Patent US10337841B2, titled “Directed Energy Weapon,” showcases an innovative leap in modern defense technologies. This patent outlines a system that employs high-powered fiber lasers, each capable of generating an output of at least 1 kW, to direct concentrated energy beams toward specific targets.
These are equipped with precise control mechanisms, the system utilizes feedback from deflected beam sensors to ensure accurate alignment of the energy beams. With clear military applications, this directed energy technology represents a significant advancement in the field.
To fully understand its implications, we conducted a comprehensive prior art search using our Global Patent Search Tool. This search aimed to uncover earlier innovations that could potentially impact the patent’s claims. Let’s delve into the findings.
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Our Process for Conducting the Prior Art Search
To uncover the key prior art for US10337841B2 , we utilized the Global Patent Search Tool, a highly efficient platform designed to streamline patent searches. Here’s how we approached it:
1. Enter the Patent Number
We began by inputting the patent number, US10337841B2 , into the search field.
2. Adjust the Search Date
Next, we tailored the search to prioritize documents predating the priority date of Jul 02, 2015. This helped us filter out irrelevant patents and focus on those that could challenge the claims of US10337841B2 .
3. Initiate the Search
With the information entered, we clicked the search button, allowing the tool to generate a comprehensive list of potential prior art.
4. Analyze the Results
The tool provided a ranked list of patents, emphasizing those with the highest relevance based on technology overlap, filing dates, and content similarities.
Top 10 Prior Art Search Results for US10337841B2 –
We conducted a thorough prior art search for patent US10337841B2, which focuses on a laser alignment system for optical components, enabling precise collimation and co-alignment of laser beams. This technology has applications in fields like military targeting systems and optical communications.
Using our Global Patent Search Tool, we identified the following top 10 relevant patents that could impact the novelty and claims of US10337841B2.
1. Method And Apparatus For Collimating And Coaligning Optical Components (US8256152B2)
Filed: July 14, 2011
Published: September 4, 2012
Summary: This patent introduces a laser alignment assembly that uses two or more lasers aligned with reflective surfaces to generate collimated and co-aligned light beams. Its application in weapon aiming systems makes it highly relevant to the technology described in US10337841B2, as both utilize similar collimation techniques for precise alignment.
2. Telemetric Laser Aiming Device (EP1808665A1)
Filed: December 18, 2006
Published: July 18, 2007
Summary: This invention describes a telemetric laser beam aligned with a collimation beam through optical fiber systems. Its reliance on fiber optics for precise beam alignment shares conceptual similarities with US10337841B2 in terms of ensuring accuracy in optical systems.
3. Optical Fiber Light Guide Type Laser Transmitter And Align Method Thereof (KR101214529B1)
Filed: December 30, 2010
Published: December 24, 2012
Summary: This system uses infrared and visible light lasers for beam alignment, ensuring collinearity via a fiber-based system. Like US10337841B2, this patent focuses on collimating laser beams for precise targeting, particularly useful in systems where infrared lasers are employed.
4. Optical Transmission System And Method (JP2006189256A)
Filed: December 28, 2004
Published: July 20, 2006
Summary: This optical transmission system enhances the accuracy of laser beam targeting, reducing weight while maintaining high precision. The system’s beam control mirrors the laser collimation approach in US10337841B2.
5. Laser Diode Assembly For Use In A Small Arms Transmitter (TW421707B)
Filed: February 19, 1999
Published: February 11, 2001
Summary: This patent describes a laser diode assembly used in a small arms transmitter for military applications. The use of optical wedges for beam steering aligns closely with the goals of US10337841B2, where laser collimation and alignment are critical for weapon systems.
6. Laser Transmitter For Small Weapons (KR100295096B1)
Filed: October 29, 1996
Published: September 17, 2001
Summary: This patent discusses a laser transmitter with an electro-mechanical alignment system for small arms, focusing on azimuth and elevation alignment. The method of aligning laser beams with boresights is a key aspect shared with US10337841B2.
7. Device To Control The Aiming And Focusing Of Laser Systems On A Target (US6040566A)
Filed: January 20, 1998
Published: March 21, 2000
Summary: This device utilizes reflective surfaces and wavefront analyzers to control laser beam focusing on a target. The precision control over beam collimation and alignment in this patent bears relevance to the technology in US10337841B2.
8. Three-dimensional Scanning Method Using A Telecentric Beam (WO2009018856A1)
Filed: August 6, 2007
Published: February 12, 2009
Summary: This method maintains a laser beam perpendicular to the target area, utilizing telecentric beam scanning. Its focus on ensuring beam precision across dimensions connects with the collimation techniques in US10337841B2.
9. Sight-guidance Instrument (RU2188380C2)
Filed: June 8, 2000
Published: August 27, 2002
Summary: This instrument enhances the alignment of laser beams for missile guidance systems. The optomechanical approach to laser collimation and alignment discussed here aligns with the core principles of US10337841B2, especially in military applications.
10. Fiber Laser Device For Neutralizing Unexploded Ordinance (US8272157B2)
Filed: March 26, 2006
Published: September 25, 2012
Summary: This fiber laser device includes a mechanism for aiming laser beams independently of the fiber laser source. The focus on precise beam direction through an aiming mechanism offers similar technical challenges to the collimation and alignment issues addressed by US10337841B2.
Final Take
We recognized a growing need for a comprehensive tool that not only tracks patent history but also connects it with current technological advancements. That’s why we created the Global Patent Search Tool.
Our tool goes beyond simple patent searches. It allows you to explore the intersection of past inventions with emerging innovations, providing valuable insights for inventors, researchers, and businesses alike. Whether you’re seeking inspiration or aiming to refine your next project, this tool serves as a powerful resource.
Let the Global Patent Search Tool guide you through prior art, inspire fresh ideas, and help shape the future of your innovations. Start planning your next breakthrough today.
Disclaimer
This article is for informational purposes only and does not provide legal advice. The results from the Global Patent Search Tool should be used for research, not as legal guidance. For any legal matters, consult a qualified attorney.
