation is determined, its structure proposed the effect and patent 200610010066.4 that regulate senior diffraction is suitable, and although the research of the people such as IanB.Murray further, random overlapping circular ring structure is proposed, make circle diameter and spacing random distribution value within the specific limits, realize improving senior Diffraction fringe distribution uniformity further, but the random distribution of circle diameter and spacing changes the uniformity of mesh distribution, electromagnetic shielding efficiency will be damaged.

Along with the complexity day by day of electromagnetic environment, the transmittancy of electromagnetic shielding optical window and the requirement of electromagnetic shielding capability are being improved constantly, especially at Aero-Space equipment field and advanced optical instrument field, while having required that optical window reaches 95% even higher light transmittance, also there is extremely low image quality impact, realize the shield effectiveness of more than 30dB in the microwave frequency range lower than 20GHz, this makes existing technology be difficult to realize.Patent 200810063988.0 and patent 200810063987.6 all have employed the both sides formation that double-level-metal net grid are placed in parallel in optical window transparent substrate or substrate, double layer of metal net grid have identical unit profile and structural parameters, by optimizing the spacing of two layers of mesh grid, while realizing not reducing light transmittance, increase substantially electromagnetic shielding efficiency.But this Double-level Reticulated grid structure senior diffraction stray light distributes, still identical with light transmittance monolayer net grid are suitable, not exclusively meet the requirement that the fields such as following Aero-Space equipment and advanced optical instrument affect low image quality.

Summary of the invention

The object of the invention is to the deficiency overcoming above-mentioned existing optical window electromangnetic spectrum scheme, the problem of the stray light distribution Relatively centralized that senior diffraction causes particularly is there is for existing individual layer grid metallic mesh, individual layer circular ring net grid, double-layer pane and circular ring net grid, research and develop a kind of circumscribed annulus and connect the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, reach the object of degree of depth homogenizing and the extremely low image quality impact realizing senior diffraction.

The technical solution used in the present invention is: circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the metallic mesh in electromagnetic shielding optical window by three kinds of different-diameter metal rings respectively as basic annulus, connect annulus, fill annulus and respectively by triangular arranged, regular hexagon altogether limit arrange, regular hexagon altogether zenithal alignment touch arrangement and form two-dimensional mesh grid and load on optical window transparent substrate surface; The metal ring homogeneous phase of same diameter is communicated with from, the connection annulus all having 6 to be spacedly distributed outside each basic annulus and 6 filling annulus be spacedly distributed are circumscribed with it; Be provided with in each basic annulus be communicated with its inscribe, the sub-annulus of metal, the sub-annulus that described basic annulus is communicated with its inscribe forms the elementary cell of two-dimensional mesh grid structure jointly; Basic annulus in net grid, connect annulus, fill annulus, the diameter of sub-annulus be millimeter to submillimeter magnitude, basic annulus, connect annulus, fill annulus, the metal wire width of sub-annulus is that micron is to sub-micrometer scale; Described triangular arranged refers to that the circle center line connecting of three adjacent between two basic annulus forms equilateral triangle; Described regular hexagon altogether limit arrangement refers to that two regular hexagons that adjacent two basic annulus circle center line connecting that 6, outside connects annulus is separately formed have a limit to overlap, and this edge two end points are that to connect annulus be that these two adjacent basic annulus are shared to corresponding two in the center of circle; Described regular hexagon altogether zenithal alignment refers to that two regular hexagons that adjacent two basic annulus circle center line connecting that annulus is filled in 6, outside is separately formed have a summit to overlap, and this summit is that these two adjacent basic annulus share as the filling annulus that the center of circle is corresponding; Described circumscribed connection comprises: 1. circumscribed the and circumscribed point of contact place of two annulus arranges the connection metal be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal be communicated with by two annulus at overlapping place; Described inscribe is communicated with and comprises: 1. two annulus inscribes and inscribe point of contact place arranges the connection metal be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal be communicated with by two annulus at overlapping place.

Above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, in described each elementary cell, sub-annulus number is more than or equal to 2, and diameter is identical or different, the angle that the center of circle of adjacent sub-annulus and basic annulus circle center line connecting form is arbitrarily angled, sub-annulus in different elementary cell is equal diameter or non-equal diameter annulus, and number is identical or different.

Above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and in described elementary cell, adjacent sub-annulus can circumscribed connection or crossing.

As a kind of preferred structure, above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, the diameter of described elementary cell neutron annulus is identical, and the angle that the center of circle of adjacent sub-annulus and basic annulus circle center line connecting form is equal.

As a kind of preferred structure, above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and the sub-annulus number in described different elementary cells is identical, equal diameters.

As a kind of preferred structure, above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and the sub-annulus relative position in described different elementary cells is identical, and by triangular arranged after being copied by an elementary cell.

As a kind of preferred structure, above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, sub-annulus relative position in described neighboring unit cells is different, and by triangular arranged after being copied by an elementary cell in two-dimensional mesh grid array, wherein any one elementary cell rotates to an angle around self basic annulus center of circle in two dimensional surface relative to its neighboring unit cells.

As a kind of preferred structure, above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and the angle that any elementary cell in described same a line rotates relative to neighboring unit cells is identical.

Above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and described basic annulus, connection annulus, filling annulus, sub-annulus are formed by the alloy that electric conductivity is good, and alloy thickness is greater than 100nm.

Above-mentioned circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, and described adhesive linkage chromium or titanium material are formed.

Novelty of the present invention and good result are:

Novelty of the present invention is: the metallic mesh in electromagnetic shielding optical window by three kinds of different-diameter metal rings respectively as basic annulus, connect annulus, fill annulus and respectively by triangular arranged, regular hexagon altogether limit arrange, regular hexagon altogether zenithal alignment touch arrangement and form two-dimensional mesh grid and load on optical window transparent substrate surface; The metal ring homogeneous phase of same diameter is communicated with from, the connection annulus all having 6 to be spacedly distributed outside each basic annulus and 6 filling annulus be spacedly distributed are circumscribed with it; Be provided with in each basic annulus be communicated with its inscribe, the sub-annulus of metal, the sub-annulus that described basic annulus is communicated with its inscribe forms the elementary cell of two-dimensional mesh grid structure jointly; Basic annulus in net grid, connect annulus, fill annulus, the diameter of sub-annulus be millimeter to submillimeter magnitude, basic annulus, connect annulus, fill annulus, the metal wire width of sub-annulus is that micron is to sub-micrometer scale; Described triangular arranged refers to that the circle center line connecting of three adjacent between two basic annulus forms equilateral triangle; Described regular hexagon altogether limit arrangement refers to that two regular hexagons that adjacent two basic annulus circle center line connecting that 6, outside connects annulus is separately formed have a limit to overlap, and this edge two end points are that to connect annulus be that these two adjacent basic annulus are shared to corresponding two in the center of circle; Described regular hexagon altogether zenithal alignment refers to that two regular hexagons that adjacent two basic annulus circle center line connecting that annulus is filled in 6, outside is separately formed have a summit to overlap, and this summit is that these two adjacent basic annulus share as the filling annulus that the center of circle is corresponding; Described circumscribed connection comprises: 1. circumscribed the and circumscribed point of contact place of two annulus arranges the connection metal be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal be communicated with by two annulus at overlapping place; Described inscribe is communicated with and comprises: 1. two annulus inscribes and inscribe point of contact place arranges the connection metal be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal be communicated with by two annulus at overlapping place.The good result that novelty of the present invention produces mainly concentrates on senior diffraction energy distribution of homogenizing metallic mesh, specific as follows:

In metallic mesh, basic annulus is basic arrangement mode with triangular arranged, connect annulus and be arranged as basic arrangement mode in limit altogether with regular hexagon, it is basic arrangement mode that filling annulus is total to zenithal alignment with regular hexagon, the shortcoming of senior the diffraction energy integrated distribution that traditional grid metallic mesh exists can be overcome, there is the characteristic of good homogenizing senior diffraction energy distribution, and use basic circle ring array, connect circle ring array and fill circle ring array contiguity arrangement composition metal ring array, when ensureing that light transmittance is identical, compared with only having the structure of single diameter circle ring array, need the diameter increasing each annulus, senior diffraction energy of each circle ring array all reduces, thus can effectively regulate senior diffraction energy distribution of metallic mesh structure, reach the object of homogenizing senior diffraction energy distribution, this is one of reason of metallic mesh homogenizing of the present invention senior diffraction energy distribution.

Sub-annulus composition elementary cell is added in basic annulus, because the difference of sub-annulus number, diameter and position relationship in each elementary cell, make its short texture, arrange spuious, therefore senior diffraction energy is lower, and senior Diffraction fringe distribution is comparatively even, avoids the situation occurring senior the diffraction energy integrated distribution existed as traditional grid metallic mesh; Meanwhile, when ensureing that light transmittance is identical, needing the diameter increasing basic annulus further, connect annulus, fill annulus, reducing senior diffraction energy of each array on the whole; Again because senior diffraction producing of sub-circle ring array structure with basic annulus, be connected annulus, to fill the probability that senior diffraction of circle ring array structure occur to superpose very low; Especially, further after Optimal Parameters, senior the diffraction that their energy are higher does not superpose, thus homogenizing senior diffraction energy distribution, this is the reason two of metallic mesh homogenizing of the present invention senior diffraction energy distribution.

Each elementary cell can rotate to an angle centered by the center of circle of the basic annulus of its correspondence, do not change the aperture ratio of metallic mesh and then do not affect light transmittance, but can modulate further senior order of diffraction Energy distribution, can distribute by homogenizing senior diffraction energy further, this is the reason three of metallic mesh homogenizing of the present invention senior diffraction energy distribution.

To sum up, metallic mesh structure of the present invention can realize the degree of depth homogenizing of net grid senior diffraction energy distribution, and this is the most outstanding effect of the present invention.In addition, the uniformity of round metal looped network grid structure is effectively improved by basic annulus, connection annulus, the metal ring structure of filling the arrangement of annulus contiguity and sub-circular ring structure acting in conjunction, and elementary cell when rotating to an angle centered by the center of circle of basic annulus corresponding to its elementary cell, while effectively modulation is carried out to senior order of diffraction Energy distribution, substantially do not affect effectiveness, even can improve effectiveness in some preferred version.

Accompanying drawing explanation

Fig. 1 is that circumscribed annulus connects a kind of preferred structure generalized section with the angular distribution circle ring array electromagnetic shielding optical window of sub-annulus.

Fig. 2 is that basic annulus is by triangular arranged schematic diagram.

Fig. 3 connects annulus by regular hexagon limit arrangement schematic diagram altogether.

Fig. 4 fills annulus by regular hexagon zenithal alignment schematic diagram altogether.

Fig. 5 touches the basic structure schematic diagram of arranging and forming by basic annulus, connection annulus, filling annulus.

The elementary cell preferred structure schematic diagram that Fig. 6 is made up of basic annulus and sub-annulus.

Fig. 7 is the circumscribed mode of communicating schematic diagram of two annulus.

Fig. 8 is two annulus inscribe mode of communicating schematic diagrames.

Fig. 9 is a kind of rotation mode schematic diagram of the relative neighboring unit cells of elementary cell of the present invention.

Figure 10 is existing grid grid structural representation.

Figure 11 is existing grid grid senior diffraction and relative intensity distribution schematic diagram thereof.

Figure 12 is existing circular ring net grid structural representation.

Figure 13 is existing circular ring net grid senior diffraction and relative intensity distribution schematic diagram thereof.

Figure 14 is the metallic mesh structural representation of preferred version A in the present invention.

Figure 15 is the metallic mesh of preferred version A in the present invention senior diffraction and relative intensity distribution schematic diagram thereof.

Figure 16 is the metallic mesh structural representation of preferred version B in the present invention.

Figure 17 is the metallic mesh of preferred version B in the present invention senior diffraction and relative intensity distribution schematic diagram thereof.

Figure 18 is that four kinds of net grid structures senior diffraction maximal phase is to intensity contrast figure.

In figure, piece number illustrates: 1. the basic annulus 7. of adhesive linkage 2. protective layer 3. anti-reflection film 4. transparent substrate 5. metallic mesh 6. connects annulus 8. and fills annulus 9. sub-annulus 10. connection metal

Embodiment

With preferred embodiment, the present invention is further described with reference to the accompanying drawings:

Circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the metallic mesh 5 in electromagnetic shielding optical window by three kinds of different-diameter metal rings respectively as basic annulus 6, connect annulus 7, fill annulus 8 and respectively by triangular arranged, regular hexagon altogether limit arrange, regular hexagon altogether zenithal alignment touch arrangement and form two-dimensional mesh grid and load on optical window transparent substrate surface; The metal ring homogeneous phase of same diameter is communicated with from, the connection annulus 7 all having 6 to be spacedly distributed outside each basic annulus 6 and 6 filling annulus 8 be spacedly distributed are circumscribed with it; Be provided with in each basic annulus 6 be communicated with its inscribe, the sub-annulus 9 of metal, the sub-annulus 9 that described basic annulus 6 is communicated with its inscribe forms the elementary cell of two-dimensional mesh grid structure jointly; Basic annulus 6 in net grid, connect annulus 7, fill annulus 8, the diameter of sub-annulus 9 be millimeter to submillimeter magnitude, basic annulus 6, connect annulus 7, fill annulus 8, the metal wire width of sub-annulus 9 is that micron is to sub-micrometer scale; Described triangular arranged refers to that the circle center line connecting of three adjacent between two basic annulus 6 forms equilateral triangle; Described regular hexagon altogether limit arrangement refers to that two regular hexagons that adjacent two basic annulus 6 circle center line connecting that 6, outside connects annulus 7 is separately formed have a limit to overlap, and this edge two end points are that to connect annulus 7 be that these two adjacent basic annulus 6 share to corresponding two in the center of circle; Described regular hexagon altogether zenithal alignment refers to that two regular hexagons that adjacent two basic annulus 6 circle center line connecting that annulus 8 is filled in 6, outside is separately formed have a summit to overlap, and this summit is that these two adjacent basic annulus 6 share as the filling annulus 8 that the center of circle is corresponding; Described circumscribed connection comprises: 1. circumscribed the and circumscribed point of contact place of two annulus arranges the connection metal 10 be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal 10 be communicated with by two annulus at overlapping place; Described inscribe is communicated with and comprises: 1. two annulus inscribes and inscribe point of contact place arranges the connection metal 10 be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal 10 be communicated with by two annulus at overlapping place.Transparent substrate 4 can be any transparent material, as long as metallic mesh 5 as the transparent optical window material meeting use occasion requirement, can be processed thereon by certain technological process by it simultaneously; According to technological process, metallic mesh 5 is carried in transparent substrate 4 surface by adhesive linkage 1; Individual layer or multi-layered antireflection coating 3 strengthen the transmittancy of optical window, the protective layer 2 of individual layer or multilayer, and object prevents metallic member long term exposure from air, causing corrosion and oxidation, reduces screening ability, also prevent metallic mesh 5 to be scratched simultaneously.

Circumscribed annulus of the present invention connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, metallic mesh 5 in electromagnetic shielding optical window by three kinds of different-diameter metal rings respectively as basic annulus 6, connect annulus 7, fill annulus 8 and respectively by triangular arranged, regular hexagon altogether limit arrange, regular hexagon altogether zenithal alignment touch arrangement and form two-dimensional mesh grid and load on optical window transparent substrate surface, the metal ring homogeneous phase of same diameter from.Basic annulus 6 by triangular arranged as shown in Figure 2, figure mid point A, B, C are the center of circle of three adjacent basic annulus 6 between two, △ ABC is equilateral triangle, and such arrangement mode guarantees all basic annulus 6 when forming metallic mesh 5 according to triangular arranged.The connection annulus 7 all having 6 to be spacedly distributed outside each basic annulus 6 circumscribed connection with it, connection annulus 7 is pressed regular hexagon and is arranged as shown in Figure 3 on limit altogether, figure mid point D, E, F, G, H, I is the center of circle being connected annulus 7 with six of the circumscribed connection of same basic annulus 6, hexagon DEFGHI is regular hexagon, two regular hexagons that adjacent two basic annulus 6 circle center line connecting that 6, outside connects annulus 7 is separately formed have a limit to overlap, this edge two end points are that to connect annulus 7 be that these two adjacent basic annulus 6 share to corresponding two, the center of circle, such arrangement mode guarantees all connection annulus 7 when forming metallic mesh 5 according to regular hexagon limit arrangement altogether.The filling annulus 8 all having 6 to be spacedly distributed outside each basic annulus 6 circumscribed connection with it, filling annulus 8 is pressed regular hexagon and is total to zenithal alignment as Fig. 4, figure mid point J, K, L, M, N, O is the center of circle that six of being communicated with circumscribed with same basic annulus 6 fill annulus 8, hexagon JKLMNO is regular hexagon, two regular hexagons that adjacent two basic annulus 6 circle center line connecting that annulus 8 is filled in 6, outside is separately formed have a summit to overlap, this summit is that these two adjacent basic annulus 6 share as the filling annulus 8 that the center of circle is corresponding, such arrangement mode guarantees all filling annulus 8 when forming metallic mesh 5 according to regular hexagon zenithal alignment altogether.Fig. 5 touches the basic structure schematic diagram of arranging and forming by basic annulus, connection annulus, filling annulus, basic annulus 6 in Fig. 5, connect annulus 7, fill annulus 8 respectively by the limit arrangement altogether of above-mentioned triangular arranged, regular hexagon, regular hexagon altogether the arrangement of zenithal alignment contiguity form two-dimensional mesh grid, the metal ring homogeneous phase of same diameter from, three kinds of annulus, because arranging in a manner described, make the relative position between them and diameter meet the relation determined.

Circumscribed annulus of the present invention connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, in metallic mesh 5, the diameter of basic annulus 6, connection annulus 7, filling annulus 8, sub-annulus 9 is that millimeter is to submillimeter magnitude, basic annulus 6, connect annulus 7, fill annulus 8, sub-annulus 9 metal wire width be micron to sub-micrometer scale, to ensure high transmission rate and good effectiveness.In addition, basic annulus 6, connection annulus 7, filling annulus 8, sub-annulus 9 are formed by the metal that electric conductivity is good, and as simple metal and metal alloys such as gold, silver, copper, aluminium, and metal thickness is greater than 100nm.

Circumscribed annulus of the present invention connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, in each elementary cell, sub-annulus number is more than or equal to 2, and diameter is identical or different, the angle that the center of circle of adjacent sub-annulus and basic annulus circle center line connecting form is arbitrarily angled, sub-annulus in different elementary cell is equal diameter or non-equal diameter annulus, and number is identical or different; The circumscribed connection of adjacent sub-annulus or crossing in elementary cell.Fig. 6 represents the elementary cell preferred structure schematic diagram be made up of basic annulus and sub-annulus, in figure, the diameter of elementary cell neutron annulus is identical, the angle that the center of circle of adjacent sub-annulus and basic annulus circle center line connecting form is equal, the circumscribed connection of sub-annulus 9 that Fig. 6 (a) (b) is same diameter in elementary cell, the sub-annulus 9 that Fig. 6 (c) (d) is same diameter in elementary cell intersects and connects.

Fig. 7, Fig. 8 represent that the circumscribed connected sum inscribe of two annulus is communicated with respectively, overlapping or arrange the metal that (as covered) ensure reliably to electrically connect between metal ring tangent point, to guarantee that between tangent metal ring, contiguity is communicated with conduction by lines.Wherein, when Fig. 7 (a) (b) (c) is illustrated respectively in circumscribed connection, two annulus are seamless overlapping configuration schematic diagram: Fig. 7 (a) is the seamless overlapping ordinary circumstance of two annulus, namely the distance of center circle of two annulus be less than two annulus circumscribed time distance of center circle, and be more than or equal to two annulus circumscribed time distance of center circle and the difference of two annulus line thickness sums, Fig. 7 (b) is seamless overlapping a kind of special circumstances, the inside and outside contour of two annulus lines is mutually circumscribed, Fig. 7 (c) is seamless overlapping another kind of special circumstances, the distance of center circle of two annulus equal two annulus circumscribed time distance of center circle and the difference of two annulus line thickness sums, namely the Internal periphery of two annulus lines is circumscribed, and because two annulus are circumscribed in Fig. 7 (d), therefore need to arrange the metal ensureing reliably to electrically connect between metal ring tangent point at point of contact place.Fig. 8 (a) (b) is illustrated respectively in two annulus when inscribe is communicated with is that seamless overlapping configuration schematic diagram: Fig. 8 (a) represents the seamless overlapping ordinary circumstance of two annulus when inscribe is communicated with, namely the distance of center circle when distance of center circle of two annulus is greater than two annulus inscribes, and distance of center circle when being less than two annulus inscribes and diameter compared with large circle line thickness and, Fig. 8 (b) represents the seamless overlapping a kind of special circumstances of two annulus when inscribe is communicated with, the distance of center circle when distance of center circle of two annulus equals two annulus inscribes and diameter compared with large circle line thickness and, the i.e. outline inscribe of two annulus lines, and Fig. 8 (c) represents that diameter is compared with the outline of small circle ring lines and the diameter Internal periphery inscribe compared with large circle lines, now need to arrange the metal ensureing reliably to electrically connect between metal ring tangent point at point of contact place.In addition, if two annulus seamless overlapping time two metal rings overlapping area less, be not enough to guarantee to have between two metal rings to electrically connect reliably, also need to arrange the metal ensureing reliably to electrically connect between metal ring point of contact at point of contact place, to guarantee the circumscribed connection or the inscribe connection that realize becket.And shown in Fig. 7 (d) He Fig. 8 (c), be a kind of preferred point of contact place metal connected mode, the connection metal 10 that point of contact place covers is rectangle, the length of side of rectangle is greater than becket line thickness, rectangle will make rectangle limit drop on completely in becket lines when arranging junction, point of contact, and its opposite side will drop in another tangent becket lines completely.According to different processing methods and technological level, annulus point of contact place also can adopt the connection metal of other form, electrically connects reliably as long as two tangent beckets can be made to have.

In the present invention, the sub-annulus 9 in different elementary cell is equal diameter or non-equal diameter annulus, and number is identical or different, to reach the object of the stray light that homogenizing senior diffraction causes.As a kind of preferred version, the diameter of elementary cell neutron annulus 9 is identical, and the angle that the center of circle of adjacent sub-annulus 9 and basic annulus 6 circle center line connecting form is equal; On this basis, sub-annulus 9 number in different elementary cell is identical, equal diameters.As a special case of this preferred version, sub-annulus 9 relative position in different elementary cell is identical, and by triangular arranged after being copied by an elementary cell.In order to realize the stray light effect that good homogenizing senior diffraction causes, as another special case of this preferred version, sub-annulus 9 relative position in neighboring unit cells in the present invention in metallic mesh 5 is different, and by triangular arranged after being copied by an elementary cell, wherein any one elementary cell rotates to an angle around self basic annulus 6 center of circle in two dimensional surface relative to its neighboring unit cells, can be identical relative to the angle that neighboring unit cells rotates with any elementary cell in a line.Such as, Fig. 9 is a kind of rotation mode schematic diagram of the relative neighboring unit cells of elementary cell of the present invention, wherein the elementary cell of metallic mesh 5 selects the structure of Fig. 6 (a), have rotated 22.5 ° of angles successively with the relative neighboring unit cells of elementary cell each in a line.

Figure 10 and Figure 11 is respectively US Patent No. 4871220 existing grid grid structural representation and its senior diffraction and relative intensity distribution schematic diagram thereof, Figure 12 and Figure 13 is respectively patent 200610010066.4 existing circular ring net grid structural representation and its senior diffraction and relative intensity distribution schematic diagram thereof; Figure 14 and Figure 15 is respectively metallic mesh 5 structural representation and its senior diffraction and the relative intensity distribution schematic diagram thereof of preferred version A in the present invention, the basic annulus of metallic mesh 5 structure choice of preferred version A, connect annulus, fill annulus respectively by the limit arrangement altogether of triangular arranged, regular hexagon, regular hexagon altogether the arrangement of zenithal alignment contiguity form two-dimensional mesh grid, wherein adding 4 sub-annulus composition elementary cells in basic annulus as the structure of Fig. 6 (a) does not rotate between each elementary cell relatively.Figure 16 and Figure 17 is respectively metallic mesh 5 structural representation and its senior diffraction and the relative intensity distribution schematic diagram thereof of preferred version B in the present invention, rotate according to the rotation mode shown in Fig. 9 unlike the neighboring unit cells of preferred version B with preferred version A, and the anglec of rotation is 22.5 °.

In order to illustrate that the present invention to distribute active superiority at homogenizing senior diffraction energy, based on scalar diffraction theory, theory calculate is carried out to senior diffraction energy distribution situation of above-mentioned four kinds of structures and senior the maximum relative intensity of diffraction, the light transmittance of each structure identical (being 95.4%) is made during calculating, its zero level relative intensity is 91%, and namely imaging useful information ratio is identical.Metallic mesh structure of the present invention is compared with grid, circular ring net grid, senior time the maximum relative intensity of diffraction obviously reduces, and obviously increase in the identical number investigating senior diffraction spot in interval, thus avoid senior diffraction energy and concentrate on problem in the minority order of diffraction time, make senior diffraction energy distribution more even; Figure 18 is the concrete numerical value of senior the maximum relative intensity of diffraction of above-mentioned four kinds of structures, visible, senior the maximum relative intensity of diffraction of grid metallic mesh structure is obviously higher relative to other structures, senior the maximum relative intensity of diffraction of the metallic mesh structure corresponding to the solution of the present invention A obviously reduces, 0.0112% is dropped to from 0.0259% (senior the maximum relative intensity of diffraction of existing circular ring net grid structure), reduce 57%, the homo-effect of senior diffraction is obvious; Preferred version B is compared with option A, senior the maximum relative intensity of diffraction of metallic mesh structure reduces further, 0.0046% is dropped to from 0.0112% (senior the maximum relative intensity of diffraction of preferred version A), reduce 59%, complete the further homogenizing to senior diffraction, thus prove that metallic mesh of the present invention has remarkable result to the homogenizing of senior diffraction after each parameter of optimization, not only be better than US Patent No. 4871220 existing grid metallic mesh structure, be also better than patent 200610010066.4 existing annulus metallic mesh structure.

Building form of the present invention, make mesh relatively average, especially the metallic mesh structure provided in preferred version, while senior the diffraction energy distribution of degree of depth homogenizing, still there is good light transmission and shielding properties, when for constructing double-level-metal net grid structure, the contradictory problems of light transmittance and shield effectiveness can be improved, meanwhile, due to single layer structure degree of depth homogenizing of the present invention senior diffraction energy distribution, can to solve again in existing double-level-metal net grid structure due to the restriction of monolayer net grid structure can not the problem of homogenizing senior diffraction energy distribution further.

Circumscribed annulus of the present invention connects the metallic mesh 5 had in the angular distribution circle ring array electromagnetic shielding optical window of sub-annulus can adopt following processing method processing and fabricating: make mask by modes such as electron-beam direct writings, optical window transparent substrate 4 carries out cleaning rear chromium plating or titanium as adhesive linkage 1, metal-coated films on it, then photoresist is applied, manufactured mask is utilized to carry out photoetching, finally carry out dry method or wet etching, after removing photoresist, obtain net gate pattern.Also can save mask manufacture link, and directly adopt the way of laser direct-writing to connect the metallic mesh pattern with the angular distribution circle ring array of sub-annulus to make circumscribed annulus.Other microelectronic processing technology flow process or binary optical elements Making programme etc. also can be used for making metallic mesh structure of the present invention.

Transparent substrate 4 involved in the present invention is determined by practical application, can be simple glass, quartz glass, infra-red material, transparent resin material etc.Basic annulus 6 of the present invention, connection annulus 7, filling annulus 8 and sub-annulus 9 metal structure will take suitable processing process to make it to be covered in completely on transparent substrate 4 according to transparent substrate 4, and can realize electrically connecting reliably or seal to ensure excellent electro-magnetic screen function with window frame etc.In practical application; anti-reflection film can be plated to increase transmittancy in transparent substrate 4 surface with net grid structure of the present invention; also can reduce screening ability at net gate layer plated surface protective layer to prevent from metal structure to be positioned over for a long time in air being corroded or be oxidized, also prevent net gate layer from suffering to scratch, wearing and tearing or other destroy.

Claims (9)

1. circumscribed annulus connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the metallic mesh (5) in electromagnetic shielding optical window by three kinds of different-diameter metal rings respectively as basic annulus (6), connect annulus (7), fill annulus (8) and respectively by triangular arranged, regular hexagon altogether limit arrange, regular hexagon altogether zenithal alignment touch arrangement and form two-dimensional mesh grid and to load on optical window transparent substrate surperficial; The metal ring homogeneous phase of same diameter is communicated with from, the connection annulus (7) that each basic annulus (6) outside all has 6 to be spacedly distributed and 6 filling annulus (8) be spacedly distributed are circumscribed with it; Be provided with in each basic annulus (6) be communicated with its inscribe, the sub-annulus (9) of metal, the sub-annulus (9) that described basic annulus (6) is communicated with its inscribe forms the elementary cell of two-dimensional mesh grid structure jointly; Basic annulus (6) in net grid, connect annulus (7), fill annulus (8), the diameter of sub-annulus (9) be millimeter to submillimeter magnitude, basic annulus (6), connect annulus (7), fill annulus (8), the metal wire width of sub-annulus (9) is that micron is to sub-micrometer scale; Described triangular arranged refers to that the circle center line connecting of three adjacent between two basic annulus (6) forms equilateral triangle; Described regular hexagon altogether limit arrangement refers to that two regular hexagons that adjacent two basic annulus (6) circle center line connecting that 6, outside connects annulus (7) is separately formed have a limit to overlap, and this edge two end points are that to connect annulus (7) be these two adjacent basic annulus (6) sharing to corresponding two in the center of circle; Described regular hexagon altogether zenithal alignment refers to that two regular hexagons that adjacent two basic annulus (6) circle center line connecting that annulus (8) is filled in 6, outside is separately formed have a summit to overlap, and this summit is these two adjacent basic annulus (6) sharing as the filling annulus (8) that the center of circle is corresponding; Described circumscribed connection comprises: 1. circumscribed the and circumscribed point of contact place of two annulus arranges the connection metal (10) be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal (10) be communicated with by two annulus at overlapping place; Described inscribe is communicated with and comprises: 1. two annulus inscribes and inscribe point of contact place arranges the connection metal (10) be communicated with by two annulus, 2. two annulus are seamless overlapping configuration at junction lines, 3. two annulus are while junction lines are seamless overlapping configuration, arrange the connection metal (10) be communicated with by two annulus at overlapping place.

2. circumscribed annulus according to claim 1 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: in each elementary cell, sub-annulus (9) number is more than or equal to 2, and diameter is identical or different, the angle that the center of circle of adjacent sub-annulus (9) and basic annulus (6) circle center line connecting form is arbitrarily angled, sub-annulus (9) in different elementary cell is equal diameter or non-equal diameter annulus, and number is identical or different.

3. circumscribed annulus according to claim 1 and 2 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the circumscribed connection of adjacent sub-annulus (9) or crossing in elementary cell.

4. circumscribed annulus according to claim 2 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the diameter of elementary cell neutron annulus (9) is identical, the angle that the center of circle of adjacent sub-annulus (9) and basic annulus (6) circle center line connecting form is equal.

5. circumscribed annulus according to claim 4 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: sub-annulus (9) number in different elementary cell is identical, equal diameters.

6. circumscribed annulus according to claim 5 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: sub-annulus (9) relative position in different elementary cell is identical, and by triangular arranged after being copied by an elementary cell.

7. circumscribed annulus according to claim 5 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: sub-annulus (9) relative position in neighboring unit cells is different, and by triangular arranged after being copied by an elementary cell in two-dimensional mesh grid, wherein any one elementary cell rotates to an angle around self basic annulus (6) center of circle in two dimensional surface relative to its neighboring unit cells.

8. circumscribed annulus according to claim 7 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: the angle rotated relative to neighboring unit cells with any elementary cell in a line is identical.

9. circumscribed annulus according to claim 1 connects the angular distribution circle ring array electromagnetic shielding optical window with sub-annulus, it is characterized in that: basic annulus (6), connection annulus (7), filling annulus (8), sub-annulus (9) are formed by the alloy that electric conductivity is good, and alloy thickness is greater than 100nm.