{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853249","patent":{"patent_number":"US-9853249","title":"Display device including reflecting layer","assignee":null,"inventors":[],"filing_date":"2017-02-24T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G02F","G02F","G02F","G02F"],"num_claims":6,"abstract":"A display device includes a reflecting layer. A display device according to an exemplary embodiment of the present invention includes: a lower substrate; an upper substrate facing the lower substrate; a thin film transistor on the lower substrate; and a first reflecting layer on a first surface of the upper substrate, the first surface facing the lower substrate, in which the lower substrate and the upper substrate include a display area for displaying an image, and a peripheral area outside the display area, and wherein the first reflecting layer is at the peripheral area, at display area, and at an area adjacent an edge of the upper substrate."},"analysis":{"summary":"The Display Device Including Reflecting Layer (US-9853249) introduces a pivotal innovation in display technology, focusing on comprehensive light management across the entire display module. At its core, this patent describes a display device that integrates a specialized reflecting layer not only within the active image-displaying area but critically, also extending into the surrounding peripheral regions and adjacent to the edges of the upper substrate.\n\nThe primary problem this invention solves is the persistent challenge of achieving visual uniformity and minimizing light leakage at the non-active borders and edges of modern displays. Traditional designs often struggle with inconsistent aesthetics, visible components, or light artifacts in these areas, hindering the realization of truly seamless, 'all-screen' devices.\n\nThe key technical approach involves a lower and upper substrate, with thin film transistors (TFTs) on the lower substrate for pixel control. The innovation lies in the precisely placed first reflecting layer on the inner surface of the upper substrate. By positioning this layer across the display area, peripheral area, and edge area, the device effectively controls internal and external light, ensuring consistent reflection and absorption characteristics throughout. This strategic placement helps mask internal components, reduces stray light, and enhances the perceived contrast and visual coherence of the entire display.\n\nFrom a business perspective, this technology offers significant value by enabling manufacturers to design displays with ultra-slim or virtually invisible bezels without compromising optical performance. It enhances product aesthetics, improves user experience through more immersive visuals, and potentially contributes to energy efficiency by optimizing light paths. This innovation is highly applicable to a wide range of devices, including smartphones, tablets, televisions, and automotive displays, where premium design and visual quality are paramount.\n\nThe market opportunity for this advancement is substantial, as consumer demand for sleek, full-screen devices continues to grow. Companies adopting this technology can gain a competitive edge by offering superior display aesthetics and performance, potentially leading to increased market share and brand differentiation in the highly competitive electronics industry.","layman_explanation":"### What Problem Does This Solve?\nImagine you're watching a movie on your phone or TV, and you notice the dark border around the glowing picture. Sometimes, you might even see a slight difference in brightness or color right where the picture ends and the border begins. This isn't just an aesthetic annoyance; it's a significant engineering challenge for display manufacturers. As consumers demand sleeker, 'all-screen' devices, these inconsistencies and visible bezels become a major hurdle. Existing solutions often involve making the bezels thicker to hide components or using complex, costly manufacturing techniques that still don't fully eliminate the problem of light leakage and optical non-uniformity at the edges. This is where the \"Display Device Including Reflecting Layer\" patent steps in.\n\n### How Does It Work?\nAt its heart, this innovation describes a display device that includes a clever addition: a special reflecting layer. Think of it like a perfectly placed, microscopic mirror. Most displays have a top layer and a bottom layer, with all the tiny lights and controls in between. What this patent suggests is putting this reflecting layer on the inside surface of the top layer. But here's the brilliant part: this reflecting layer isn't just over the part of the screen where you see the actual image. It extends beyond that, covering the entire surrounding area, right up to the very edge of the display panel. \n\nSo, imagine your phone screen. This reflecting layer would cover the active picture area, but also the typically dark, inactive border zones, and even the outermost millimeter or two of the glass. By doing this, the invention ensures that light is managed consistently across the *entire* surface. It can reflect ambient light evenly, prevent internal light from escaping where it shouldn't, and mask any underlying components that might otherwise be visible through the glass in the non-picture areas. It's like giving the whole screen, including its borders, a uniform, high-quality finish, making the transition from picture to device frame virtually seamless.\n\n### Why Does This Matter?\nThis innovation matters because it's a foundational step towards truly immersive, 'bezel-less' devices that consumers crave. For businesses, this means:\n*   **Premium Product Design:** Manufacturers can create products with a superior aesthetic, offering a clean, unified look that stands out in the market. This can command higher prices and strengthen brand perception.\n*   **Enhanced User Experience:** A display that appears to float seamlessly to the edges provides a more engaging and less distracting viewing experience, improving customer satisfaction.\n*   **Competitive Edge:** In a crowded market, technologies like this provide a distinct differentiator. Companies that adopt or license this patent can offer products that simply look and perform better than competitors, driving market share.\n*   **New Design Possibilities:** It opens up new avenues for industrial design, allowing for thinner, more elegant devices without compromising optical quality.\n*   **Potential ROI:** The investment in integrating this technology can lead to significant returns through increased sales, premium pricing, and a stronger position in the high-end market segments.\n\n### What's Next?\nThis technology is likely to be adopted across a wide range of devices, from the next generation of smartphones and tablets to high-end televisions and sophisticated automotive displays. We can expect to see devices where the screen appears to melt into the device body, offering an unparalleled visual experience. As manufacturing processes become more refined, integrating such layers will become standard, accelerating the trend towards truly invisible technology. For investors, this patent highlights a key area of innovation with strong growth potential, as it addresses a fundamental desire for seamless digital interaction.","technical_analysis":"The patent US-9853249, titled \"Display Device Including Reflecting Layer,\" details an architectural innovation aimed at enhancing the optical performance and aesthetic integration of display devices, particularly concerning their peripheral and edge regions. This analysis delves into the technical specifics, implementation details, and the underlying principles that make this invention significant for display engineering.\n\n**Technical Architecture**\nAt its fundamental level, the invention describes a display device comprising two primary substrates: a lower substrate and an upper substrate, positioned in a facing relationship. The active display components, notably a thin film transistor (TFT) array, are fabricated on the lower substrate. This is a conventional setup for active-matrix liquid crystal displays (LCDs) or organic light-emitting diode (OLED) displays, where TFTs control the state of individual pixels. The critical differentiator introduced by this patent is the inclusion of a *first reflecting layer*.\n\nThis reflecting layer is strategically positioned on a first surface of the upper substrate, specifically the surface that faces the lower substrate. The innovation's core lies in the *expansive coverage* of this reflecting layer. Unlike prior art that might confine reflective elements strictly to the active display area or use them for specific optical functions within the display, this invention specifies that the first reflecting layer is present in three distinct but interconnected zones:\n1.  **Display Area:** The region where the image is actively displayed.\n2.  **Peripheral Area:** The region outside the display area, typically encompassing the non-active zones and often associated with bezels.\n3.  **Area Adjacent an Edge of the Upper Substrate:** The outermost region, right up to the physical boundary of the display panel.\n\nThis comprehensive integration means the reflecting layer provides a uniform optical characteristic across the entire visible surface of the upper substrate, whether it's actively displaying an image or forms part of the device's aesthetic border.\n\n**Implementation Details and Algorithm Specifics**\nThe implementation of this reflecting layer would typically involve a deposition process during the display panel fabrication. The material for the reflecting layer could be a metallic film (e.g., aluminum, silver) for high reflectivity, or a dielectric multi-layer stack designed to achieve specific reflective properties across the visible spectrum. The choice of material and its thickness would be optimized to provide desired optical characteristics—such as high reflectance, low absorption, and spectral neutrality—while ensuring compatibility with subsequent processing steps and overall device reliability.\n\nThere aren't explicit 'algorithms' in the traditional software sense, but rather optical design principles. The 'algorithm' here is the strategic placement and material selection of the reflecting layer to achieve specific light management goals. By having the reflecting layer extend into the peripheral and edge areas, it serves to:\n*   **Mask internal components:** It can obscure the underlying wiring, driver ICs, or other non-display components that might otherwise be visible through the transparent upper substrate in the peripheral regions, contributing to a cleaner, more premium aesthetic.\n*   **Manage stray light:** It prevents internal light from escaping unevenly at the edges or reflecting off internal structures in an undesirable manner. This reduces light leakage and improves the effective black level.\n*   **Enhance visual uniformity:** By providing a consistent reflective surface, it helps to normalize the appearance of the entire panel, reducing the visual discontinuity often observed between the active display and its surrounding non-active areas. This is particularly important for devices aiming for 'bezel-less' or 'full-screen' designs.\n\n**Integration Patterns and Performance Characteristics**\nThis innovation integrates seamlessly into existing display manufacturing processes. The reflecting layer would be deposited as one of the thin film layers on the upper substrate, likely after color filter or touch sensor layers, but before the final assembly with the lower substrate. Its integration does not necessitate radical changes to the TFT array fabrication but rather augments the optical stack.\n\nPerformance implications are significant:\n*   **Improved Contrast:** By managing ambient light reflection and internal stray light, the perceived contrast ratio can be enhanced, making images appear sharper and more vibrant, especially in brightly lit environments.\n*   **Enhanced Aesthetics:** The primary benefit is the enablement of truly sleek, borderless designs by eliminating visual inconsistencies and masking internal elements at the display's periphery.\n*   **Reduced Power Consumption (Potential):** By more efficiently directing light towards the viewer and minimizing waste, there's a potential for improved optical efficiency, which could translate to lower power demands for a given brightness level.\n*   **Wider Viewing Angles (Indirect):** By reducing edge artifacts, the display's consistent appearance can be maintained across wider viewing angles, leading to a more pleasant user experience.\n\nIn essence, the Display Device Including Reflecting Layer patent provides a robust technical solution to a long-standing challenge in display design, paving the way for more aesthetically pleasing and optically superior display devices across a multitude of applications.","business_analysis":"The patent US-9853249, titled \"Display Device Including Reflecting Layer,\" represents a strategic technological advancement with significant implications for the highly competitive display and consumer electronics markets. This innovation addresses a crucial aesthetic and performance challenge, creating substantial business opportunities and competitive advantages.\n\n**Market Opportunity Size**\nThe global display market is a multi-billion dollar industry, constantly driven by consumer demand for higher quality, more immersive, and aesthetically pleasing screens. This patent directly targets the premium and high-end segments across smartphones, tablets, laptops, smartwatches, televisions, automotive infotainment systems, and even emerging AR/VR devices. The desire for 'all-screen' or 'bezel-less' designs is a dominant trend, and any technology that facilitates this without compromising performance commands a premium. The total addressable market for display components that can benefit from this reflecting layer technology is vast, encompassing billions of units annually across various device categories.\n\n**Competitive Advantages**\nImplementing the Display Device Including Reflecting Layer provides several distinct competitive advantages:\n1.  **Superior Aesthetics:** The ability to create displays with truly uniform appearance from edge-to-edge, eliminating visible bezels and light leakage, offers a significant aesthetic differentiator. This translates to a more premium product perception and enhanced brand value.\n2.  **Improved User Experience:** A seamless, immersive display experience enhances user satisfaction, which is a critical factor in consumer electronics purchasing decisions. This technology contributes to richer visual content consumption and a more integrated device feel.\n3.  **Design Flexibility:** Manufacturers gain greater freedom in industrial design, allowing for thinner form factors and more innovative product shapes without being constrained by optical limitations at the display's periphery.\n4.  **Optical Performance Edge:** Beyond aesthetics, the technology can improve effective contrast and reduce stray light, leading to objectively better image quality, especially in challenging lighting conditions.\n5.  **Potential for Energy Efficiency:** By optimizing light paths, there's a potential for displays to achieve desired brightness levels with less power, offering a valuable selling point for battery-powered devices.\n\n**Revenue Potential and Business Models**\nCompanies holding or licensing this patent could generate revenue through:\n*   **Licensing:** Offering licenses to display manufacturers (e.g., Samsung Display, LG Display, BOE) or device OEMs (e.g., Apple, Samsung Electronics, Xiaomi) seeking to integrate this advanced display technology into their products.\n*   **Component Sales (if applicable):** If the reflecting layer or a sub-component is a distinct sellable item, direct sales to display module assemblers.\n*   **Premium Product Differentiation:** OEMs integrating this technology can command higher prices for their devices due to perceived and actual superior display quality and design.\n\n**Strategic Positioning**\nThis innovation allows companies to strategically position themselves as leaders in advanced display technology. It moves beyond incremental improvements in resolution or refresh rate, addressing a fundamental aspect of display integration and user perception. For display panel manufacturers, it offers a pathway to higher-margin, premium panels. For device OEMs, it provides a crucial component for flagship products that stand out in a crowded market.\n\n**ROI Projections**\nThe return on investment for adopting or licensing this technology can be substantial. For a display manufacturer, it could mean securing lucrative contracts for premium panels. For an OEM, it could translate into increased sales, stronger brand loyalty, and the ability to maintain higher average selling prices (ASPs). The initial investment in R&D or licensing fees would be offset by enhanced market competitiveness, premium pricing, and potentially, greater market share in high-value segments. As the trend towards immersive, 'all-screen' experiences continues, technologies like the Display Device Including Reflecting Layer will become indispensable, making early adoption a strategic imperative with strong long-term ROI.","faqs":[{"answer":"The Display Device Including Reflecting Layer (US-9853249) is a patent for an innovative display technology that introduces a specialized reflecting layer within a display device. This layer is strategically placed on the inner surface of the upper substrate of the display. Unlike conventional approaches, this reflecting layer is not confined solely to the active area where images are displayed.\n\nCrucially, the reflecting layer extends into the peripheral areas surrounding the active display and even reaches the outermost edges of the upper substrate. This comprehensive integration is key to the invention's purpose, which is to achieve superior optical uniformity and aesthetic integration across the entire display module.\n\nBy managing light consistently across both active and non-active regions, the Display Device Including Reflecting Layer addresses common issues like light leakage, visible internal components, and inconsistent appearance at the display's borders. It's a foundational technology designed to enable truly seamless, 'all-screen' display designs for a wide range of electronic devices.","question":"What is Display Device Including Reflecting Layer?"},{"answer":"The Display Device Including Reflecting Layer works by integrating a precisely engineered reflecting layer into the display's structure. The display typically consists of a lower substrate (which houses components like thin film transistors, or TFTs) and an upper substrate. This patent places the reflecting layer on the surface of the upper substrate that faces the lower substrate.\n\nThe core mechanism is the strategic placement of this reflecting layer across three key zones: the active display area, the peripheral area (outside the active display), and the area adjacent to the edge of the upper substrate. In the active display area, the reflecting layer can optimize light output, enhancing brightness and contrast. In the peripheral and edge areas, it performs several critical functions.\n\nFirstly, it acts as a mask, concealing underlying circuitry and components that might otherwise be visible through the transparent substrate. Secondly, it manages stray light, preventing unwanted light from escaping unevenly at the edges and reducing reflections that can degrade visual quality. By providing a uniform reflective surface across the entire panel, the Display Device Including Reflecting Layer ensures consistent optical characteristics, making the entire screen appear seamless and integrated.","question":"How does Display Device Including Reflecting Layer work?"},{"answer":"The Display Device Including Reflecting Layer patent primarily solves the long-standing problem of achieving true optical uniformity and aesthetic integration at the edges and peripheral areas of display devices. In conventional displays, these regions often suffer from several issues:\n\n1.  **Light Leakage:** Uncontrolled light escaping from the display's borders, leading to inconsistent brightness and degraded black levels.\n2.  **Visible Internal Components:** The transparency of display substrates can expose underlying wires, driver circuits, or structural elements in non-active zones, creating an unappealing aesthetic.\n3.  **Optical Discontinuity:** A noticeable visual difference between the vibrant active display area and the often dimmer or less uniform peripheral regions, which breaks the illusion of immersion.\n\nThis innovation addresses these challenges by providing an intrinsic, structural solution that ensures consistent light management and concealment across the entire display surface, enabling the creation of devices with ultra-slim or virtually invisible bezels without compromising visual quality. The Display Device Including Reflecting Layer is key to unlocking next-generation screen designs.","question":"What problem does Display Device Including Reflecting Layer solve?"},{"answer":"The patent US-9853249, titled \"Display Device Including Reflecting Layer,\" was filed on 2017-02-24 and published on 2017-12-26. The patent abstract does not list specific inventors or an assignee. In many patent filings, especially those from large corporations, the inventors' names are often withheld from public view during the initial publication phase or if the patent is assigned to a company from the outset.\n\nHowever, the innovation described in the Display Device Including Reflecting Layer patent is the result of focused research and development in the field of display technology. Such advancements typically emerge from teams of engineers and scientists working within major display manufacturing companies or research institutions dedicated to improving screen performance and design. The lack of publicly listed inventors or an assignee in the provided data suggests it falls under the common practice of corporate patent ownership.","question":"Who invented Display Device Including Reflecting Layer?"},{"answer":"The Display Device Including Reflecting Layer offers several key benefits that are set to redefine modern display technology:\n\n1.  **Enhanced Visual Uniformity:** It ensures consistent light management and appearance across the entire display, from the center to the very edges, eliminating distracting inconsistencies.\n2.  **Enables Ultra-Slim or Invisible Bezels:** By intrinsically managing light leakage and concealing internal components, this technology provides the optical foundation for creating devices with significantly reduced or virtually non-existent bezels.\n3.  **Improved Aesthetic Integration:** Products incorporating this innovation will boast a cleaner, more premium look, as the display seamlessly blends into the device's overall design.\n4.  **Reduced Light Leakage:** The reflecting layer effectively contains stray light, leading to deeper perceived black levels and higher effective contrast, especially in ambient light conditions.\n5.  **Potential for Energy Efficiency:** By optimizing light paths and minimizing waste, there's a possibility for displays to achieve desired brightness levels with lower power consumption. These benefits make the Display Device Including Reflecting Layer a crucial advancement for next-generation electronic devices.","question":"What are the key benefits of Display Device Including Reflecting Layer?"},{"answer":"The Display Device Including Reflecting Layer distinguishes itself from prior art by offering a more integrated and comprehensive solution to display edge optics. Prior art often relied on external or localized methods to address issues at the display periphery. These included using thick physical bezels to mask components, applying complex external masking films, or employing specialized bending techniques for flexible displays.\n\nIn contrast, this patent's innovation is the *pervasive and intrinsic integration* of a reflecting layer directly onto the inner surface of the upper substrate. This layer covers not just the active display area but, crucially, extends into the peripheral areas and right to the edge of the substrate. This holistic approach means that light management, component concealment, and aesthetic uniformity are handled structurally within the display panel itself, rather than through external or fragmented solutions.\n\nThis fundamental difference allows the Display Device Including Reflecting Layer to achieve a level of seamlessness and optical consistency that is superior to many prior art methods, simplifying the design process for truly bezel-less devices and enhancing overall visual performance.","question":"How is Display Device Including Reflecting Layer different from prior art?"},{"answer":"The Display Device Including Reflecting Layer is poised to impact a wide array of industries that rely heavily on display technology:\n\n1.  **Consumer Electronics:** This is arguably the most significant impact area, encompassing smartphones, tablets, laptops, smartwatches, and televisions. The demand for 'all-screen' devices with premium aesthetics will drive widespread adoption.\n2.  **Automotive:** Modern vehicles are increasingly integrating large, sophisticated displays into dashboards and infotainment systems. This innovation will enable more seamless, elegant, and integrated automotive interior designs.\n3.  **Augmented/Virtual Reality (AR/VR):** For immersive headsets and glasses, achieving wide fields of view without distracting edge artifacts is crucial. The Display Device Including Reflecting Layer can enhance the visual quality and immersion in these cutting-edge devices.\n4.  **Industrial Displays:** Control panels, kiosks, and public information displays can benefit from improved aesthetics and durability, offering clearer and more engaging visual interfaces.\n5.  **Medical Devices:** Displays in medical equipment require high clarity and often durable, integrated designs. This technology can contribute to both.\n\nIn essence, any industry where visual quality, sleek design, and immersive user experience are paramount will find significant value in the advancements offered by the Display Device Including Reflecting Layer.","question":"What industries will Display Device Including Reflecting Layer impact?"},{"answer":"The patent for \"Display Device Including Reflecting Layer\" (US-9853249) has a clear timeline regarding its filing and publication dates.\n\nThe **Filing Date** for this patent was **2017-02-24**. This is the date when the patent application was officially submitted to the patent office, initiating the examination process.\n\nThe **Publication Date** of the patent was **2017-12-26**. This is when the patent document was made publicly available, detailing the invention's claims, abstract, and often diagrams. While the term 'granted' refers to the date a patent is officially issued after examination, the provided data specifically mentions the publication date. The publication of the patent means the details of the Display Device Including Reflecting Layer are now accessible for public review, laying the groundwork for its potential commercialization and further development.","question":"When was Display Device Including Reflecting Layer filed/granted?"},{"answer":"The commercial applications of the Display Device Including Reflecting Layer are extensive, primarily driven by the universal demand for high-quality, aesthetically pleasing displays across various sectors:\n\n1.  **Premium Smartphones and Tablets:** Enabling manufacturers like Apple, Samsung, and Google to produce devices with industry-leading screen-to-body ratios and truly borderless designs, commanding premium prices.\n2.  **High-End Televisions:** Facilitating the design of 'frameless' TVs that blend seamlessly into home environments, enhancing the immersive viewing experience for consumers.\n3.  **Smartwatches and Wearables:** Allowing for more expansive and visually consistent displays on compact devices, improving user interaction and device aesthetics.\n4.  **Automotive Infotainment Systems:** Creating integrated and elegant digital dashboards and central consoles that enhance the luxurious feel and technological sophistication of vehicles.\n5.  **Laptop Displays:** Offering laptops with minimal bezels, providing a larger visual workspace in a more compact and aesthetically appealing form factor.\n6.  **Augmented and Virtual Reality Headsets:** Improving the visual immersion and reducing peripheral distortions in AR/VR displays, crucial for a realistic user experience.\n\nBy addressing fundamental optical challenges, the Display Device Including Reflecting Layer provides a critical component for manufacturers to differentiate their products and meet evolving consumer expectations for superior display design and performance.","question":"What are the commercial applications of Display Device Including Reflecting Layer?"},{"answer":"The Display Device Including Reflecting Layer lays a crucial foundation for several exciting future developments in display technology:\n\n1.  **True 'Invisible' Displays:** As manufacturing processes become more refined, the reflecting layer could enable displays that are virtually indistinguishable from the device's surface when off, only revealing content when activated. This will foster new paradigms in industrial design.\n2.  **Enhanced Flexible and Foldable Screens:** For next-generation flexible and foldable displays, maintaining optical uniformity across bends and creases is paramount. This technology's principles will be vital in ensuring that such displays offer a seamless visual experience, free from distortions at the folding points.\n3.  **Integration with Advanced Display Technologies:** The reflecting layer can be further optimized for emerging display technologies like micro-LEDs, quantum dot displays, and advanced OLED panels, pushing the boundaries of brightness, color accuracy, and energy efficiency.\n4.  **Dynamic Optical Properties:** Future iterations might involve active reflecting layers whose properties can be dynamically adjusted to optimize for various ambient light conditions or specific content, offering an even more adaptive viewing experience.\n5.  **Smart Surfaces and Ambient Computing:** This innovation will contribute to the seamless integration of displays into everyday objects, furniture, and architectural elements, making interactive surfaces ubiquitous and aesthetically unobtrusive. The Display Device Including Reflecting Layer is a key enabler for a future where displays are pervasive yet invisible.","question":"What are the future developments expected for Display Device Including Reflecting Layer?"}],"topics":["display device","reflecting layer","thin film transistor","peripheral area","image display","technical","background","relentless"],"tech_cluster":null},"seo":{"title":"Display Device Including Reflecting Layer - Patent US-9853249","description":"Discover the Display Device Including Reflecting Layer patent (US-9853249) that enhances display uniformity and enables bezel-less designs. Full analysis and implications.","keywords":["display device","reflecting layer","thin film transistor","peripheral area","image display","bezel-less display","display uniformity","display technology","patent US-9853249","light management","display innovation","screen aesthetics","optical layer"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853249","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9853249","citation_suggestion":"Patentable. \"Display device including reflecting layer\" (US-9853249). https://patentable.app/patents/US-9853249","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853249","json":"https://patentable.app/api/llm-context/US-9853249","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T15:37:12.691Z"}