Company patents

Riddell, Inc.

Riddell, Inc.'s patent strategy reveals a surprising dual focus, with nearly 30% of its portfolio in Image Processing, a category that saw a remarkable 300% growth in 2025 but has zero patents so far in 2026, indicating a potential shift. While Sports Equipment remains its largest category at 36.1%, the company is also showing an emerging interest in Outerwear & Apparel, which experienced 100% year-over-year growth in 2026.

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.

61 US filings (since 2023) · 8 categories · 7 themes

Integrated Protective Sports Gear

Protective equipment, such as mouthguards or helmets, designed with enhanced structural integrity, ergonomic fit, and sometimes integrated sensors for performance or safety monitoring.

Sports Equipment
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25since 2023
+125.0%YoY
Adaptive & Modular Garment Design

Design principles and features in apparel that allow for adjustability, customization, easy replacement of components, or specific fit to accommodate diverse body shapes, activities, or medical requirements.

Outerwear & Apparel
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18since 2023
new
Multi-material Product Integration & Finishingfiltered

Techniques for combining multiple materials or layers, often with specialized surface treatments, coatings, or assembly methods, to create functional or aesthetically enhanced plastic articles, including consumer goods and encapsulated electronics.

Plastics Shaping & Molding
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12since 2023
+900.0%YoY
Protective & Safety Apparel

Garments and accessories engineered to provide protection against physical impacts, environmental hazards (e.g., moisture, pathogens), or to enhance personal safety through features like airbags or specialized masks.

Outerwear & Apparel
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4since 2023
new
AI-Enhanced Sports Training & Monitoring

Systems using artificial intelligence and machine learning to monitor athlete performance, provide personalized training plans, predict physiological responses, or create virtual representations for feedback and analysis.

Sports Equipment
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3since 2023
+300.0%YoY
Wearable Physiological Sensing

Development of devices and methods for non-invasive or minimally invasive collection and analysis of physiological data, often from wearable sensors, to monitor health, activity, or specific conditions.

Medical Diagnostics & Surgery
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3since 2023
0.0%YoY
Component Performance Optimization

Using computational design and simulation to optimize the performance characteristics of specific components or materials within a larger engineering system.

Electronic Design Automation (CAD/EDA)
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1since 2023
n/a

Patents

US 20250169568 A1APPLICATION
A42C2/00

SYSTEM AND METHOD FOR DESIGNING AND MANUFACTURING A PROTECTIVE HELMET TAILORED TO A SELECTED GROUP OF HELMET WEARERS

Filed:2025-01-16Pub:2025-05-29
Applicant:Riddell, Inc.

The invention relates to a protective sports helmet purposely designed for a selected group of helmet wearers from amongst a larger population of helmet wearers. A multi-step method for helmet design starts by collecting information from a population of players that may include information about the shape of a player's head and the impacts the player has sustained. This information is then processed to create player population information that is sorted to create categories. Advanced mathematical techniques are utilized to further sort these categories into player groups or data sets based on player attributes. Once the player groups are identified, another multi-step process is utilized to design optimized helmet prototype models for each player group. These optimized helmet prototype models are then further processed into complete helmet models by determining a structural design and chemical composition that is manufacturable and has mechanical properties that are substantially similar to the optimized helmet prototype model. Physical helmet prototypes are then created and tested using a unique helmet standard derived from information associated with each player group. Once the prototypes pass testing, the complete helmet models can be manufactured to create actual stock helmets or stock helmet components for future players whose characteristics and attributes place them within the selected player group.

US 20250169567 A1APPLICATION
A42C2/00

SYSTEM AND METHOD FOR DESIGNING AND MANUFACTURING A PROTECTIVE HELMET TAILORED TO A SELECTED GROUP OF HELMET WEARERS

Filed:2025-01-16Pub:2025-05-29
Applicant:Riddell, Inc.

The invention relates to a protective sports helmet purposely designed for a selected group of helmet wearers from amongst a larger population of helmet wearers. A multi-step method for helmet design starts by collecting information from a population of players that may include information about the shape of a player's head and the impacts the player has sustained. This information is then processed to create player population information that is sorted to create categories. Advanced mathematical techniques are utilized to further sort these categories into player groups or data sets based on player attributes. Once the player groups are identified, another multi-step process is utilized to design optimized helmet prototype models for each player group. These optimized helmet prototype models are then further processed into complete helmet models by determining a structural design and chemical composition that is manufacturable and has mechanical properties that are substantially similar to the optimized helmet prototype model. Physical helmet prototypes are then created and tested using a unique helmet standard derived from information associated with each player group. Once the prototypes pass testing, the complete helmet models can be manufactured to create actual stock helmets or stock helmet components for future players whose characteristics and attributes place them within the selected player group.

US 20250169566 A1APPLICATION
A42C2/00

SYSTEM AND METHOD FOR DESIGNING AND MANUFACTURING A PROTECTIVE HELMET TAILORED TO A SELECTED GROUP OF HELMET WEARERS

Filed:2025-01-16Pub:2025-05-29
Applicant:Riddell, Inc.

The invention relates to a protective sports helmet purposely designed for a selected group of helmet wearers from amongst a larger population of helmet wearers. A multi-step method for helmet design starts by collecting information from a population of players that may include information about the shape of a player's head and the impacts the player has sustained. This information is then processed to create player population information that is sorted to create categories. Advanced mathematical techniques are utilized to further sort these categories into player groups or data sets based on player attributes. Once the player groups are identified, another multi-step process is utilized to design optimized helmet prototype models for each player group. These optimized helmet prototype models are then further processed into complete helmet models by determining a structural design and chemical composition that is manufacturable and has mechanical properties that are substantially similar to the optimized helmet prototype model. Physical helmet prototypes are then created and tested using a unique helmet standard derived from information associated with each player group. Once the prototypes pass testing, the complete helmet models can be manufactured to create actual stock helmets or stock helmet components for future players whose characteristics and attributes place them within the selected player group.

US 20250151837 A1APPLICATION
A42C2/00

SYSTEM AND METHOD FOR DESIGNING AND MANUFACTURING A PROTECTIVE HELMET TAILORED TO A SELECTED GROUP OF HELMET WEARERS

Filed:2025-01-16Pub:2025-05-15
Applicant:Riddell, Inc.

The invention relates to a protective sports helmet purposely designed for a selected group of helmet wearers from amongst a larger population of helmet wearers. A multi-step method for helmet design starts by collecting information from a population of players that may include information about the shape of a player's head and the impacts the player has sustained. This information is then processed to create player population information that is sorted to create categories. Advanced mathematical techniques are utilized to further sort these categories into player groups or data sets based on player attributes. Once the player groups are identified, another multi-step process is utilized to design optimized helmet prototype models for each player group. These optimized helmet prototype models are then further processed into complete helmet models by determining a structural design and chemical composition that is manufacturable and has mechanical properties that are substantially similar to the optimized helmet prototype model. Physical helmet prototypes are then created and tested using a unique helmet standard derived from information associated with each player group. Once the prototypes pass testing, the complete helmet models can be manufactured to create actual stock helmets or stock helmet components for future players whose characteristics and attributes place them within the selected player group.

US 20250151836 A1APPLICATION
A42C2/00

SYSTEM AND METHOD FOR DESIGNING AND MANUFACTURING A PROTECTIVE HELMET TAILORED TO A SELECTED GROUP OF HELMET WEARERS

Filed:2025-01-16Pub:2025-05-15
Applicant:Riddell, Inc.

The invention relates to a protective sports helmet purposely designed for a selected group of helmet wearers from amongst a larger population of helmet wearers. A multi-step method for helmet design starts by collecting information from a population of players that may include information about the shape of a player's head and the impacts the player has sustained. This information is then processed to create player population information that is sorted to create categories. Advanced mathematical techniques are utilized to further sort these categories into player groups or data sets based on player attributes. Once the player groups are identified, another multi-step process is utilized to design optimized helmet prototype models for each player group. These optimized helmet prototype models are then further processed into complete helmet models by determining a structural design and chemical composition that is manufacturable and has mechanical properties that are substantially similar to the optimized helmet prototype model. Physical helmet prototypes are then created and tested using a unique helmet standard derived from information associated with each player group. Once the prototypes pass testing, the complete helmet models can be manufactured to create actual stock helmets or stock helmet components for future players whose characteristics and attributes place them within the selected player group.