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CN-122023581-A - Anti-dazzle glass lattice arrangement method and anti-dazzle glass

CN122023581ACN 122023581 ACN122023581 ACN 122023581ACN-122023581-A

Abstract

An anti-dazzle glass lattice arrangement method comprises the steps of setting initial round points in a central area of a layout area, generating a first round chain in an annular mode by taking the initial round points as the centers, generating a common circumscribed circle outwards by taking the initial round points and the end point round points of the first round chain as reference to serve as first round chain extension round points, generating a second round chain outwards by taking the first round chain extension round points as the centers to take the clockwise direction or the anticlockwise direction, sequentially generating second round chain extension round points along the generation direction of the second round chain, and sequentially generating a next round chain along the generation rule of the second round chain and the second round chain extension round points until the round chain is fully distributed in the layout area.

Inventors

  • Fan Yule
  • Jiang Jiulei
  • WANG DAN
  • CAI XITONG

Assignees

  • 苏州新吴光电股份有限公司

Dates

Publication Date
20260512
Application Date
20260127

Claims (11)

  1. 1. An anti-dazzle glass lattice arrangement method is characterized by comprising the following steps: setting an initial round point in a central area of a layout area, and generating a first round chain in a ring shape by taking the initial round point as the center; The dots on the first circular chain are circumscribed with the initial dots, and at most, adjacent dots except the initial dots and the end dots are circumscribed with each other; Generating a common circumscribed circle outwards by taking the initial point round dot and the end point round dot of the first round chain as a first round chain extension round dot, wherein the first round chain extension round dot is a second round chain center round dot, and generating a second round chain outwards in a clockwise direction or a counterclockwise direction by taking the second round chain center round dot as a center; The dots on the second round chain are circumscribed with the center dots of the second round chain, the adjacent dots on the second round chain are circumscribed with each other, and no overlapping area exists between the dots on the second round chain and the generated dots; Sequentially generating second round chain extension dots along the generation direction of the second round chain, and when a plurality of second round chain extension dots are generated, generating a common circumscribed circle outwards by taking the last two second round chain extension dots as a reference to serve as the center dot of the next round chain; when the second round chain extension round dot is one, a common circumscribed circle is outwards generated by taking the last round dot in the second round chain and the second round chain extension round dot as references and is used as the center round dot of the next round chain; The second round-chain extension dots and the generated dots have no overlapping area, and when the number of the second round-chain extension dots is multiple, adjacent second round-chain extension dots are mutually circumscribed; And generating the next round chain according to the generation rule sequence of the second round chain and the second round chain extension round dots until the round chain is fully distributed in the layout area.
  2. 2. The method according to claim 1, wherein a limit dot is set according to a size of the layout area, the layout area is located in the limit dot, and a diameter size of the limit dot is not smaller than a sum of a diagonal size of the layout area and a four-time diameter size of a maximum dot in the limit dot.
  3. 3. The method according to claim 2, wherein when the limit dots are provided, round chains are fully distributed in the layout area, and when any dot in any round chain is completely located outside the limit dot, the generation of the round chains is stopped.
  4. 4. The method for arranging the anti-glare glass lattice according to claim 1, wherein any one of the round-chain expanded dots does not exceed three dots; the expanded dots are circumscribed with adjacent existing dots.
  5. 5. The method according to claim 1, wherein any newly generated dot in the patterned area does not overlap with an adjacent existing dot.
  6. 6. The method of arranging an antiglare glass lattice according to claim 1, further comprising, after the dots are distributed in the layout area: Scaling all dots in the map distribution area in a linear mapping mode, wherein the scaling calculation formula is as follows: d'= B 0 +(d-A 0 )×(B 1 -B 0 )/(A 1 -A 0 ) d' is the dot diameter size after scaling; d is the dot diameter size before scaling; a 0 is the minimum diameter dimension of the scaled front dot; A 1 is the maximum diameter size of the dot before scaling; B 0 is the minimum diameter size of the dot after scaling; B 1 is the scaled dot maximum diameter size.
  7. 7. The method of arranging an antiglare glass lattice according to claim 1, wherein the diameter dimension of any dot in the layout area before scaling is 0.033mm to 0.035mm; The diameter size of any dot in the layout area after scaling is 0.010mm-0.013mm.
  8. 8. The method of arranging an antiglare glass lattice according to claim 1, wherein the radius dimensions of any tangential dots are different.
  9. 9. An electronic device, comprising: Processor, and A memory arranged to store computer executable instructions that, when executed, cause the processor to perform the steps of the antiglare glass lattice arrangement method of any one of claims 1 to 8.
  10. 10. A computer-readable storage medium storing one or more programs that, when executed by an electronic device comprising a plurality of application programs, cause the electronic device to perform the steps of the antiglare glass lattice arrangement method of any one of claims 1-8.
  11. 11. An antiglare glass, characterized in that the antiglare glass is prepared by the antiglare glass lattice arrangement method according to any one of claims 1 to 8.

Description

Anti-dazzle glass lattice arrangement method and anti-dazzle glass Technical Field The invention relates to the technical field of anti-dazzle glass, in particular to an anti-dazzle glass lattice arrangement method and anti-dazzle glass. Background Anti-glare glass generally forms micro-nano structural lattices (such as micro pits, micro bumps or etched micropores) on the surface of the glass so as to scatter incident light in multiple directions and weaken specular reflection, thereby reducing glare in scenes such as display screens, lighting fixtures and the like. In the prior art, the dot matrix patterns are mostly regular grids such as square/hexagon, pseudo-random disturbance or a simple geometric recurrence-based mode, and the arrangement mode has the defects that the dot spacing and the dot diameter are mostly set by experience parameters, so that the anti-glare performance, the transmittance and the visual uniformity are difficult to be simultaneously considered in a large area. On one hand, the regular grid is easy to generate flash points, interference fringes or mole fringes under a specific incidence angle, so that local bright spots are obvious and the appearance is influenced, on the other hand, the simple random or disturbance mode weakens the regularity to a certain extent, but the minimum spacing between the points, the local density and the overall gradual change trend lack fine control, and local too-dense, too-sparse and even overlapping areas are easy to appear, so that the expected haze and contrast are not favorable for being obtained stably. The regular grid lattice pattern has the technical problem that the high anti-glare performance and the low flash point cannot be combined. In addition, the prior art has rough cutting and boundary constraint processing on the dot matrix when approaching to the glass edge region, and the generated data processing method directly discards the dot exceeding the effective layout range when encountering the dot possibly exceeding the effective layout range, so that the phenomenon that the anti-dazzle effect of the edge region is still poor and pleasant when forming a finished product is caused. How to solve the technical problems is a technical problem to be solved in the industry. Disclosure of Invention In order to solve the defects in the prior art, the invention aims to provide an anti-dazzle glass lattice arrangement method and anti-dazzle glass, which take the randomness and controllability of lattices into consideration and avoid the occurrence of local visual abnormality. In order to achieve the above object, the present application provides a method for arranging an anti-glare glass lattice, comprising: Setting an initial round point in a central area of the layout area, and generating a first round chain in a ring shape by taking the initial round point as the center; The dots on the first circular chain are circumscribed with the initial dots, and at most, adjacent dots except the initial dots and the end dots are circumscribed with each other; generating a common circumscribed circle outwards by taking a start dot and a finish dot of the first round chain as reference as a first round chain extension dot, wherein the first round chain extension dot is a second round chain center dot, and generating a second round chain outwards in a clockwise direction or a counterclockwise direction by taking the second round chain center dot as the center; the dots on the second round chain are circumscribed with the center dots of the second round chain, adjacent dots on the second round chain are circumscribed with each other, and no overlapping area exists between the dots on the second round chain and the generated dots; sequentially generating second round chain extension dots along the generation direction of the second round chain, and when a plurality of second round chain extension dots are generated, generating a common circumscribed circle outwards by taking the last two second round chain extension dots as a reference to serve as the center dot of the next round chain; When the second round chain extension round dot is one, a common circumscribed circle is outwards generated by taking the last round dot in the second round chain and the second round chain extension round dot as references and is taken as the center round dot of the next round chain; The second round-chain extension dots and the generated dots have no overlapping area, and when the number of the second round-chain extension dots is multiple, adjacent second round-chain extension dots are mutually circumscribed; and generating the next round chain according to the second round chain and the generation rule sequence of the second round chain extension round dots until the round chain is fully distributed in the layout area, and stopping generating the round chain. Preferably, the spacing dots are arranged according to the size of the layout area, the layout area is positioned i