Company patents

SCHWIND eye-tech-solutions GmbH

SCHWIND eye-tech-solutions GmbH's patent strategy is heavily concentrated in medical devices, with Implants & Prosthetics representing a dominant 92.8% of its portfolio. While Medical Diagnostics & Surgery saw a significant 200.0% YoY growth in 2024, it, along with Healthcare Informatics, appears to be a shifting priority, experiencing declines of -22.2% and -60.0% respectively in 2025, and zero patents so far in 2026, suggesting a potential refocusing despite previous growth in related areas.

Patent Trend by Technology Area

Yearly patent publications since 2023

Product themes

Product-level themes inferred from filings since 2023, with category chips showing where each theme appears. Select a theme to filter the patents below.

69 US filings (since 2023) · 8 categories · 9 themes

Ophthalmic Surgical Systems

Integrated systems and specialized instruments for performing delicate surgical procedures on the eye, often involving the delivery, manipulation, or monitoring of ophthalmic implants.

Implants & Prosthetics
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50since 2023
+5.6%YoY
Advanced Optical Imaging & Lens Design

Development of sophisticated optical lens assemblies and computational methods to achieve high-resolution, precise, or specialized imaging, often for medical or scientific applications.

Optical Elements & Systems
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21since 2023
-36.4%YoY
Implantable Bio-Stimulation & Sensing

Implantable devices that deliver electrical, optical, or other forms of energy to stimulate tissues or nerves, or sense physiological parameters for therapeutic purposes.

Implants & Prosthetics
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6since 2023
+100.0%YoY
Interventional & Implantable Therapies

Design and application of devices that are inserted into the body or implanted to treat diseases, modulate physiological functions, or repair anatomical structures.

Medical Diagnostics & Surgery
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3since 2023
n/a
Welding Process Controlfiltered

Systems and methods for precisely controlling welding parameters such as power, speed, oscillation, and material feed to optimize weld quality, consistency, and efficiency, often involving automated or semi-automated processes.

Welding & Soldering
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3since 2023
n/a
Laser Safety and Control

Techniques and systems for ensuring the safe and precise operation of lasers, including power regulation, hazard detection, and deconfliction mechanisms in complex or dynamic environments.

Lasers
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2since 2023
n/a
Laser Material Processing

Techniques and systems utilizing laser beams for precise material modification, including cutting, cladding, ablation, and surface treatment, often for joining, shaping, or removing material.

Welding & Soldering
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2since 2023
n/a
Surgical Imaging & Navigation

Systems and methods that use imaging technologies, computer vision, and augmented reality to provide real-time guidance, localization, and visualization during surgical procedures or for detailed anatomical assessment.

Medical Diagnostics & Surgery
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1since 2023
new
Tunable Laser Sources

Mechanisms and designs for actively changing or stabilizing the output wavelength, frequency, or spectral properties of a laser, often involving integrated optical filters, resonators, or pump adjustments.

Lasers
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1since 2023
n/a

Patents

Showing 1-3 of 3

Welding Process Control
Page 1 of 1
US 20240359260 A1APPLICATION
B23K26/0622

PROCESSING APPARATUS, METHOD FOR CONTROLLING THE PROCESSING APPARATUS, CONTROL DEVICE, COMPUTER PROGRAM AND COMPUTER-READABLE MEDIUM

Filed:2024-04-25Pub:2024-10-31
Applicant:SCHWIND EYE-TECH-SOLUTIONS GMBH

The invention relates to a processing apparatus ( 1 ) for processing an object ( 9 ) by means of laser pulses ( 3 ), which at least comprises: at least one laser beam source ( 2 ) configured for the emission of laser pulses ( 3 ), at least one beam exit device ( 4 ), which is configured to guide the respective laser pulses ( 3 ) with a predetermined laser pulse cross-sectional profile according to a pulse distribution profile ( 11 ) in a processing area ( 7 ) of a preset processing volume ( 8 ) of an object ( 9 ) to be processed, and a control device ( 10 ), which is configured to ascertain the pulse distribution profile ( 11 ) in the processing area ( 7 ) according to a predetermined pulse distribution ascertaining method for the preset processing volume ( 8 ) and the predetermined laser pulse cross-sectional profile. It is provided that the control device ( 10 ) is configured to transform the preset processing volume ( 8 ) into a deconvoluted processing volume ( 15 ) according to a predetermined deconvolution operation (F 2 ) with the laser pulse cross-sectional profile as a point spread function of the deconvolution operation (F 2 ), and to transform the deconvoluted processing volume ( 8 ) into the pulse distribution profile ( 11 ) by means of a predetermined conversion function (F 5 ), in the predetermined pulse distribution ascertaining method.