TH55846B - Transparent optical components that are pixelated Which consists of an absorbent coating layer Methods of production and use in optical components - Google Patents

Abstract

DC60 transparent optical components (10) consist of at least one transparent set of cells (15). The dresses were put together. Parallel to the surface of the component Where each cell is separated by a wall (18) parallel to the surface of the component. Which are sealed in an airtight manner and contain The least one of them has optical properties. And at least one absorbent layer (30) was placed on A wall on one side that extends parallel to the surface of the component. Optical components can be cut off along a predefined external contour. Then or choose to be punctured The invention will also consist of methods for the manufacture of such optical components and their use to produce optical elements. Especially This optical element is a 3a shaped eyeglass lens. The transparent optical component (10) consists of at least one transparent set of cells (15). Sets that are aligned parallel to the surface of the components. Where each cell is separated by a wall (18) parallel to the surface of the component. Which are sealed in an airtight manner and contain At least one of them has optical properties. And at least one absorbent layer (30) was placed on A wall on one side that extends parallel to the surface of the component. Optical components can be cut off along a predefined external contour. Then or choose to be punctured The invention will also consist of methods for the manufacture of such optical components and their use to produce optical elements. Especially This optical element is a 3a shaped eyeglass lens.

Claims (9)

Disclaimer (all) which will not appear on the notice page: 1. Method for producing transparent optical elements selected from eyepieces, contact lenses. And implantation, which consists in producing transparent optical components with at least A set of cells aligned parallel to the component surface, each cell closed. Sealed in a manner impervious to air And containing substances which have optical properties, cells are separated by walls And at least one absorbent coating, placed on the wall on one side that spanned Parallel to the surface of the component, the absorbent layer has a wavelength band. At least one strip between 400 nm and 700 nm 2. Method for producing transparent optical elements according to claim 1, which also consists of a process Cut the optical component along the specified external contour on the surface, in line with the pre-defined shape for the optical component. 3. Method according to one of the preceding claims. Optical properties were selected based on staining, photophobia, polar separation and refractive index. 4. Method according to claim 3, in which substances with optical properties contained in certain cells. Cell is like Less will be in liquid or gel form. 5. Method of one of the previous claims. In which the set of cells of optical components will 6. Method according to claim 5, in which the strong translucent supports may be convex, concave, or placed. In the plane on the receiving side of the set of cells 7. Method of following one of the preceding claims Which the absorbent coating has At least one band with a wavelength between 400 nm and 700 nm 8. Method according to claim 7 in which the absorbent coatings have an absorbent band over the entire visible spectrum 9. Method according to claim 8 where class Dud-absorbing coatings also have a spectral absorption band in near-infrared radiation greater than 700 nm and / or in near-range ultraviolet, which is less than 400 nm 1 0. In which the absorbent coatings are produced by Metallurgical Process 1 1. Method of one of the previous claims. In which the absorbent coatings will be deposited Before the construction of the wall or after the construction of the wall 1 2. Method in accordance with one of the previous claims. It consists of the following steps - Deposition of a uniform absorbent layer on the entire surface of the section. Strong translucent supports or flexible translucent film surfaces - the transparent deposition of the substrate that forms the walls and produces the cellular network in layers. Such transparent material to obtain such a set of cells aligned parallel to the aforementioned surface - chemical or chemical interaction of the adsorbent layer in each cell 1 3. Method according to one of the previous claims It consists of the following steps - Deposition of the adsorbent layer through the mask. Where the mask will have Profiles of Cell Distribution in the Acquired Scaffold - Deposition of the transparent layers that form the walls by offset printing at It is positive when arranging the aforementioned transparent material layers with the pattern of the absorbent coatings 1 4. Method according to one of the previous claims. It consists of the following steps - a uniform layer of deposition that is a transparent material that forms part of the wall on the entire surface. All of the strong translucent support or flexible translucent film surface - Deposition of metal layers on such a uniform layer of the constituent material - production of cells by etching process through the mask of such metal layer. say And such class Of the subsequent transparent material in order to obtain such a set of cells that are aligned parallel to that surface. 1 5. Method of one of the previous claims. In which the cell network is obtained by means of Selected from thermal printing, hot embossing, micro-casting, offset printing, micro-deposition, screen printing and ink jet printing. 1 6. Hand-held method. Any 12 and 13 rights The metal layer is exposed by an RIE (reactive ion etching) process. 1 7. One of the methods of claim 12 to 15. In which the material that is the component of the wall is Absorb over the entire or partial visible spectrum 1 8. Method of one of the preceding claims. Which consists of building a wall network on the floor The bases to divide the cell lines parallel to the surface of the component, creating an absorbent coating. At least one layer parallel to the surface of the wall. Where this step takes place before and / or after The construction of such a wall network, the addition of optical properties in liquid or gel form. Combined or detached into a cell And closing the cell on the side opposite to the base layer 1. 9. Method of one of the previous claims. In which the absorbent coating will consist of The selected metals from aluminum, silver, chromium, titanium, platinum, nickel, copper, iron, zinc, tin, palladium and gold 2 0. Method according to claim 19, which The absorbent coatings consist of metals that are selected from silver, aluminum, titanium, chromium and gold. 2 1. Method of one of the previous claims. Which the absorbent coatings consist of Selected from hybrid materials such as resins, solvents, composites such as ceramics / metals or alloys derived from silica / metals and carbon. 2 2. What is the method of claim? One of the previous Which the absorbent coatings consist of The adsorbable polymers were selected from polymers with self-adsorption properties or were adsorbed by stimulation, diffusion or adsorption of the adsorbable particles. Rights 22 where absorbable particles are selected from dyes, inks, pigments, colloidal substances, metal particles, alloys, carbon black and carbon nanotubes 2. 4. Optical components consisting of at least a set of cells. One set that was aligned by Parallel to the surface of the components And at least one absorbent coating was placed on the wall on the top One spanning parallel to the surface of the said component Which each cell is sealed in Airtight characteristics and will contain substances with optical properties. Where all cells are separated by walls 2. 5. Optical components according to claim 24, in which the absorbent coatings are deposited parallel 2 6. Optical component according to claim 25, in which the absorbent coatings shall have the same thickness for all. Respect to the wall thickness Or have a thickness greater than the wall thickness 2 7. Optical component according to claim 24, in which the absorbent coatings will be deposited parallel 2. 8. Optical component according to claim 24, in which the absorbent coatings are deposited parallel to the top of the surface of the wall. With the base and the top of the wall surface. 2 9. Optical components according to Claim 24 to 28, any of In which the absorbent coating will It consists of selected materials from aluminum, silver, chromium, titanium, platinum, nickel, copper, iron, zinc, tin, palladium and gold. 3 0. Optical components according to the claim. 29 which materials are selected from silver, aluminum, titanium, chrome and 3 gold. 1.Optical components in accordance with any of 24 to 28 claims In which the absorbent coating will Contains materials selected from hybrid materials such as resins, sol-gel, composite materials such as ceramic / metal chains or silica / metal and carbon-based alloys. 2.Optical components according to any of 24 to 28 claims In which the absorbent coating will Contains absorbable materials that are selected from self-absorbable polymers or adsorbeds. By stimulation, diffusion, or adsorption of 3 absorbable particles. 3.Optical components according to claim 32, whose absorbable particles are selected from dyes, inks, pigments, colloidal substances, metal particles, alloys, carbon black and carbon nanotubes 3. 4. Optical components in accordance with any one of 24 to 33 claims. In which the absorbent coating will have The height is between a few nm and 5 (formula) m, and ideally should be between 2 nm and 2 (formula) m 3. 5.Optical components according to one of 24 to 34 claims. Where the cell is separated by a wall whose thickness (e) between 0.10 (formula) m and 5 (formula) m and a height (h) between 1 (formula) m and 50 (formula) m is included. 3 6.Optical components in accordance with any of 24 to 35 claims Where the filling ratio is between 90% and 99.5% inclusive of 3 7. Use of optical components in accordance with any one of 24 to 36 claims in the manufacture of elements. Transparent optics are selected from corrective lenses, contact lenses, implants, lenses for optical instruments, filters, optical contrast viewing lenses, visor, optical system of optical instruments. 3 8.Lens manufactured by cutting optical components in accordance with any Clause 24 to 36 3. 9. Ventilated lens according to claim 38, inside which at least one hole is drilled through assembly (10) to secure the lens (11) to the frame.